Storm and Rogue asked Shadowcat and Lockheed to join them for lunch at the X-Mansion since they were in town for a long weekend. Kitty Pryde and her purple-skinned alien friend head back to Excalibur in the United Kingdom on Tuesday. Even superheroes need to eat! ;)

  

Poor Sindy's feeling frazzled.

 

'Yes, Maggie. You've done *such* a good job of laying the table that there's not enough room left for the turkey!!'

Right hand wall in progress.....

The 'Lord Magnus Racing #49' is a Steampunk interpretation of the 1960's era Formula Racer.

 

In place of a petrol-powered mid-engined powerplant is a steam boiler and condenser unit.

 

The car is loosely based on a Lotus 49-style Formula 1 car, hence the #49 nomenclature.

 

This Lego miniland-scale model Steampunk Racer has been created for Flickr LUGNuts' 86th Build Challenge, - "Steampunk Motorworks", - for creations of road-going vehicles in Steampunk style.

Built by the Public Works Department for a princely £7,000.00, the Mount Buffalo Chalet was opened in 1910 by the Victorian State Government as Australia’s first ski lodge, and it quickly became a popular destination within the alpine region. Initially leased to private enterprise as a guest house, The Chalet was taken over by Victorian Railways in October 1924. Described as the “last word in luxury”, The Chalet featured large sitting rooms, ample fireplaces, a smoking room, well ventilated rooms of capacious size and hot and cold baths. They offered holiday packages with train services running to Porpunkah railway station and then a connecting Hoys Roadlines service. It was a very popular destination for newlyweds as the perfect place for a honeymoon, and over the years traditions began to emerge such as an elegant dress code within The Chalet, a dinner gong to announce dinner, costume parties and grand balls in The Chalet’s ballroom.

 

Originally intended to be built in granite, cost blowouts of £3,000.00 meant that instead The Chalet was built of timber. To this day, it is still the largest timber construction in Victoria. It was designed in the fashionable Arts and Crafts style of the period. Reminiscent in style to northern European Chalet architecture, the Mt Buffalo Chalet is built on a coursed random rubble plinth, with a series of hipped and gabled corrugated iron roofs. Originally designed as a symmetrical, gabled roof building, early additions were carried out in a similar style and continued the symmetry of the front facade. The second storey addition to the central wing altered the appearance of the building, however the bungalow character was retained. Slender rough cast render chimneys with tapering tops and random coursed rubble bases, a decorative barge board over the main entry, decorative timber brackets supporting timber shingled gable ends, exposed rafters and double hung, paned windows are all typical architectural details of the Arts and Crafts Movement. It was constructed over a thirty year period during which time extensions, extra wings and outbuildings were added and removed with the changing times and its tourism demands. Improvements were made soon after construction and these included a golf links in 1911, a north wing addition in 1912 and a south wing and billiard room in 1914. Heating and lighting in The Chalet was improved and upgraded in 1919. Between 1921 and 1922, an addition to the south wing increased bedroom and bathroom facilities. The billiard room was moved to the front of the house and the terraced garden, with rubble granite retaining walls, was laid out at the front of The Chalet. The present dining room, the kitchen and billiard room wings were constructed in 1925, and the original dining room was converted to a ballroom, with a stage. Balustrading along the front of the building was removed and large windows inserted to provide uninterrupted views. Between 1937 and 1938 major alterations were made with the extension of the south wing and a second storey added to the central wing of the building. At this time the provisions for two hundred guests at The Chalet was noted as more than equalling the best Melbourne hotels. Internally, some remnants of decoration remain, reflecting various stages of The Chalet’s development, and these can be viewed through The Chalet’s large windows, where several suites, the lounge and the dining room are all set up to display what the accommodation was like. The formal terraced gardens built around the Mount Buffalo Chalet were seen as a civilising image within the context of the wild and relatively harsh Australian landscape. The key built features if the gardens seen today remain intact. The garden’s shape and form remain largely unchanged from when they were created including the stonewalling, terracing, central set of stairs and exposed bedrock.

 

The Mount Buffalo Chalet is lovingly sometimes referred to as the “Grand Old Lady”. If nothing else, she is a unique survivor of the earliest days of recreational skiing in Australia. It was included on the Victorian Heritage Register in 1992 and is maintained today as a time capsule to show what life was like when tourism was done on a grand scale.

Seen at the Tucson Botanical Gardens, a five-and-a-half-acre urban collection of 16 residentially scaled gardens located in Tucson, Arizona -- truly a lush and tranquil oasis in the heart of the city. (13-03-13-2095)

 

From October through April, it also includes one of Tucson’s favorite annual events – Butterfly Magic! Inside a tropical greenhouse, visitors can wander the paths, surrounded by exotic and even rare butterflies from around the world, plus many beautiful varieties of orchids.

Today's theme in We're Here! is "Happy Truck Thursday" and as it turns out, we're a two-truck family. My husband (aka "The Disabled Guy") has a full-size four-door Chevy Silverado. I have a mid-size four-door Chevy Colorado. They're not parked close enough together to get a good photo of them because my son's car (a Toyota, I don't know where we went wrong. I mean, where's the gas-guzzling low mileage?) is in the way.

 

So, I improvised. The Disabled Guy is currently rebuilding his train area (he does N-scale trains), so I poked my head into the room and asked if he had any trucks handy. And this was the result.

Year Made: 1901-1924

Glassmaker: Whitall Tatum Company

Color: clear

Product: medicine

Bottler: S. Rau & Company Pharmacists Bethlehem, PA

Volume: 3 ounces

Height: 5 1/4"

Diameter: 2 1/8" x 1 1/4"

Weight: 4.3 ounces

Seams: 2 fade out on neck

Label Type: embossed

Closure Type: cork

 

Notes: Embossed on front " S. RAU & CO. / PHARMACISTS / [ scale pictorial ] / BETHLEHEM / PA "

Embossed on bottom: " W.T. CO. / T P P / U.S.A "

According to Lehigh Valley History on Facebook, Simon Rau Drug Store, formerly at 420 Main Street, Bethlehem PA., was the oldest drug store in the USA. Simon was the grandson of indentured servant John Conrad Rau, who arrived in America in 1768. Dr. Frederic Otto opened an apothecary on this site in 1743. A pharmacy operated there until it closed in 1954, The building is incorporated within the Moravian Book Shop today.

I used some beads, head pin jewellery findings, super glue and a piece of voile fabric.

1. I hemmed the voile to the required size and worked out how many 'hooks' I would need.

2. I super glued the beads to the head pins.

3. Using a piece of dowel that I painted black, as a guide, I bent the head pins over the dowel.

4. Then I glued the beads to the voile.

5. I hung the rod and curtain across the bath/shower. It was a bit long so I may adjust that (or not, lol!)

6. When I drew the curtain back I didn't like it all billowy, so I decided to make a tie back. I used an earring hook, 2 jump rings and a small piece of chain. I cut the earring hook at an angle to make it sharp enough to push into the foamcore.

7. Then I put it in place and used a dab of super glue, to make sure it didn't pull out when I tied the curtain back.

8. This shows the billowy look.

9. Much better with the tie back. Here it is finished, with the blind and shower mat I made yesterday.

 

Thanks for looking, and I hope it's of some help to someone :)

A 5-percent scale model of NASA's Space Launch System undergoes acoustic testing July 2 at NASA's Marshall Center, continuing the Scale Model Acoustic Test (SMAT) program that is paving the way for full-scale construction of the next-generation spacecraft. The heavily instrumented scale model provides data on the acoustical energy that could be expected during launch. The Space Launch System, America’s next flagship in space, will carry human crews on new missions of exploration at Mars and other destinations across the solar system.

 

Image credit: NASA/MSFC

 

Original image:

www.nasa.gov/sls/multimedia/gallery/smat-test-july22014.html

 

More about SLS:

www.nasa.gov/exploration/systems/sls/index.html

 

More SLS Photos:

www.nasa.gov/exploration/systems/sls/multimedia/gallery/S...

 

Space Launch System Flickr album

www.flickr.com/photos/28634332@N05/sets/72157627559536895/

 

______________________________

These official NASA photographs are being made available for publication by news organizations and/or for personal use printing by the subject(s) of the photographs. The photographs may not be used in materials, advertisements, products, or promotions that in any way suggest approval or endorsement by NASA. All Images used must be credited. For information on usage rights please visit: www.nasa.gov/audience/formedia/features/MP_Photo_Guidelin...

The geothermal areas of Yellowstone include several geyser basins in Yellowstone National Park as well as other geothermal features such as hot springs, mud pots, and fumaroles. The number of thermal features in Yellowstone is estimated at 10,000. A study that was completed in 2011 found that a total of 1,283 geysers have erupted in Yellowstone, 465 of which are active during an average year. These are distributed among nine geyser basins, with a few geysers found in smaller thermal areas throughout the Park. The number of geysers in each geyser basin are as follows: Upper Geyser Basin (410), Midway Geyser Basin (59), Lower Geyser Basin (283), Norris Geyser Basin (193), West Thumb Geyser Basin (84), Gibbon Geyser Basin (24), Lone Star Geyser Basin (21), Shoshone Geyser Basin (107), Heart Lake Geyser Basin (69), other areas (33). Although famous large geysers like Old Faithful are part of the total, most of Yellowstone's geysers are small, erupting to only a foot or two. The hydrothermal system that supplies the geysers with hot water sits within an ancient active caldera. Many of the thermal features in Yellowstone build up sinter, geyserite, or travertine deposits around and within them.

 

The various geyser basins are located where rainwater and snowmelt can percolate into the ground, get indirectly superheated by the underlying Yellowstone hotspot, and then erupt at the surface as geysers, hot springs, and fumaroles. Thus flat-bottomed valleys between ancient lava flows and glacial moraines are where most of the large geothermal areas are located. Smaller geothermal areas can be found where fault lines reach the surface, in places along the circular fracture zone around the caldera, and at the base of slopes that collect excess groundwater. Due to the Yellowstone Plateau's high elevation the average boiling temperature at Yellowstone's geyser basins is 199 °F (93 °C). When properly confined and close to the surface it can periodically release some of the built-up pressure in eruptions of hot water and steam that can reach up to 390 feet (120 m) into the air (see Steamboat Geyser, the world's tallest geyser). Water erupting from Yellowstone's geysers is superheated above that boiling point to an average of 204 °F (95.5 °C) as it leaves the vent. The water cools significantly while airborne and is no longer scalding hot by the time it strikes the ground, nearby boardwalks, or even spectators. Because of the high temperatures of the water in the features it is important that spectators remain on the boardwalks and designated trails. Several deaths have occurred in the park as a result of falls into hot springs.

 

Prehistoric Native American artifacts have been found at Mammoth Hot Springs and other geothermal areas in Yellowstone. Some accounts state that the early people used hot water from the geothermal features for bathing and cooking. In the 19th century Father Pierre-Jean De Smet reported that natives he interviewed thought that geyser eruptions were "the result of combat between the infernal spirits". The Lewis and Clark Expedition traveled north of the Yellowstone area in 1806. Local natives that they came upon seldom dared to enter what we now know is the caldera because of frequent loud noises that sounded like thunder and the belief that the spirits that possessed the area did not like human intrusion into their realm. The first white man known to travel into the caldera and see the geothermal features was John Colter, who had left the Lewis and Clark Expedition. He described what he saw as "hot spring brimstone". Beaver trapper Joseph Meek recounted in 1830 that the steam rising from the various geyser basins reminded him of smoke coming from industrial smokestacks on a cold winter morning in Pittsburgh, Pennsylvania. In the 1850s famed trapper Jim Bridger called it "the place where Hell bubbled up".

 

The heat that drives geothermal activity in the Yellowstone area comes from brine (salty water) that is 1.5–3 miles (7,900–15,800 ft; 2,400–4,800 m) below the surface. This is actually below the solid volcanic rock and sediment that extends to a depth of 3,000 to 6,000 feet (900 to 1,800 m) and is inside the hot but mostly solid part of the pluton that contains Yellowstone's magma chamber. At that depth the brine is superheated to temperatures that exceed 400 °F (204 °C) but is able to remain a liquid because it is under great pressure (like a huge pressure cooker).

 

Convection of the churning brine and conduction from surrounding rock transfers heat to an overlaying layer of fresh groundwater. Movement of the two liquids is facilitated by the highly fractured and porous nature of the rocks under the Yellowstone Plateau. Some silica is dissolved from the fractured rhyolite into the hot water as it travels through the fractured rock. Part of this hard mineral is later redeposited on the walls of the cracks and fissures to make a nearly pressure-tight system. Silica precipitates at the surface to form either geyserite or sinter, creating the massive geyser cones, the scalloped edges of hot springs, and the seemingly barren landscape of geyser basins.

 

There are at least five types of geothermal features found at Yellowstone:

 

Fumaroles: Fumaroles, or steam vents, are the hottest hydrothermal features in the park. They have so little water that it all flashes into steam before reaching the surface. At places like Roaring Mountain, the result is loud hissing of steam and gases.

Geysers: Geysers such as Old Faithful are a type of geothermal feature that periodically erupt scalding hot water. Increased pressure exerted by the enormous weight of the overlying rock and water prevents deeper water from boiling. As the hot water rises it is under less pressure and steam bubbles form. They, in turn, expand on their ascent until the bubbles are too big and numerous to pass freely through constrictions. At a critical point the confined bubbles actually lift the water above, causing the geyser to splash or overflow. This decreases the pressure of the system and violent boiling results. Large quantities of water flash into tremendous amounts of steam that force a jet of water out of the vent: an eruption begins. Water (and heat) is expelled faster than the geyser's recharge rate, gradually decreasing the system's pressure and eventually ending the eruption.

Hot springs: Hot springs such as Grand Prismatic Spring are the most common hydrothermal features in the park. Their plumbing has no constrictions. Superheated water cools as it reaches the surface, sinks, and is replaced by hotter water from below. This circulation, called convection, prevents water from reaching the temperature needed to set off an eruption. Many hot springs give rise to streams of heated water.

Mudpots: Mudpots such as Fountain Paint Pots are acidic hot springs with a limited water supply. Some microorganisms use hydrogen sulfide (rotten egg smell), which rises from deep within the earth, as an energy source. They convert the gas into sulfuric acid, which breaks down rock into clay.

Travertine terraces: Travertine terraces, found at Mammoth Hot Springs, are formed from limestone (a rock type made of calcium carbonate). Thermal waters rise through the limestone, carrying high amounts of dissolved carbonate. Carbon dioxide is released at the surface and calcium carbonate deposited as travertine, the chalky white rock of the terraces. These features constantly and quickly change due to the rapid rate of deposition.

Geyser basins

 

The Norris Geyser Basin 44°43′43″N 110°42′16″W is the hottest geyser basin in the park and is located near the northwest edge of Yellowstone Caldera near Norris Junction and on the intersection of three major faults. The Norris-Mammoth Corridor is a fault that runs from Norris north through Mammoth to the Gardiner, Montana, area. The Hebgen Lake fault runs from northwest of West Yellowstone, Montana, to Norris. This fault experienced an earthquake in 1959 that measured 7.4 on the Richter scale (sources vary on exact magnitude between 7.1 and 7.8; see 1959 Hebgen Lake earthquake). Norris Geyser Basin is so hot and dynamic because these two faults intersect with the ring fracture zone that resulted from the creation of the Yellowstone Caldera of 640,000 years ago.

 

The Basin consists of three main areas: Porcelain Basin, Back Basin, and One Hundred Springs Plain. Unlike most of other geyser basins in the park, the waters from Norris are acidic rather than alkaline (for example, Echinus Geyser has a pH of ~3.5). The difference in pH allows for a different class of bacterial thermophiles to live at Norris, creating different color patterns in and around the Norris Basin waters.

 

The Ragged Hills that lie between Back Basin and One Hundred Springs Plain are thermally altered glacial kames. As glaciers receded the underlying thermal features began to express themselves once again, melting remnants of the ice and causing masses of debris to be dumped. These debris piles were then altered by steam and hot water flowing through them. Madison lies within the eroded stream channels cut through lava flows formed after the caldera eruption. The Gibbon Falls lies on the caldera boundary as does Virginia Cascades.

 

Algae on left bacteria on right at the intersection of flows from the Constant & Whirlgig Geysers at Norris Geyser Basin

The tallest active geyser in the world, Steamboat Geyser,[11] is located in Norris Basin. Unlike the slightly smaller but much more famous Old Faithful Geyser located in Upper Geyser Basin, Steamboat has an erratic and lengthy timetable between major eruptions. During major eruptions, which may be separated by intervals of more than a year (the longest recorded span between major eruptions was 50 years), Steamboat erupts over 300 feet (90 m) into the air. Steamboat does not lie dormant between eruptions, instead displaying minor eruptions of approximately 40 feet (12 m).

 

Norris Geyser Basin periodically undergoes a large-scale, basin-wide thermal disturbance lasting a few weeks. Water levels fluctuate, and temperatures, pH, colors, and eruptive patterns change throughout the basin. During a disturbance in 1985, Porkchop Geyser continually jetted steam and water; in 1989, the same geyser apparently clogged with silica and blew up, throwing rocks more than 200 feet (61 m). In 2003 a park ranger observed it bubbling heavily, the first such activity seen since 1991. Activity increased dramatically in mid-2003. Because of high ground temperatures and new features beside the trail much of Back Basin was closed until October. In 2004 the boardwalk was routed around the dangerous area and now leads behind Porkchop Geyser.

 

North of Norris, Roaring Mountain is a large, acidic hydrothermal area (solfatara) with many fumaroles. In the late 19th and early 20th centuries, the number, size, and power of the fumaroles were much greater than today. The fumaroles are most easily seen in the cooler, low-light conditions of morning and evening.

 

The Gibbon Geyser Basin 44°41′58″N 110°44′34″W includes several thermal areas in the vicinity of the Gibbon River between Gibbon Falls and Norris. The most accessible feature in the basin is Beryl Spring, with a small boardwalk right along the Grand Loop Road. Artists' Paintpots is a small hydrothermal area south of Norris Junction that includes colorful hot springs and two large mudpots.

 

The Monument Geyser Basin 44°41′03″N 110°45′14″W has no active geysers, but its 'monuments' are siliceous sinter deposits similar to the siliceous spires discovered on the floor of Yellowstone Lake. Scientists hypothesize that this basin's structures formed from a hot water system in a glacially dammed lake during the waning stages of the Pinedale Glaciation. The basin is on a ridge reached by a very steep one-mile (1.6 km) trail south of Artists' Paint Pots. Other areas of thermal activity in Gibbon Geyser Basin lie off-trail.

 

South of Norris along the rim of the caldera is the Upper Geyser Basin 44°27′52″N 110°49′45″W, which has the highest concentration of geothermal features in the park. This complement of features includes the most famous geyser in the park, Old Faithful Geyser, as well as four other predictable large geysers. One of these large geysers in the area is Castle Geyser which is about 1,400 feet (430 m) northwest of Old Faithful. Castle Geyser has an interval of approximately 13 hours between major eruptions, but is unpredictable after minor eruptions. The other three predictable geysers are Grand Geyser, Daisy Geyser, and Riverside Geyser. Biscuit Basin and Black Sand Basin are also within the boundaries of Upper Geyser Basin.

 

The hills surrounding Old Faithful and the Upper Geyser Basin are reminders of Quaternary rhyolitic lava flows. These flows, occurring long after the catastrophic eruption of 640,000 years ago, flowed across the landscape like stiff mounds of bread dough due to their high silica content.

 

Evidence of glacial activity is common, and it is one of the keys that allows geysers to exist. Glacier till deposits underlie the geyser basins providing storage areas for the water used in eruptions. Many landforms, such as Porcupine Hills north of Fountain Flats, are made up of glacial gravel and are reminders that 70,000 to 14,000 years ago, this area was buried under ice.

 

Signs of the forces of erosion can be seen everywhere, from runoff channels carved across the sinter in the geyser basins to the drainage created by the Firehole River. Mountain building is evident on the drive south of Old Faithful, toward Craig Pass. Here the Rocky Mountains reach a height of 8,262 feet (2,518 m), dividing the country into two distinct watersheds.

 

Midway Geyser Basin 44°31′04″N 110°49′56″W is much smaller than the other basins found alongside the Firehole River. Despite its small size, it contains two large features, the 200-by-300-foot-wide (60 by 90 m) Excelsior Geyser which pours over 4,000 U.S. gallons (15,000 L; 3,300 imp gal) per minute into the Firehole River. The largest hot spring in Yellowstone, the 370-foot-wide (110 m) and 121-foot-deep (37 m) Grand Prismatic Spring is found here. Also in the basin is Turquoise Pool and Opal Pool.

 

Lower Geyser Basin

Blue spring with steam rising from it; irregular blotches of red and orange residue are on the banks, along with dead tree trunks.

Silex Spring at Fountain Paint Pot

 

Farther north is the Lower Geyser Basin 44°32′58″N 110°50′09″W, which is the largest geyser basin in area, covering approximately 11 square miles. Due to its large size, it has a much less concentrated set of geothermal features, including Fountain Paint Pots. Fountain Paint Pots are mud pots, that is, a hot spring that contains boiling mud instead of water. The mud is produced by a higher acidity in the water which enables the spring to dissolve surrounding minerals to create an opaque, usually grey, mud. Also there is Firehole Spring, Celestine Pool, Leather Pool, Red Spouter, Jelly spring, and a number of fumaroles.

 

Geysers in Lower Geyser Basin include Great Fountain Geyser, whose eruptions reach 100 to 200 feet (30–61 m) in the air, while waves of water cascade down its sinter terraces., the Fountain group of Geysers (Clepsydra Geyser which erupts nearly continuously to heights of 45 feet (14 m), Fountain Geyser, Jelly Geyser, Jet Geyser, Morning Geyser, and Spasm Geyser), the Pink Cone group of geysers (Dilemma Geyser, Labial Geyser, Narcissus Geyser, Pink Geyser, and Pink Cone Geyser), the White Dome group of geysers (Crack Geyser, Gemini Geyser, Pebble Geyser, Rejuvenated Geyser, and White Dome Geyser), as well as Sizzler Geyser.

 

Clepsydra Geyser erupting. July 2019

Fountain Paint Pots

White Dome Geyser

West Thumb Geyser Basin

Several pools of blue water in ashen rock basin.

West Thumb Geyser Basin

Blackened basin with orange streaks; steam is rising from it with fir trees in the background.

Overflow areas of Silex springs

 

The West Thumb Geyser Basin 44°25′07″N 110°34′23″W, including Potts Basin to the north, is the largest geyser basin on the shores of Yellowstone Lake. The heat source of the thermal features in this location is thought to be relatively close to the surface, only 10,000 feet (3,000 m) down. West Thumb is about the same size as another famous volcanic caldera, Crater Lake in Oregon, but much smaller than the great Yellowstone Caldera which last erupted about 640,000 years ago. West Thumb is a caldera within a caldera.

 

West Thumb was created approximately 162,000 years ago when a magma chamber bulged up under the surface of the earth and subsequently cracked it along ring fracture zones. This in turn released the enclosed magma as lava and caused the surface above the emptied magma chamber to collapse. Water later filled the collapsed area of the caldera, forming an extension of Yellowstone Lake. This created the source of heat and water that feed the West Thumb Geyser Basin today.

 

The thermal features at West Thumb are not only found on the lake shore, but extend under the surface of the lake as well. Several underwater hydrothermal features were discovered in the early 1990s and can be seen as slick spots or slight bulges in the summer. During the winter, the underwater thermal features are visible as melt holes in the icy surface of the lake. The surrounding ice can reach three feet (one yard) in thickness.

 

Perhaps the most famous hydrothermal feature at West Thumb is a geyser on the lake shore known as Fishing Cone. Walter Trumbull of the 1870 Washburn-Langford-Doane Expedition described a unique event while a man was fishing adjacent to the cone: "...in swinging a trout ashore, it accidentally got off the hook and fell into the spring. For a moment it darted about with wonderful rapidity, as if seeking an outlet. Then it came to the top, dead, and literally boiled." Fishing Cone erupted frequently to the height of 40 feet (12 m) in 1919 and to lesser heights in 1939. One fisherman was badly burned in Fishing Cone in 1921. Fishing at the geyser is now prohibited.

 

Early visitors would arrive at West Thumb via stagecoach from the Old Faithful area. They had a choice of continuing on the stagecoach or boarding the steamship Zillah to continue the journey by water to Lake Hotel. The boat dock was located near the south end of the geyser basin near Lakeside Spring.

 

Backcountry Geyser Basins

The Heart Lake 44°18′00″N 110°30′56″W, Lone Star 44°24′50″N 110°49′04″W, and Shoshone Geyser Basins 44°21′16″N 110°47′57″W are located away from the road and require at least several miles of hiking to reach. These areas lack the boardwalks and other safety features of the developed areas. As falling into geothermal features can be fatal, it is usually advisable to visit these areas with an experienced guide or at the very least, travelers need to ensure they remain on well-marked trails.

 

The Heart Lake Geyser Basin contains several groups of geysers and deep blue hot springs near Heart Lake in the south-central portion of Yellowstone, southeast of most of the main geyser basins. Lying in the Snake River watershed east of Lewis Lake and south of Yellowstone Lake, Heart Lake was named sometime before 1871 for Hart Hunney, a hunter. Other explorers in the region incorrectly assumed that the lake's name was spelled 'heart' because of its shape. The Heart Lake Geyser Basin begins a couple miles from the lake and descends along Witch Creek to the lakeshore. Five groups of hydrothermal features comprise the basin, and all of them contain geysers, although some are dormant.

 

Between Shoshone Lake and Old Faithful is the Lone Star Geyser Basin, of which the primary feature is Lone Star Geyser, named for its isolation from the nearby geysers of the Upper Geyser Basin. The basin is reachable on foot or bicycle via a 3 mile road that is closed to vehicles.

 

The Shoshone Geyser Basin, reached by hiking or by boat, contains one of the highest concentrations of geysers in the world – more than 80 in an area 1,600 by 800 feet (490 by 240 m). Hot springs and mudpots dot the landscape between the geyser basin and Shoshone Lake.

 

Hot Spring Basin is located 15 miles (24 km) north-northeast of Fishing Bridge and has one of Yellowstone's largest collections of hot springs and fumaroles. The geothermal features there release large amounts of sulfur. This makes water from the springs so acidic that it has dissolved holes in the pants of people who sit on wet ground and causes mounds of sulfur three feet (1 m) high to develop around fumaroles. The very hot acidic water and steam have also created voids in the ground that are only covered by a thin crust.

 

Mammoth Hot Springs is a large complex of hot springs on a hill of travertine in Yellowstone National Park adjacent to Fort Yellowstone and the Mammoth Hot Springs Historic District. It was created over thousands of years as hot water from the spring cooled and deposited calcium carbonate (over two tons flow into Mammoth each day in a solution). Because of the huge amount of geothermal vents, travertine flourishes. Although these springs lie outside the caldera boundary, their energy has been attributed to the same magmatic system that fuels other Yellowstone geothermal areas.

 

The thermal features at Mud Volcano and Sulphur Caldron are primarily mud pots and fumaroles because the area is situated on a perched water system with little water available. Fumaroles or "steam vents" occur when the ground water boils away faster than it can be recharged. Also, the vapors are rich in sulfuric acid that leaches the rock, breaking it down into clay. Because no water washes away the acid or leached rock, it remains as sticky clay to form a mud pot. Hydrogen sulfide gas is present deep in the earth at Mud Volcano and is oxidized to sulfuric acid by microbial activity, which dissolves the surface soils to create pools and cones of clay and mud. Along with hydrogen sulfide, steam, carbon dioxide, and other gases explode through the layers of mud.

 

A series of shallow earthquakes associated with the volcanic activity in Yellowstone struck this area in 1978. Soil temperatures increased to nearly 200 °F (93 °C). The slope between Sizzling Basin and Mud Geyser, once covered with green grass and trees, became a barren landscape of fallen trees known as "the cooking hillside".

 

Yellowstone National Park is a national park located in the western United States, largely in the northwest corner of Wyoming and extending into Montana and Idaho. It was established by the 42nd U.S. Congress with the Yellowstone National Park Protection Act and signed into law by President Ulysses S. Grant on March 1, 1872. Yellowstone was the first national park in the U.S. and is also widely held to be the first national park in the world. The park is known for its wildlife and its many geothermal features, especially the Old Faithful geyser, one of its most popular. While it represents many types of biomes, the subalpine forest is the most abundant. It is part of the South Central Rockies forests ecoregion.

 

While Native Americans have lived in the Yellowstone region for at least 11,000 years, aside from visits by mountain men during the early-to-mid-19th century, organized exploration did not begin until the late 1860s. Management and control of the park originally fell under the jurisdiction of the U.S. Department of the Interior, the first Secretary of the Interior to supervise the park being Columbus Delano. However, the U.S. Army was eventually commissioned to oversee the management of Yellowstone for 30 years between 1886 and 1916. In 1917, the administration of the park was transferred to the National Park Service, which had been created the previous year. Hundreds of structures have been built and are protected for their architectural and historical significance, and researchers have examined more than a thousand archaeological sites.

 

Yellowstone National Park spans an area of 3,468.4 sq mi (8,983 km2), comprising lakes, canyons, rivers, and mountain ranges. Yellowstone Lake is one of the largest high-elevation lakes in North America and is centered over the Yellowstone Caldera, the largest super volcano on the continent. The caldera is considered a dormant volcano. It has erupted with tremendous force several times in the last two million years. Well over half of the world's geysers and hydrothermal features are in Yellowstone, fueled by this ongoing volcanism. Lava flows and rocks from volcanic eruptions cover most of the land area of Yellowstone. The park is the centerpiece of the Greater Yellowstone Ecosystem, the largest remaining nearly intact ecosystem in the Earth's northern temperate zone. In 1978, Yellowstone was named a UNESCO World Heritage Site.

 

Hundreds of species of mammals, birds, fish, reptiles, and amphibians have been documented, including several that are either endangered or threatened. The vast forests and grasslands also include unique species of plants. Yellowstone Park is the largest and most famous megafauna location in the contiguous United States. Grizzly bears, cougars, wolves, and free-ranging herds of bison and elk live in this park. The Yellowstone Park bison herd is the oldest and largest public bison herd in the United States. Forest fires occur in the park each year; in the large forest fires of 1988, nearly one-third of the park was burnt. Yellowstone has numerous recreational opportunities, including hiking, camping, boating, fishing, and sightseeing. Paved roads provide close access to the major geothermal areas as well as some of the lakes and waterfalls. During the winter, visitors often access the park by way of guided tours that use either snow coaches or snowmobiles.

 

Teton County is a county in the U.S. state of Wyoming. As of the 2020 United States Census, the population was 23,331. Its county seat is Jackson. Its west boundary line is also the Wyoming state boundary shared with Idaho and the southern tip of Montana. Teton County is part of the Jackson, WY-ID Micropolitan Statistical Area.

 

Teton County contains the Jackson Hole ski area, all of Grand Teton National Park, and 40.4% of Yellowstone National Park's total area, including over 96.6% of its water area (largely in Yellowstone Lake).

 

Wyoming is a state in the Mountain West subregion of the Western United States. It borders Montana to the north and northwest, South Dakota and Nebraska to the east, Idaho to the west, Utah to the southwest, and Colorado to the south. With a population of 576,851 in 2020, Wyoming is the least populous state despite being the 10th largest by area, with the second-lowest population density after Alaska. The state capital and most populous city is Cheyenne, which had an estimated population of 63,957 in 2018.

 

Wyoming's western half consists mostly of the ranges and rangelands of the Rocky Mountains; its eastern half consists of high-elevation prairie, and is referred to as the High Plains. Wyoming's climate is semi-arid in some parts and continental in others, making it drier and windier overall than other states, with greater temperature extremes. The federal government owns just under half of Wyoming's land, generally protecting it for public uses. The state ranks sixth in the amount of land—-and fifth in the proportion of its land—-that is owned by the federal government. Its federal lands include two national parks (Grand Teton and Yellowstone), two national recreation areas, two national monuments, and several national forests, as well as historic sites, fish hatcheries, and wildlife refuges.

 

Indigenous peoples inhabited the region for thousands of years. Historic and currently federally recognized tribes include the Arapaho, Crow, Lakota, and Shoshone. Part of the land that is now Wyoming came under American sovereignty via the Louisiana Purchase, part via the Oregon Treaty, and, lastly, via the Mexican Cession. With the opening of the Oregon Trail, the Mormon Trail, and the California Trail, vast numbers of pioneers travelled through parts of the state that had once been traversed mainly by fur trappers, and this spurred the establishment of forts, such as Fort Laramie, that today serve as population centers. The Transcontinental Railroad supplanted the wagon trails in 1867 with a route through southern Wyoming, bringing new settlers and the establishment of founding towns, including the state capital of Cheyenne. On March 27, 1890, Wyoming became the union's 44th state.

 

Farming and ranching, and the attendant range wars, feature prominently in the state's history. Today, Wyoming's economy is largely based on tourism and the extraction of minerals such as coal, natural gas, oil, and trona. Its agricultural commodities include barley, hay, livestock, sugar beets, wheat, and wool.

 

Wyoming was the first state to allow women the right to vote (not counting New Jersey, which had allowed it until 1807), and the right to assume elected office, as well as the first state to elect a female governor. In honor of this part of its history, its most common nickname is "The Equality State" and its official state motto is "Equal Rights". It is among the least religious states in the country, and is known for having a political culture that leans towards libertarian conservatism. The Republican presidential nominee has carried the state in every election since 1968.

In this photo I have turned the tracks pieces connected by the Terminal UniJoiners over so you can see where the white and blue wires make contact with each UniJoiner.

 

My layout is small enough to power all the mainline, the passing siding, and my industrial spurs from two S-62F feeder tracks, but each track of my staging yards is powered by a pair of Terminal UniJoiners (Kato item 24-818) that can be inserted between any two pieces of track by substituting them for regular UniJoiners. Each pair of Terminal UniJoiners is plugged into an Adapter Cord (Kato item 24-843) which splits into a pair of wires with spade terminals that are screwed onto the top output terminals of an Atlas Twin. Each track of both Westbound and Eastbound staging yards is physically connected but electrically isolated from the other tracks by using plastic Insulated UniJoiners on both ends of each track block. Since each track of the staging yards loops around in a teardrop shape, it is important to identify and maintain the polarity in order to prevent electrical shorts.

 

In order to first determine the polarity of the Terminal UniJoiners, I inserted them between a pair of straight track pieces I keep on hand for testing purposes. The DC plug can only be attached one way to the Kato UniTrack power pack, but the individual UniJoiners (with their color coded wires) can be inserted any old way between a couple of pieces of track. This could cause a POLARITY PROBLEM if it is not done in a uniform manner among the various tracks, and unfortunately none of the Kato instructions give any advice. To complete the test, I placed an engine on the track, set the power to FORWARD and noted the direction of travel in respect to the wires. In order to propel the engine FORWARD with that power pack setting, the WHITE wire must be attached to the RIGHT rail, and the BLUE wire must be attached to the LEFT rail. I now keep an index card with polarity settings for Terminal UniJoiners and Terminal tracks in a small basket that holds track, electrical odds and ends, and other spec sheets.

 

Using a 24-843 Adapter Cord from the Kato UniTrack power pack, the WHITE wire goes to the BOTTOM terminal of the input (left) side of the Atlas Twin, and the BLUE wire goes to the TOP input terminal. On the output (top) side of the Atlas Twin, the WHITE wire to each power block goes on the RIGHT terminal, and the BLUE wire goes on the LEFT terminal. There are two pairs of output terminals on the top side of each Atlas Twin, and the right side of one can be connected to the left side of additional Atlas Twins so that one power pack can feed several separate power blocks. Right now I use three Atlas Twins to control 1 Eastbound and 4 Westbound staging tracks, but in the near future, I will use four of them to control 4 Eastbound and 4 Westbound staging tracks. That will enable me to store 8 complete trains in my yards and operate everything that ran between Albuquerque, New Mexico and La Junta, Colorado.

 

This is the oldest active bus in my current fleet of model buses. It's in terrific condition as well. It was build just a few years after I started using an exterior film called monokote that gives it a glossy finish. Before that the exteriors were just posterboard.

  

I painted the upper facade wall pieces too. This is just the first layer of paint. I worked on my model all afternoon and evening.

The Scale Modelers Association booth at LEGO World 2017. There was a lot to bee seen around our track.

 

Two classics rigs from two different countries; Martin Dvorak's KraZ and Dirk Klijn's Mack tow truck.

LEGO's standard wheels are usually a pretty good match for my 1/22 scale vehicles, which is why I picked that scale many years ago. For this fairly large van, however, they were a bit small. I fixed that by inserting a "Technic Wedge Belt Wheel Tire" between the rim and tyre. It adds a few mm to the diameter, which is just right.

Sofala: Sofala was one of the Bathurst area's most successful goldmining towns. Gold was still Sofala's primary industry right up to the 1940s. Today, you can still fossick for gold dust in the Turon River.

Just 46 km from Bathurst, Sofala is reportedly Australia's oldest surviving gold-rush town. Set in an idyllic Country NSW location beside the pretty Turon River, Sofala's setting includes a rugged mountain backdrop that has attracted artists over the years. In 1947, Russell Drysdale captured the main street's timber buildings and hot, dusty emptiness in his famous work, Sofala.

 

A historical walking tour through townwill allow you explore the Upper Turon for reminders of the gold rush, including diggings, gravestones, buildings and a Chinese miner settlement.

From Wikepedia: Sofala is a village in New South Wales, Australia, 255 kilometres (158 mi) north-west of Sydney, within Bathurst Regional Council. It is located beside the Turon River. Sofala is just off the Bathurst-Ilford Road, with only local traffic through the town itself. At the 2006 census, Sofala had a population of 208.[1]

  

Turon River Near Sofala

Sofala came about as a direct result of the gold rush which had been spurred on when Edward Hargraves discovered gold at Summerhill Creek on 12 February 1851. By June of that year, thousands of people had set up mining operations in the valley, and both the Royal Hotel and a general store were built in 1851 to handle the increased demand. Initially, gold was found in the area known as Gold Point on the Turon River. When the alluvial gold ran out, mining turned to quartz reef mining.[2] The town was a centre of opposition of the gold licensing system in New South Wales at the time. A considerable proportion of the miners were Chinese.[3]

 

Sofala Public School was established in 1878.[4] There was an Anglican church and a Catholic convent.[5]

 

Attractions today include the gold-rush-era Sofala Royal Hotel[6] and the old gaol. Small-scale gold workings are still active in the town. Sofala has been reported to be the oldest surviving gold-rush town in Australia. There are still gold prospectors who pass the time using metal detectors, gold pans, and sluice boxes to recover small quantities of gold dust.

 

Russell Drysdale's painting Sofala, a depiction of the main street of the town, won the Wynne Prize for 1947.[7]

 

The 1974 Peter Weir film The Cars That Ate Paris was filmed in the town. Village scenes in the 1994 John Duigan film Sirens were also filmed in Sofala.

 

A noted business is Finglinna Studios, which supplies stained glass to churches and other public buildings.

The Cathedral of Vasily the Blessed (Russian: Собо́р Васи́лия Блаже́нного, tr. Sobór Vasíliya Blazhénnogo), commonly known as Saint Basil's Cathedral, is an Orthodox church in Red Square of Moscow, and is one of the most popular cultural symbols of Russia. The building, now a museum, is officially known as the Cathedral of the Intercession of the Most Holy Theotokos on the Moat, or Pokrovsky Cathedral. It was built from 1555 to 1561 on orders from Ivan the Terrible and commemorates the capture of Kazan and Astrakhan. Its completion, with its colors, was made in 1683. It was the city's tallest building until the completion of the Ivan the Great Bell Tower in 1600.

 

The original building, known as Trinity Church and later Trinity Cathedral, contained eight chapels arranged around a ninth, central chapel dedicated to the Intercession; a tenth chapel was erected in 1588 over the grave of the venerated local saint Vasily (Basil). In the 16th and 17th centuries, because it was perceived as the earthly symbol of the Heavenly City, like all churches in Byzantine Christianity, the church was popularly known as the "Jerusalem" and served as an allegory of the Jerusalem Temple in the annual Palm Sunday parade attended by the Patriarch of Moscow and the Tsar.

 

The cathedral has nine domes (each one corresponding to a different church) and is shaped like the flame of a bonfire rising into the sky. Dmitry Shvidkovsky, in his book Russian Architecture and the West, states that "it is like no other Russian building. Nothing similar can be found in the entire millennium of Byzantine tradition from the fifth to the fifteenth century ... a strangeness that astonishes by its unexpectedness, complexity and dazzling interleaving of the manifold details of its design." The cathedral foreshadowed the climax of Russian national architecture in the 17th century.

 

As part of the program of state atheism, the church was confiscated from the Russian Orthodox community as part of the Soviet Union's antireligious campaigns and has operated as a division of the State Historical Museum since 1928. It was completely secularized in 1929, and remains a federal property of the Russian Federation. The church has been part of the Moscow Kremlin and Red Square UNESCO World Heritage Site since 1990. With the dissolution of the Soviet Union in 1991, weekly Orthodox Christian services with prayer to St. Basil have been restored since 1997.

 

Construction under Ivan IV

The site of the church had been, historically, a busy marketplace between the St. Frol's (later Saviour's) Gate of the Moscow Kremlin and the outlying posad. The centre of the marketplace was marked by the Trinity Church, built of the same white stone as the Kremlin of Dmitry Donskoy (1366–68) and its cathedrals. Tsar Ivan IV marked every victory of the Russo-Kazan War by erecting a wooden memorial church next to the walls of Trinity Church; by the end of his Astrakhan campaign, it was shrouded within a cluster of seven wooden churches. According to the report in Nikon's Chronicle, in the autumn of 1554 Ivan ordered the construction of the wooden Church of Intercession on the same site, "on the moat". One year later, Ivan ordered the construction of a new stone cathedral on the site of Trinity Church to commemorate his campaigns. Dedication of a church to a military victory was "a major innovation" for Muscovy. The placement of the church outside the Kremlin walls was a political statement in favour of posad commoners and against hereditary boyars.

 

Contemporary commentators clearly identified the new building as Trinity Church, after its easternmost sanctuary; the status of "katholikon" (собор, sobor, large assembly church) had not been bestowed on it yet:

 

On the Trinity on the Moat in Moscow.

In the same year, through the will of czar and lord and grand prince Ivan began making the pledged church, as he promised for the capture of Kazan: Trinity and Intercession and seven sanctuaries, also called "on the moat". And the builder was Barma with company.

 

— Piskaryov Chronicle, 1560 (7068 per Byzantine calendar)

The identity of the architect is unknown. Tradition held that the church was built by two architects, Barma and Postnik, the official Russian cultural heritage register lists "Barma and Postnik Yakovlev". Researchers proposed that both names refer to the same person, Postnik Yakovlev or, alternatively, Ivan Yakovlevich Barma (Varfolomey). Legend held that Ivan blinded the architect so that he could not re-create the masterpiece elsewhere. Many historians are convinced that it is a myth, as the architect later participated in the construction of the Cathedral of the Annunciation in Moscow as well as in building the walls and towers of the Kazan Kremlin. Postnik Yakovlev remained active at least throughout the 1560s. This myth likely originated with Jerome Horsey's account of Ivan III of Moscow having blinded the architect of the fortress of Ivangorod.

 

There is evidence that construction involved stonemasons from Pskov and German lands.

 

Architectural style

Because the church has no analog—in the preceding, contemporary, or later architecture of Muscovy and Byzantine cultural tradition, in general,—the sources that inspired Barma and Postnik are disputed. Eugène Viollet-le-Duc rejected European roots for the cathedral, opining that its corbel arches were Byzantine and ultimately Asian. A modern "Asian" hypothesis considers the cathedral a recreation of Qolşärif Mosque, which was destroyed by Russian troops after the Siege of Kazan.

 

Nineteenth-century Russian writers, starting with Ivan Zabelin,[5] emphasized the influence of the vernacular wooden churches of the Russian North; their motifs made their ways into masonry, particularly the votive churches that did not need to house substantial congregations. David Watkin also wrote of a blend of Russian and Byzantine roots, calling the cathedral "the climax" of Russian vernacular wooden architecture.

 

The church combines the staggered layered design of the earliest (1505–1508) part of the Ivan the Great Bell Tower, the central tent of the Church of Ascension in Kolomenskoye (1530s), and the cylindric shape of the Church of Beheading of John the Baptist in Dyakovo (1547); but the origin of these unique buildings is equally debated. The Church in Kolomenskoye, according to Sergei Podyapolsky, was built by Italian Petrok Maly, although mainstream history has not yet accepted his opinion. Andrey Batalov revised the year of completion of Dyakovo church from 1547 to the 1560s–70s, and noted that Trinity Church could have had no tangible predecessors at all.

 

Dmitry Shvidkovsky suggested that the "improbable" shapes of the Intercession Church and the Church of Ascension in Kolomenskoye manifested an emerging national renaissance, blending earlier Muscovite elements with the influence of Italian Renaissance. A large group of Italian architects and craftsmen continuously worked in Moscow in 1474–1539, as well as Greek refugees who arrived in the city after the fall of Constantinople. These two groups, according to Shvidkovsky, helped Moscow rulers in forging the doctrine of Third Rome, which in turn promoted assimilation of contemporary Greek and Italian culture. Shvidkovsky noted the resemblance of the cathedral's floorplan to Italian concepts by Antonio da Sangallo the Younger and Donato Bramante, but most likely Filarete's Trattato di architettura. Other Russian researchers noted a resemblance to sketches by Leonardo da Vinci, although he could not have been known in Ivan's Moscow. Nikolay Brunov recognized the influence of these prototypes but not their significance; he suggested that mid-16th century Moscow already had local architects trained in Italian tradition, architectural drawing and perspective, and that this culture was lost during the Time of Troubles.

 

Andrey Batalov wrote that judging by the number of novel elements introduced with Trinity Church, it was most likely built by German craftsmen. Batalov and Shvidkovsky noted that during Ivan's reign, Germans and Englishmen replaced Italians, although German influence peaked later during the reign of Mikhail Romanov. German influence is indirectly supported by the rusticated pilasters of the central church, a feature more common in contemporary Northern Europe than in Italy.

 

The 1983 academic edition of Monuments of Architecture in Moscow takes the middle ground: the church is, most likely, a product of the complex interaction of distinct Russian traditions of wooden and stone architecture, with some elements borrowed from the works of Italians in Moscow. Specifically, the style of brickwork in the vaults is Italian.

 

Layout

Instead of following the original ad hoc layout (seven churches around the central core), Ivan's architects opted for a more symmetrical floor plan with eight side churches around the core, producing "a thoroughly coherent, logical plan" despite the erroneous latter "notion of a structure devoid of restraint or reason" influenced by the memory of Ivan's irrational atrocities. The central core and the four larger churches placed on the four major compass points are octagonal; the four diagonally placed smaller churches are cuboid, although their shape is hardly visible through later additions. The larger churches stand on massive foundations, while the smaller ones were each placed on a raised platform as if hovering above ground.

 

Although the side churches are arranged in perfect symmetry, the cathedral as a whole is not. The larger central church was deliberately offset to the west from the geometric centre of the side churches, to accommodate its larger apse on the eastern side. As a result of this subtle calculated asymmetry, viewing from the north and the south presents a complex multi-axial shape, while the western façade, facing the Kremlin, appears properly symmetrical and monolithic. The latter perception is reinforced by the fortress-style machicolation and corbeled cornice of the western Church of Entry into Jerusalem, mirroring the real fortifications of the Kremlin.

 

Inside the composite church is a labyrinth of narrow vaulted corridors and vertical cylinders of the churches. Today the cathedral consists of nine individual chapels. The largest, central one, the Church of the Intercession, is 46 metres (151 ft) tall internally but has a floor area of only 64 square metres (690 sq ft). Nevertheless, it is wider and airier than the church in Kolomenskoye with its exceptionally thick walls. The corridors functioned as internal parvises; the western corridor, adorned with a unique flat caissoned ceiling, doubled as the narthex.

 

The detached belfry of the original Trinity Church stood southwest or south of the main structure. Late 16th- and early 17th-century plans depict a simple structure with three roof tents, most likely covered with sheet metal. No buildings of this type survive to date, although it was then common and used in all of the pass-through towers of Skorodom. August von Meyenberg's panorama (1661) presents a different building, with a cluster of small onion domes.

 

Structure

The foundations, as was traditional in medieval Moscow, were built of white stone, while the churches themselves were built of red brick (28 by 14 by 8 cm (11.0 by 5.5 by 3.1 in)), then a relatively new material (the first attested brick building in Moscow, the new Kremlin Wall, was started in 1485). Surveys of the structure show that the basement level is perfectly aligned, indicating use of professional drawing and measurement, but each subsequent level becomes less and less regular. Restorers who replaced parts of the brickwork in 1954–1955 discovered that the massive brick walls conceal an internal wooden frame running the entire height of the church. This frame, made of elaborately tied thin studs, was erected as a life-size spatial model of the future cathedral and was then gradually enclosed in solid masonry.

 

The builders, fascinated by the flexibility of the new technology, used red bricks as a decorative medium both inside and out, leaving as much brickwork open as possible; when location required the use of stone walls, it was decorated with a brickwork pattern painted over stucco. A major novelty introduced by the church was the use of strictly "architectural" means of exterior decoration. Sculpture and sacred symbols employed by earlier Russian architecture are completely missing; floral ornaments are a later addition. Instead, the church boasts a diversity of three-dimensional architectural elements executed in brick.

 

Colour

The church acquired its present-day vivid colours in several stages from the 1680s to 1848. Russian attitude towards colour in the 17th century changed in favour of bright colours; iconographic and mural art experienced an explosive growth in the number of available paints, dyes and their combinations. The original colour scheme, missing these innovations, was far less challenging. It followed the depiction of the Heavenly City in the Book of Revelation:

 

And he that sat was to look upon like a jasper and a sardine stone: and there was a rainbow round about the throne, in sight like unto an emerald.

And round about the throne were four and twenty seats: and upon the seats, I saw four and twenty elders sitting, clothed in white raiment; and they had on their heads crowns of gold.

 

— Revelation, 4:3–4 (KJV)

The 25 seats from the biblical reference are alluded to in the building's structure, with the addition of eight small onion domes around the central tent, four around the western side church and four elsewhere. This arrangement survived through most of the 17th century. The walls of the church mixed bare red brickwork or painted imitation of bricks with white ornaments, in roughly equal proportion. The domes, covered with tin, were uniformly gilded, creating an overall bright but fairly traditional combination of white, red and golden colours. Moderate use of green and blue ceramic inserts provided a touch of rainbow as prescribed by the Bible.

 

While historians agree on the colour of the 16th-century domes, their shape is disputed. Boris Eding wrote that they most likely were of the same onion shape as the present-day domes. However, both Kolomenskoye and Dyakovo churches have flattened hemispherical domes, and the same type could have been used by Barma and Postnik.

 

Development

1583–1596

The original Trinity Church burnt down in 1583 and was refitted by 1593. The ninth sanctuary, dedicated to Basil Fool for Christ (the 1460s–1552), was added in 1588 next to the north-eastern sanctuary of the Three Patriarchs. Another local fool, Ivan the Blessed, was buried on the church grounds in 1589; a sanctuary in his memory was established in 1672 inside the south-eastern arcade.

 

The vault of the Saint Basil Sanctuary serves as a reference point in evaluating the quality of Muscovite stonemasonry and engineering. As one of the first vaults of its type, it represents the average of engineering craft that peaked a decade later in the church of the Trinity in Khoroshovo (completed 1596). The craft was lost in the Time of Troubles; buildings from the first half of the 17th century lack the refinement of the late 16th century, compensating for poor construction skill with thicker walls and heavier vaults.

 

1680–1683

The second, and most significant, round of refitting and expansion took place in 1680–1683. The nine churches themselves retained their appearance, but additions to the ground-floor arcade and the first-floor platform were so profound that Nikolay Brunov rebuilt a composite church from an "old" building and an independent work that incorporated the "new" Trinity Church. What once was a group of nine independent churches on a common platform became a monolithic temple.

 

The formerly open ground-floor arcades were filled with brick walls; the new space housed altars from thirteen former wooden churches erected on the site of Ivan's executions in Red Square. Wooden shelters above the first-floor platform and stairs (the cause of frequent fires) were rebuilt in brick, creating the present-day wrap-around galleries with tented roofs above the porches and vestibules.

 

The old detached belfry was demolished; its square basement was reused for a new belltower. The tall single tented roof of this belltower, built in the vernacular style of the reign of Alexis I, significantly changed the appearance of the cathedral, adding a strong asymmetrical counterweight to the church itself. The effect is most pronounced on the southern and eastern facades (as viewed from Zaryadye), although the belltower is large enough to be seen from the west.

 

The first ornamental murals in the cathedral appeared in the same period, starting with floral ornaments inside the new galleries; the towers retained their original brickwork pattern. Finally, in 1683, the church was adorned with a tiled cornice in yellow and blue, featuring a written history of the church in Old Slavic typeface.

 

1737–1784

In 1737 the church was damaged by a massive fire and later restored by Ivan Michurin. The inscriptions made in 1683 were removed during the repairs of 1761–1784. The church received its first figurative murals inside the churches; all exterior and interior walls of the first two floors were covered with floral ornamentation. The belltower was connected with the church through a ground-floor annex; the last remaining open arches of the former ground-floor arcade were filled during the same period, erasing the last hint of what was once an open platform carrying the nine churches of Ivan's Jerusalem.

 

1800–1848

Paintings of Red Square by Fyodor Alekseyev, made in 1800–1802, show that by this time the church was enclosed in an apparently chaotic cluster of commercial buildings; rows of shops "transformed Red Square into an oblong and closed yard." In 1800 the space between the Kremlin wall and the church was still occupied by a moat that predated the church itself. The moat was filled in preparation for the coronation of Alexander I in 1801. The French troops who occupied Moscow in 1812 used the church for stables and looted anything worth taking. The church was spared by the Fire of Moscow (1812) that razed Kitai-gorod, and by the troops' failure to blow it up according to Napoleon's order. The interiors were repaired in 1813 and the exterior in 1816. Instead of replacing missing ceramic tiles of the main tent, the Church preferred to simply cover it with a tin roof.

 

The fate of the immediate environment of the church has been a subject of dispute between city planners since 1813. Scotsman William Hastie proposed clearing the space around all sides of the church and all the way down to the Moskva River; the official commission led by Fyodor Rostopchin and Mikhail Tsitsianov agreed to clear only the space between the church and Lobnoye Mesto. Hastie's plan could have radically transformed the city, but he lost to the opposition, whose plans were finally endorsed by Alexander I in December 1817 (the specific decision on clearing the rubble around the church was issued in 1816).

 

Nevertheless, actual redevelopment by Joseph Bove resulted in clearing the rubble and creating Vasilyevskaya (St. Basil's) Square between the church and Kremlin wall by shaving off the crest of the Kremlin Hill between the church and the Moskva River. Red Square was opened to the river, and "St. Basil thus crowned the decapitated hillock." Bove built the stone terrace wall separating the church from the pavement of Moskvoretskaya Street; the southern side of the terrace was completed in 1834. Minor repairs continued until 1848, when the domes acquired their present-day colours.

 

1890–1914

Preservationist societies monitored the state of the church and called for a proper restoration throughout the 1880s and 1890s, but it was regularly delayed for lack of funds. The church did not have a congregation of its own and could only rely on donations raised through public campaigning; national authorities in Saint Petersburg and local in Moscow prevented financing from state and municipal budgets. In 1899 Nicholas II reluctantly admitted that this expense was necessary, but again all the involved state and municipal offices, including the Holy Synod, denied financing. Restoration, headed by Andrey Pavlinov (died 1898) and Sergey Solovyov, dragged on from 1896 to 1909; in total, preservationists managed to raise around 100,000 roubles.

 

Restoration began with replacing the roofing of the domes. Solovyov removed the tin roofing of the main tent installed in the 1810s and found many original tiles missing and others discoloured; after a protracted debate the whole set of tiles on the tented roof was replaced with new ones. Another dubious decision allowed the use of standard bricks that were smaller than the original 16th-century ones. Restorers agreed that the paintwork of the 19th century must be replaced with a "truthful recreation" of historic patterns, but these had to be reconstructed and deduced based on medieval miniatures. In the end, Solovyov and his advisers chose a combination of deep red with deep green that is retained to the present.

 

In 1908 the church received its first warm air heating system, which did not work well because of heat losses in long air ducts, heating only the eastern and northern sanctuaries. In 1913 it was complemented with a pumped water heating system serving the rest of the church.

 

1918–1941

During World War I, the church was headed by protoiereus Ioann Vostorgov, a nationalist preacher and a leader of the Black-Hundredist Union of the Russian People. Vostorgov was arrested by Bolsheviks in 1918 on a pretext of embezzling nationalized church properties and was executed in 1919.[citation needed] The church briefly enjoyed Vladimir Lenin's "personal interest"; in 1923 it became a public museum, though religious services continued until 1929.

 

Bolshevik planners entertained ideas of demolishing the church after Lenin's funeral (January 1924). In the first half of the 1930s, the church became an obstacle for Joseph Stalin's urbanist plans, carried out by Moscow party boss Lazar Kaganovich, "the moving spirit behind the reconstruction of the capital". The conflict between preservationists, notably Pyotr Baranovsky, and the administration continued at least until 1936 and spawned urban legends. In particular, a frequently-told story is that Kaganovich picked up a model of the church in the process of envisioning Red Square without it, and Stalin sharply responded "Lazar, put it back!" Similarly, Stalin's master planner, architect Vladimir Semyonov, reputedly dared to "grab Stalin's elbow when the leader picked up a model of the church to see how Red Square would look without it" and was replaced by pure functionary Sergey Chernyshov.

 

In the autumn of 1933, the church was struck from the heritage register. Baranovsky was summoned to perform a last-minute survey of the church slated for demolition, and was then arrested for his objections. While he served his term in the Gulag, attitudes changed and by 1937 even hard-line Bolshevik planners admitted that the church should be spared. In the spring of 1939, the church was locked, probably because demolition was again on the agenda; however, the 1941 publication of Dmitry Sukhov's detailed book on the survey of the church in 1939–1940 speaks against this assumption.

 

1947 to present

In the first years after World War II renovators restored the historical ground-floor arcades and pillars that supported the first-floor platform, cleared up vaulted and caissoned ceilings in the galleries, and removed "unhistoric" 19th-century oil paint murals inside the churches. Another round of repairs, led by Nikolay Sobolev in 1954–1955, restored original paint imitating brickwork, and allowed restorers to dig inside old masonry, revealing the wooden frame inside it. In the 1960s, the tin roofing of the domes was replaced with copper.

 

The last round of renovation was completed in September 2008 with the opening of the restored sanctuary of St. Alexander Svirsky. The building is still partly in use today as a museum and, since 1991, is occasionally used for services by the Russian Orthodox Church. Since 1997 Orthodox Christian services have been held regularly. Nowadays every Sunday at Saint Basil's church there is a divine liturgy at 10 a.m. with an Akathist to Saint Basil.

 

Naming

The building, originally known as "Trinity Church",[8] was consecrated on 12 July 1561, and was subsequently elevated to the status of a sobor (similar to an ecclesiastical basilica in the Catholic Church, but usually and incorrectly translated as "cathedral"). "Trinity", according to tradition, refers to the easternmost sanctuary of the Holy Trinity, while the central sanctuary of the church is dedicated to the Intercession of Mary. Together with the westernmost sanctuary of the Entry into Jerusalem, these sanctuaries form the main east–west axis (Christ, Mary, Holy Trinity), while other sanctuaries are dedicated to individual saints.

 

Sanctuaries of the cathedral

Compass point Type Dedicated to Commemorates

Central coreTented churchIntercession of Most Holy TheotokosBeginning of the final assault of Kazan, 1 October 1552

WestColumnEntry of Christ into JerusalemTriumph of the Muscovite troops

North-westGroin vaultSaint Gregory the Illuminator of ArmeniaCapture of Ars Tower of Kazan Kremlin, 30 September 1552

NorthColumnSaint Martyrs Cyprian and Justinia (since 1786 Saint Adrian and Natalia of Nicomedia)Complete capture of Kazan Kremlin, 2 October 1552

North-eastGroin vaultThree Patriarchs of Alexandria (since 1680 Saint John the Merciful)Defeat of Yepancha's cavalry on 30 August 1552

EastColumnLife-giving Holy TrinityHistorical Trinity Church on the same site

South-eastGroin vaultSaint Alexander SvirskyDefeat of Yepancha's cavalry on 30 August 1552

SouthColumnThe icon of Saint Nicholas from the Velikaya River (Nikola Velikoretsky)The icon was brought to Moscow in 1555.

South-westGroin vaultSaint Barlaam of KhutynMay have been built to commemorate Vasili III of Russia

North-eastern annex (1588)Groin vaultBasil the BlessedGrave of venerated local saint

South-eastern annex (1672)Groin vaultLaying the Veil (since 1680: Nativity of Theotokos, since 1916: Saint John the Blessed of Moscow)Grave of venerated local saint

The name "Intercession Church" came into use later, coexisting with Trinity Church. From the end of the 16th century[66] to the end of the 17th century the cathedral was also popularly called Jerusalem, with reference to its church of Entry into Jerusalem as well as to its sacral role in religious rituals. Finally, the name of Vasily (Basil) the Blessed, who died during construction and was buried on-site, was attached to the church at the beginning of the 17th century.

 

Current Russian tradition accepts two coexisting names of the church: the official "Church of Intercession on the Moat" (in full, the "Church of Intercession of Most Holy Theotokos on the Moat"), and the "Temple of Basil the Blessed". When these names are listed together the latter name, being informal, is always mentioned second.

 

The common Western translations "Cathedral of Basil the Blessed" and "Saint Basil's Cathedral" incorrectly bestow the status of cathedral on the church of Basil, but are nevertheless widely used even in academic literature. Especially during the 19. century, in English and other languages the Saint Basil's Cathedral was also called (Cathedral or Church of) Vassili Blagennoi.

 

Sacral and social role

On the day of its consecration the church itself became part of Orthodox thaumaturgy. According to the legend, its "missing" ninth church (more precisely a sanctuary) was "miraculously found" during a ceremony attended by Tsar Ivan IV, Metropolitan Makarius with the divine intervention of Saint Tikhon. Piskaryov's Chronist wrote in the second quarter of the 17th century:

 

And the Tsar came to the dedication of the said church with Tsaritsa Nastasia and with Metropolitan Makarius and brought the icon of St Nicholas the Wonderworker that came from Vyatka. And they began to offer a prayer service with sanctified water. And the Tsar touched the base with his own hands. And the builders saw that another sanctuary appeared, and told the Tsar. And the Tsar, and Metropolitan, and all the clergy were surprised by the finding of another sanctuary. And the Tsar ordered it to be dedicated to Nicholas ...

 

— Piskaryov Chronicle, 1560 (7068 per Byzantine calendar)

 

Allegory of Jerusalem

Construction of wrap-around ground-floor arcades in the 1680s visually united the nine churches of the original cathedral into a single building. Earlier, the clergy and the public perceived it as nine distinct churches on a common base, a generalized allegory of the Orthodox Heavenly City similar to fantastic cities of medieval miniatures. At a distance, separate churches towering over their base resembled the towers and churches of a distant citadel rising above the defensive wall. The abstract allegory was reinforced by real-life religious rituals where the church played the role of the biblical Temple in Jerusalem:

 

The capital city, Moscow, is split into three parts; the first of them, called Kitai-gorod, is encircled with a solid thick wall. It contains an extraordinary beautiful church, all clad in shiny bright gems, called Jerusalem. It is the destination of an annual Palm Sunday walk, when the Grand Prince must lead a donkey carrying the Patriarch, from the Church of Virgin Mary to the church of Jerusalem which stands next to the citadel walls. Here is where the most illustrious princely, noble and merchant families live. Here is, also, the main muscovite marketplace: the trading square is built as a brick rectangle, with twenty lanes on each side where the merchants have their shops and cellars ...

 

— Peter Petreius, History of the Great Duchy of Moscow, 1620

Templum S. Trinitatis, etiam Hierusalem dicitur; ad quo Palmarum fest Patriarcha asino insidens a Caesare introducitur.

Temple of Holy Trinity, also called Jerusalem, to where the tsar leads the Patriarch, sitting on a donkey, on the Palm Holiday.

 

— Legend of Peter's map of Moscow, 1597, as reproduced in the Bleau Atlas

The last donkey walk (хождение на осляти) took place in 1693. Mikhail Petrovich Kudryavtsev noted that all cross processions of the period began, as described by Petreius, from the Dormition Church, passed through St. Frol's (Saviour's) Gate and ended at Trinity Cathedral. For these processions the Kremlin itself became an open-air temple, properly oriented from its "narthex" (Cathedral Square) in the west, through the "royal doors" (Saviour's Gate), to the "sanctuary" (Trinity Cathedral) in the east.

 

Urban hub

Tradition calls the Kremlin the centre of Moscow, but the geometric centre of the Garden Ring, first established as the Skorodom defensive wall in the 1590s, lies outside the Kremlin wall, coincident with the cathedral. Pyotr Goldenberg (1902–71), who popularized this notion in 1947, still regarded the Kremlin as the starting seed of Moscow's radial-concentric system, despite Alexander Chayanov's earlier suggestion that the system was not strictly concentric at all.

 

In the 1960s Gennady Mokeev (born 1932) formulated a different concept of the historical growth of Moscow. According to Mokeev, medieval Moscow, constrained by the natural boundaries of the Moskva and Neglinnaya Rivers, grew primarily in a north-easterly direction into the posad of Kitai-gorod and beyond. The main road connecting the Kremlin to Kitai-gorod passed through St. Frol's (Saviour's) Gate and immediately afterwards fanned out into at least two radial streets (present-day Ilyinka and Varvarka), forming the central market square. In the 14th century the city was largely contained within two balancing halves, Kremlin and Kitai-gorod, separated by a marketplace, but by the end of the century it extended further along the north-eastern axis. Two secondary hubs in the west and south spawned their own street networks, but their development lagged behind until the Time of Troubles.

 

Tsar Ivan's decision to build the church next to St. Frol's Gate established the dominance of the eastern hub with a major vertical accent, and inserted a pivot point between the nearly equal Kremlin and Kitai-gorod into the once amorphous marketplace. The cathedral was the main church of the posad, and at the same time it was perceived as a part of the Kremlin thrust into the posad, a personal messenger of the Tsar reaching the masses without the mediation of the boyars and clergy. It was complemented by the nearby Lobnoye mesto, a rostrum for the Tsar's public announcements first mentioned in chronicles in 1547 and rebuilt in stone in 1597–1598. Conrad Bussow, describing the triumph of False Dmitriy I, wrote that on 3 June 1606 "a few thousand men hastily assembled and followed the boyarin with [the impostor's] letter through the whole Moscow to the main church they call Jerusalem that stands right next to the Kremlin gates, raised him on Lobnoye Mesto, called out for the Muscovites, read the letter and listened to the boyarin's oral explanation."

 

Replicas

A scale model of Saint Basil's Cathedral has been built in Jalainur in Inner Mongolia, near China's border with Russia. The building houses a science museum.

I posed two of my daughter's dolls, that she once played with years ago, to create a diorama scene. Hmmmmm

Issued by WMCE (Western Models Collector's Edition) it is 1:43 scale and crafted in white metal.

A Limited Edition, # 12 of 30.

The model is finished in Silver French Gray.

++++++++ FROM WIKIPEDIA ++++++++++

 

Kalimpong is a hill station in the Indian state of West Bengal. It is located at an average elevation of 1,250 metres (4,101 ft).[2] The town is the headquarters of the Kalimpong district.[3] The Indian Army's 27 Mountain Division is located on the outskirts of the town.[4]

 

Kalimpong is known for its educational institutions, many of which were established during the British colonial period.[5] It used to be a gateway in the trade between Tibet and India before China's annexation of Tibet and the Sino-Indian War. Kalimpong and neighbouring Darjeeling were major centres calling for a separate Gorkhaland state in the 1980s, and more recently in 2010.

 

The municipality sits on a ridge overlooking the Teesta River and is a tourist destination owing to its temperate climate, magnificent Himalayan beauty and proximity to popular tourist locations in the region. Horticulture is important to Kalimpong: It has a flower market notable for its wide array of orchids; nurseries, which export Himalayan grown flower bulbs, tubers and rhizomes, contribute to the economy of Kalimpong.[2] Home to Nepalisindigenous Lepchas, other ethnic groups and non-native immigrants from other parts of India, the town is a religious centre of Buddhism. The Tibetan Buddhist monastery Zang Dhok Palri Phodang holds a number of rare Tibetan Buddhist scriptures.[6]

 

The Kalimpong Science Centre, established under the Darjeeling Gorkha Hill Council (DGHC) in 2008 is a recent addition to its many tourist attractions. The Science Centre, which provides for scientific awareness among the students of the town and the locals sits atop the Deolo Hill.

Contents

 

1 Name origin

2 History

3 Geography

4 Economy

5 Transport

6 Demographics

7 Civic administration

8 People, culture, and cuisine

9 Media

10 Education

11 Flora and fauna

12 Notes

13 References

14 External links

 

Name origin

 

The precise etymology of the name Kalimpong remains unclear. There are many theories on the origin of the name. One widely accepted theory claims that the name "Kalimpong" means "Assembly (or Stockade) of the King's Ministers" in Tibetan, derived from kalon ("King's ministers") and pong ("stockade"). It may be derived from the translation "ridge where we play" from Lepcha, as it was known to be the place for traditional tribal gatherings for summer sporting events. People from the hills call the area Kalempung ("the black spurs").[7]

 

According to K.P. Tamsang, author of The Untold and Unknown Reality about the Lepchas, the term Kalimpong is deduced from the name Kalenpung, which in Lepcha means "Hillock of Assemblage";[8] in time, the name was distorted to Kalebung, and later further contorted to Kalimpong. Another possible derivation points to Kaulim, a fibrous plant found in abundance in the region.[9]

History

Katherine Graham Memorial Chapel, Dr. Graham's Homes

The Clock Tower of Kalimpong.

 

Until the mid-19th century, the area around Kalimpong was ruled in succession by the Sikkimese and Bhutanese kingdoms.[8][10] Under Sikkimese rule, the area was known as Dalingkot.[11] In 1706, the king of Bhutan won this territory from the Sikkimese monarch and renamed it Kalimpong.[11] Overlooking the Teesta Valley, Kalimpong is believed to have once been the forward position of the Bhutanese in the 18th century. The area was sparsely populated by the indigenous Lepcha community and migrant Bhutia and Limbu tribes.

 

After the Anglo-Bhutan War in 1864, the Treaty of Sinchula (1865) was signed, in which Bhutanese held territory east of the Teesta River was ceded to the British East India Company.[8] At that time, Kalimpong was a hamlet, with only two or three families known to reside there.[12] The first recorded mention of the town was a fleeting reference made that year by Ashley Eden, a government official with the Bengal Civil Service. Kalimpong was added to district of Darjeeling in 1866. In 1866–1867 an Anglo-Bhutanese commission demarcated the common boundaries between the two, thereby giving shape to the Kalimpong subdivision and the Darjeeling district.[13]

 

After the war, the region became a subdivision of the Western Duars district, and the following year it was merged with the district of Darjeeling.[8] The temperate climate prompted the British to develop the town as an alternative hill station to Darjeeling, to escape the scorching summer heat in the plains. Kalimpong's proximity to the Nathu La and Jelep La passes (La means "pass"), offshoots of the ancient Silk Road, was an added advantage. It soon became an important trading outpost in the trade of furs, wools and food grains between India and Tibet.[14] The increase in commerce attracted large numbers of Nepali's from the neighbouring Nepal and the lower regions of Sikkim, the areas where, Nepali's were residing since the Gorkha invasion of Sikkim in 1790. The movement of people into the area, transformed Kalimpong from a small hamlet with a few houses, to a thriving town with increased economic prosperity. Britain assigned a plot within Kalimpong to the influential Bhutanese Dorji family, through which trade and relations with Bhutan flowed. This later became Bhutan House, a Bhutanese administrative and cultural centre.[15][16][17]

 

The arrival of Scottish missionaries saw the construction of schools and welfare centres for the British.[12] Rev. W. Macfarlane in the early 1870s established the first schools in the area.[12] The Scottish University Mission Institution was opened in 1886, followed by the Kalimpong Girls High School. In 1900, Reverend J.A. Graham founded the Dr. Graham's Homes for destitute Anglo-Indian students.[12] The young missionary (and aspiring writer and poet) Aeneas Francon Williams, aged 24, arrived in Kalimpong in 1910 to take up the post of assistant schoolmaster at Dr. Graham's Homes,[18] where he later became Bursar and remained working at the school for the next fourteen years.[19] From 1907 onwards, most schools in Kalimpong had started offering education to Indian students. By 1911, the population comprised many ethnic groups, including Nepalis, Lepchas, Tibetans, Muslims, the Anglo-Indian communities. Hence by 1911, the population had swollen to 7,880.[12]

 

Following Indian independence in 1947, Kalimpong became part of the state of West Bengal, after Bengal was partitioned between India and East Pakistan. With China's annexation of Tibet in 1959, many Buddhist monks fled Tibet and established monasteries in Kalimpong. These monks brought many rare Buddhist scriptures with them. In 1962, the permanent closure of the Jelep Pass after the Sino-Indian War disrupted trade between Tibet and India, and led to a slowdown in Kalimpong's economy. In 1976, the visiting Dalai Lama consecrated the Zang Dhok Palri Phodang monastery, which houses many of the scriptures.[12]

Most large houses in Kalimpong were built during the British era. In the background is Mount Kangchenjunga.

Morgan House is a classic example of colonial architecture in Kalimpong.

 

Between 1986 and 1988, the demand for a separate state of Gorkhaland and Kamtapur based on ethnic lines grew strong. Riots between the Gorkha National Liberation Front (GNLF) and the West Bengal government reached a stand-off after a forty-day strike. The town was virtually under siege, and the state government called in the Indian army to maintain law and order. This led to the formation of the Darjeeling Gorkha Hill Council, a body that was given semi-autonomous powers to govern the Darjeeling district, except the area under the Siliguri subdivision. Since 2007, the demand for a separate Gorkhaland state has been revived by the Gorkha Janmukti Morcha and its supporters in the Darjeeling hills.[20] The Kamtapur People's Party and its supporters' movement for a separate Kamtapur state covering North Bengal have gained momentum.[21]

Geography

A view from the Deolo Resort, atop Deolo Hill, Kalimpong's highest point

 

The town centre is on a ridge connecting two hills, Deolo Hill and Durpin Hill,[12] at an elevation of 1,247 m (4,091 ft). Deolo, the highest point in Kalimpong, has an altitude of 1,704 m (5,591 ft) and Durpin Hill is at an elevation of 1,372 m (4,501 ft). The River Teesta flows in the valley below and separates Kalimpong from the state of Sikkim. The soil in the Kalimpong area is typically reddish in color. Occasional dark soils are found due to extensive existence of phyllite and schists.[22] The Shiwalik Hills, like most of the Himalayan foothills, have steep slopes and soft, loose topsoil, leading to frequent landslides in the monsoon season.[22] The hills are nestled within higher peaks and the snow-clad Himalayan ranges tower over the town in the distance. Mount Kanchenjunga at 8,586 m (28,169 ft) the world's third tallest peak,[23] is clearly visible from Kalimpong.[2]

View of the Himalaya range

 

Kalimpong has five distinct seasons: spring, summer, autumn, winter and the monsoons. The annual temperature ranges from a high of 30 °C (86 °F) to a low of 9 °C (48 °F). Summers are mild, with an average maximum temperature of 30 °C (86 °F) in August.[24] Summers are followed by the monsoon rains which lash the town between June and September. The monsoons are severe, often causing landslides which sequester the town from the rest of India. Winter lasts from December to February, with the maximum temperature being around 15 °C (59 °F). During the monsoon and winter seasons, Kalimpong is often enveloped by fog.[25]

Economy

Oranges grown in the hillsides are exported to many parts of India.

 

Tourism is the most significant contributor to Kalimpong's economy.[26] The summer and spring seasons are the most popular with tourists, keeping many of town's residents employed directly and indirectly. The town—earlier an important trade post between India and Tibet—hopes to boost its economy after the reopening of the Nathu La (pass) in April 2006.[27] Though this has resumed Indo–China border trades,[28] it is expected that Kalimpong will have a better chance of revival as a hub for Indo–China trades if the demand of local leaders for reopening of Jelep La pass also is met.[28]

 

Kalimpong is a major ginger growing area of India. Kalimpong and the state of Sikkim together contribute 15 percent of ginger produced in India.[29] The Darjeeling Himalayan hill region is internationally famous for its tea industry.[30] However, most of the tea gardens are on the western side of Teesta river (towards the town of Darjeeling) and so tea gardens near Kalimpong contribute only 4 percent of total tea production of the region. In Kalimpong division, 90 percent of land is cultivable but only 10 percent is used for tea production.[31] Kalimpong is well known for its flower export industry—especially for its wide array of indigenous orchids and gladioli.[32]

 

A significant contributor to the town's economy is education sector.[26] The schools of Kalimpong, besides imparting education to the locals, attract a significant number of students from the plains, the neighbouring state of Sikkim and countries such as Bhutan, Bangladesh, Nepal and Thailand.[26]

 

Many establishments cater to the Indian army bases near the town, providing it with essential supplies. Small contributions to the economy come by the way of the sale of traditional arts and crafts of Sikkim and Tibet. Government efforts related to sericulture, seismology, and fisheries provide a steady source of employment to many of its residents.

 

Kalimpong is well renowned for its cheese, noodles and lollipops. Kalimpong exports a wide range of traditional handicrafts, wood-carvings, embroidered items, bags and purses with tapestry work, copper ware, scrolls, Tibetan jewellery and artifacts.[32][33]

Transport

NH31A winds along the banks of the river Teesta near Kalimpong.

 

Kalimpong is located off the National Highway 31A (NH31A), which links Sevok to Gangtok. The NH31A is an offshoot of the NH 31, which connects Sevok to Siliguri.[34] These two National Highways together, via Sevok, links Kalimpong to the plains.[35] Regular bus services and hired vehicles connect Kalimpong with Siliguri and the neighbouring towns of Kurseong, Darjeeling and Gangtok. Four wheel drives are popular means of transport, as they can easily navigate the steep slopes in the region. However, road communication often get disrupted in the monsoons due to landslides. In the town, people usually travel by foot. Residents also use bicycle, two-wheelers and hired taxis for short distances.

 

The nearest airport is in Bagdogra near Siliguri, about 80 kilometres (50 mi) from Kalimpong. Air India, Jet Airways and Druk Air (Bhutan) are the four major carriers that connect the airport to Delhi, Kolkata, Paro (Bhutan), Guwahati and Bangkok (Thailand). The closest major railway station is New Jalpaiguri, on the outskirts of Siliguri,[2] which is connected with almost all major cities of the country.

Demographics

Population growth

 

At the 2011 India census,[37] Kalimpong town area had a population of 42,988, of which 52% were male and 48% female.[37]

 

At the 2001 census,[38] Kalimpong had an average literacy rate of 79%, higher than the national average of 59.5%: male literacy was 84%, and female literacy was 73%. In Kalimpong, 8% of the population was under 6 years of age. The Scheduled castes and scheduled tribes population for Kalimpong was 5,100 and 5,121 respectively.[39]

Civic administration

 

Kalimpong is the headquarters of the Kalimpong district. The semi-autonomous Darjeeling Gorkha Hill Council (DGHC), set up by the West Bengal government in 1988, administers this district as well as the Darjeeling Sadar and Kurseong subdivisions.[40] Kalimpong elects eight councillors to the DGHC, who manages the departments of Public Health, Education, Public Works, Transport, Tourism, Market, Small scale industries, Agriculture, Agricultural waterways, Forest (except reserved forests), Water, Livestock, Vocational Training and Sports and Youth services.[41] The district administration of Darjeeling, which is the authoritative body for the departments of election, panchayat, law and order, revenue, etc., also acts as an interface of communication between the Council and the State Government.[41] The rural area in the district covers three community development blocks Kalimpong I, Kalimpong II and Gorubathan consisting of forty-two gram panchayats.[42] A Sub-Divisional Officer (SDO) presides over the Kalimpong subdivision. Kalimpong has a police station that serves the municipality and 18 gram panchayats of Kalimpong–I CD block.[43]

 

The Kalimpong municipality, which was established in 1945,[39] is in charge of the infrastructure of the town such as potable water and roads. The municipal area is divided into twenty-three wards.[44] Kalimpong municipality is constructing additional water storage tanks to meet the requirement of potable water, and it needs an increase of water supply from the 'Neora Khola Water Supply Scheme' for this purpose.[45] Often, landslides occurring in monsoon season cause havoc to the roads in and around Kalimpong.[46] The West Bengal State Electricity Distribution Corporation Limited (WBSEDCL) provides electricity here.[47] Renewable Energy Development Agency of the state has plans to promote usage of solar street lights in Kalimpong and proposed an energy park here to sell renewable energy gadgets.[48] The Public Works Department is responsible for the road connecting the town to the National Highway–NH-31A.[49] The Kalimpong municipality has a total of 10 health care units, with a total of 433 bed capacity.[50]

 

The Kalimpong assembly constituency, which is an assembly segment of the Darjeeling parliamentary constituency, elects one member of the Vidhan Sabha of West Bengal.[51]

People, culture, and cuisine

The Zang Dhok Palri Phodang monastery atop Durpin Hill

 

The original settlers of Kalimpong are the Lepchas, although the majority of the populace are ethnic Nepali, having migrated from Nepal to Kalimpong in search of jobs while it was under British rule.[52]

 

Indigenous ethnic groups include the Newars, Bhutia, Sherpas, Limbus, Rais, Magars,[53] Chettris, Bahuns, Thakuris, Gurungs, Tamangs, Yolmos, Bhujels, Sunuwars, Sarkis, Damais and the Kamis.[54] The other non-native communities as old as the Nepalese are the Bengalis, Muslims, Anglo-Indians, Chinese, Biharis and Tibetans who escaped to Kalimpong after fleeing the Communist Chinese invasion of Tibet. Kalimpong is home to Trinley Thaye Dorje—one of the 17th Karmapa incarnations.[55] Kalimpong is the closest Indian town to Bhutan's western border, and has a small number of Bhutanese nationals residing here. Hinduism is the largest religion followed by Nijananda Sampradaya, Buddhism and Christianity.[53] Islam has a minuscule presence in this region, The Oldest settlers include people residing since the mid of 19th Century and also mostly Tibetan Muslims who fled in 1959 after Chinese invasion of Tibet.[56] The Buddhist monastery Zang Dhok Palri Phodang holds a number of rare Tibetan Buddhist scriptures.[6] There is a Mosque, Kalimpong Anjuman Islamia Established in 1887 in the bazaar area of Kalimpong.[57]

 

Popular Hindu festivals include Dashain, Tihar, Cultural Programme and the Tibetan festival of Losar. Languages spoken in Kalimpong include Nepali, which is the predominant language; Lepcha, Limbu, Tamang, Kirat, Hindi, English and Bengali.[2] Though there is a growing interest in cricket as a winter sport in Darjeeling Hills, football still remains the most popular sport in Kalimpong.[58] Every year since 1947, the Independence Shield Football Tournament is organized here as part of the two-day-long Independence Day celebrations.[59] Former captain of India national football team, Pem Dorjee hails from Kalimpong.[60]

 

A popular snack in Kalimpong is the momo, steamed dumplings made of pork, beef or vegetable cooked in a wrapping of flour and served with watery soup. Wai-Wai is a packaged Nepalese snack made of noodles which are eaten either dry or in soup form. Churpee, a kind of hard cheese made from yak's or chauri's (a hybrid of yak and cattle) milk, is sometimes chewed.[61] A form of noodle called Thukpa, served in soup form is popular in Kalimpong.[62] There are a large number of restaurants which offer a wide variety of cuisines, ranging from Indian to continental, to cater to the tourists. Tea is the most popular beverage in Kalimpong, procured from the famed Darjeeling tea gardens. Kalimpong has a golf course besides Kalimpong Circuit House.[2][63]

 

The cultural centres in Kalimpong include, the Lepcha Museum and the Zang Dhok Palri Phodang monastery. The Lepcha Museum, a kilometre away from the town centre, showcases the culture of the Lepcha community, the indigenous peoples of Sikkim. The Zang Dhok Palri Phodong monastery has 108 volumes of the Kangyur, and belongs to the Gelug of Buddhism.

Media

 

Kalimpong has access to most of the television channels aired in the rest of India. Cable Television still provides service to many homes in the town and it's outskirts, while DTH connections are now practically mandatory throughout the country. Besides mainstream Indian channels, many Nepali-language channels such as Dainandini DD, Kalimpong Television KTv, Haal Khabar (an association of the Hill Channel Network), Jan Sarokar, Himalayan People's Channel (HPC), and Kalimpong Times are broadcast in Kalimpong. These channels, which mainly broadcast locally relevant news, are produced by regional media houses and news networks, and are broadcast through the local cable network, which is now slowly becoming defunct due to the Indian government's ruling on mandatory digitization of TV channels. The movie production houses like JBU films produces the movies on the nepali and other languages.[64]

 

Newspapers in Kalimpong include English language dailies The Statesman and The Telegraph, which are printed in Siliguri,[65][66] and The Economic Times and the Hindustan Times, which are printed in Kolkata.

 

Among other languages, Nepali, Hindi and Bengali are prominent vernacular languages used in this region.[25] Newspapers in all these four languages are available in the Darjeeling Hills region. Of the largely circulated Nepali newspapers Himalay Darpan, Swarnabhumi and some Sikkim-based Nepali newspapers like Hamro Prajashakti and Samay Dainik are read most.[67] The Tibet Mirror was the first Tibetan-language newspaper published in Kalimpong in 1925.[68] while Himalayan Times was the first English to have come out from Kalimpong in the year 1947, it was closed down in the year 1962 after the Chinese aggression but was started once again and is now in regular print. Internet service and Internet cafés are well established; these are mostly served through broadband, data card of different mobile services, WLL, dialup lines,[69][70] Kalimpong News, Kalimpong Online News, Kalimpong Times and KTV are the main online news sites that collect and present local and North Bengal & Sikkim news from its own agencies like KalimNews and other newspapers. Besides this there are others like kalimpong.info, kalimpongexpress.blogspot.com and several others. All India Radio and several other National and Private Channels including FM Radio are received in Kalimpong.

 

The area is serviced by major telecommunication companies of India with most types of cellular services in most areas.[71]

Education

 

There are fifteen major schools in Kalimpong, the most notable ones being Scottish Universities Mission Institution, Dr. Graham's Homes, St Joseph's Convent, St. Augustine's School, Rockvale Academy, Saptashri Gyanpeeth, Springdale Academy, St. Philomenas School, Kalimpong Girls' High School, Kumdini Homes, Chandramaya High School, Lolay Sampu High School and Gandhi Ashram School. The Scottish Universities Mission Institution was the first school that was opened in 1886. The schools offer education up to high secondary standard, following which students may choose to join a Junior College or carry on with additional two years of schooling.

 

Kalimpong College, Cluny Women's College and Rockvale Management College are the main colleges in the town. Former two are affiliated to the North Bengal University and the latter affiliated to West Bengal University of Technology and apart from these, Good Shepherd IHM (Hotel management Institution) offers courses on hospitality sectors. Most students however, choose to further their studies in Siliguri, Kolkata, and other colleges in the Indian metropolis. The Tharpa Choling Monastery, at Tirpai Hill near Kalimpong, is managed by Yellow Hat sect and has a library of Tibetan manuscripts and thankas.

Flora and fauna

Heliconia

 

The area around Kalimpong lies in the Eastern Himalayas, which is classified as an ecological hotspot, one of only three among the ecoregions of India. Neora Valley National Park lies within the Kalimpong subdivision and is home to tigers.[72] Acacia is the most commonly found species at lower altitudes, while cinnamon, ficus, bamboo and cardamom, are found in the hillsides around Kalimpong. The forests found at higher altitudes are made up of pine trees and other evergreen alpine vegetation. Seven species of rhododendrons are found in the region east of Kalimpong. The temperate deciduous forests include oak, birch, maple and alder.[73] Three hundred species of orchid are found around Kalimpong.[74]

 

The Red panda, Clouded leopard, Siberian weasel, Asiatic black bear,[75] barking deer,[76] Himalayan tahr, goral, gaur[76] and pangolin are some of the fauna found near Kalimpong. Avifauna of the region include the pheasants, cuckoos, minivets, flycatchers, bulbuls, orioles, owls, partridges, sunbirds, warblers, swallows, swifts and woodpeckers.[77]

 

Kalimpong is a major production centre of gladioli in India,[78] and orchids, which are exported to many parts of the world. The Rishi Bankim Chandra Park is an ecological museums within Kalimpong.[79] Citrus Dieback Research Station at Kalimpong works towards control of diseases, plant protection and production of disease free orange seedlings.[80]

 

Kalimpong is also famous for their rich practice of cactus cultivation. Its nurseries attract people from far and wide for the absolutely stunning collection of cacti they cultivate. The strains of cacti, though not indigenous to the locale, have been carefully cultivated over the years, and now the town boasts one of the most fascinating and exhaustive collections of the Cactaceae family. The plants have adapted well to the altitude and environment, and now prove to be one of the chief draws of tourism to the township.[81][82]

I revisited this wonderful building Sunday 19th May 2019, I pass it every day, it always looks resplendent and dominating, it's history intrigues me, unfortunately vandals have also visited and created some damage, their behaviour boils my blood .

 

Relocated a short distance from Old Aberdeen and Aberdeen University, due to retailers Marks And Spencer's building a new store at its original location, happily the company funded the relocation and it was re-built brick by brick.

  

History - Benholm's Lodge

 

Benholm's Lodge, which is also known as Wallace Tower, was built between 1610 and 1616 by Sir Robert Keith. He was a younger brother of George Keith, Earl Marischal and pressured his elder sibling to grant him land and property. Robert seized Ackergill Castle and this seemingly prompted the Earl to relent and grant him the Barony of Benholm.

 

To mark his new found status, Robert changed his surname to Benholm and built a new lodge to serve as his family seat. Despite its current position, the tower was originally located just outside of Aberdeen Town Walls adjacent to Netherkirkgate (near the intersection between Union Street and Market Street).

  

The castle took the form of a three storey (plus attic) Z-plan Tower House. It was constructed from rubble with some ashlar dressing and the whole structure was originally harled.

 

The main block was a rectangular structure with storage at ground level, a hall on the first floor and accommodation above. A circular stair tower provided access to all floors.

 

Sir Robert Benholm died in 1616 and the tower reverted to the Earl Marischal. He had little use for it so converted it into the residence for the Principal of new Marischal College. It later passed into the hands of William Hay and thereafter was owned by various city merchants. The structure was expanded circa-1789 when a new wing was added.

  

It remained a residence into the nineteenth century although the ground floor was converted into a Public House. In 1918 it was taken-over by the city council and thereafter was neglected. Between 1963 and 1971, the tower was dismantled brick-by-brick and relocated to Tillydrone, some 1.5 miles north of its original site.

 

Site Name Aberdeen, Benholm's Lodge

 

Classification Public House (20th Century), Tower House (17th Century)

 

Alternative Name(s) Old Aberdeen; Wallace Tower; Benholm's Lodging; Netherkirkgate; Wallace Neuk; Wallace Nook; Putachieside

 

BENHOLM’S TOWER, in the Nether Kirkgate of Aberdeen, was a unique building in the evolution of Scots medieval architecture for the reason that, despite unfortunate 19th-century alterations and subsequent neglect, it is the only example of a ‘toun ludging’ planned on the 3-stepped or Z-plan shape so much favoured by the fortress home and castle-builders of NE. Scotland from about 1560 on.

 

Generations of Aberdonians have named the house as the ‘Wallace Tower’ – evidently not a reference to the Scottish Patriot, but perhaps a corruption of the name Well-house (local pronunciation would be ‘Wall-hoose’) – from the pyramid Cistern ‘Wallie’ which formerly stood at the head of Carnegie’s Brae. The house was built by Sir Robert Keith of Benholm, probably after 1610 and certainly prior to 1616 when Sir Robert’s death is recorded. He was the brother of George Keith, 5th Earl Marischal – founder of Marischal College in 1593 – and the nephew of Robert Keith, Commendator of Deer, who in 1587 was designated Lord Altrie being that same year confirmed by charter in the lands and Barony of Benholm, a property in the Mearns he had acquired by marriage to Elizabeth Lundie, heiress of the ancient family of Lundie of Benholm.

  

During the last half of the 16th century the Keith family as Catholics had gained immense possessions up and down Scotland from what had been church property, and the Marischal’s brother Robert obviously intended to share in the family spoils. Benholm was knighted before 1612, and by 1613, in addition to his Mearns estate, he was in possession of several tenements and lands in and around Aberdeen, including Seaton (the Bishop’s Ward in pre-Reformation times) and properties in the Upper and Nether Kirkgates. Sir Robert had Benholm’s Tower built in what had been virtually open country in the early 17th century. The Z-plan Fortress house he erected for his Toun Ludging was a building capable of defence, for it is actually sited just outside the medieval burgh boundary, some 20 yds. West of the old Nether Kirkgate Port. Of the 2 round towers, one commanded the street leading to the Mither Kirk and the steep inclined city entrance (Carnegie’s Brae is now the only medieval cobbled street in Aberdeen) leading to the Green and the harbour quay, and the other tower overlooked the courtyard and gardens sloping to the bed of the old Loch outflow the Putachie Burn. The Knight of Benholm‘s town house, befitting his early violent life, had in the 17th century appeared a veritable Laird’s Castle.

 

The earliest record of Benholm’s Tower occurs in 1616, the year of Sir Robert’s death, when the property is described as a new house with its garden in the Nether Kirkgate outside the Port.

  

The original tower-house, with its central oblong block and diagonally-opposite round towers at NE. and SW. corners, has been subjected to inevitable alterations externally and internally over its long history of almost 350 years. But the basic plan remains: the central block is about 34 ft. long by 20 ft. 6 in. wide over walls generally 2 ft. 6 in. thick. The Court round tower is about 13 ft. 6 in. in diameter over a wall thickness of 27 in. The Street Tower is smaller – about 11 ft. in diameter, the wall varying from 15-18 in. thick. The lowest storey of the house, now the basement forming the cellar of the licensed premises, was in the 17th century the ground floor. The walled courtyard or court (now partly built over by the south wing added about 1785 was entered by a gateway – of which the chamfered jamb stones remain. From Carnegie’s Brae, and westwards, where the flagstoned Tower Court is now enclosed by high buildings on 3 sides, lay the Laird of Benholm’s garden. Where the court round tower forms an angle with the main block is the main entrance door, long locked up, but the fine roll-moulded jambs and lintel are still almost complete. Within the door on the left, the toothings of the original stone steps in the wall indicate the position of the original circular stair. In the south wall of the central block are the cheeks of the original cellar door flanked by 2 windows, now built up – the chamfered jambs of the east-most window have been re-used in the later slapping at the corner of the cellar.

 

The north wall has 2 narrow window slits: these are interesting as indicating that the street level of the Nether Kirkgate is now much higher than in the 17th century: the re-levelling took place following the formation of St Nicholas Street (1805) when the hollow of the Putachie Burn was filled up.

  

Of the 3 openings on the east wall, the central one is a door of later date, the other 2 being originally window positions.

  

The lowering of the level of the ground floor joists in more recent times and the consequent dropping of the earth floor of the cellar explains the exposure of the ‘foonds’ or stone footings on north and south walls, and the original window soffit heights.

 

From basement level there is no access to the street tower.

 

Above ground floor level in the Court stair tower, the late 19th century wooden stair now gives access from the Nether Kirkgate to the upper floors of the house. Of the windows lighting the original stone stair, the lowest remains, with indications of the chamfered sandstone jambs of the 2 upper windows underneath the present openings. Projecting from one side of the old middle window was the square bracket for the gas lamp which, from the mid-19th century had given light to the Tower Court and to the pend leading from Carnegie’s Brae. When the ground floor was drastically altered some 60 years ago, the ceiling was heightened, the upper south wall of the main block was carried on a beam and the whole floor (including the lobby access to the stair) was laid out on one level to form the public house.

 

These alterations removed visible traces of what had been the hall (and possibly kitchen) of the tower house, and of the wide arched fireplace which probably occupied the west wall. In the main house the upper floors show alterations of the late 18th century, contemporary with the south wing added during John Niven‘s ownership (c.1789),

 

The central stair had led up from a door from Netherkirkgate, but the lower flight was removed during the ground floor alterations.

 

The 2 chambers at 1st floor – on either side of this central stair – have wall panelling to dado height, the doors have characteristic 18th-century details, and the ceilings have heavy plasterwork.

 

The house was occupied by Dr Patrick Dun, (1581-1652) appointed Principal of Marischal College in 1621; Dun was head of the medical faculty. Following Dun’s death about 1652,

 

Benholm’s Tower was acquired by William Hay of Balbithan and thereafter it belonged successively to Andrew Logic, William Wemyss and to James Abernethie, merchant. After the latter’s death in 1768, the tenement of land called ‘Wallace Neuk‘ and close was disposed to John Niven, a snuff and tobacco merchant.

  

By 1789, Niven had ‘lately erected’ the wing fronting Carnegie’s Brae, thus building over the old courtyard, and in that year the property passed to James Coutts.

 

Subsequent owners were John Donald Taylor from 1851-78, thence to his heirs until 1895, when James Pirie, Spirit Dealer of 59 Nether Kirkgate, h. 6 Forbesfield Rd acquired the property – at this time the basement and ground floor were converted into licensed premises.

  

Standing 27 ft. high from street to eaves, the tower has the subtle batter which is a characteristic of Scots military architecture, while the roof has a definite bell-cast lip round the eaves.

 

The original lead gutters were still in position at the wallhead of both circular towers.

 

The small turret projects out on 4 corbel courses resting on a carved spurstone terminating the roll-moulded stringcourse which encircles the tower at first floor level: linked to this by a similar surrounding moulding, smaller in scale, is the recess with the statue on the NE. face of the tower .

 

The recess is 5 ft. 7 in. high by 2 ft. 11 in. wide by 15 in. deep at the top. The stones forming cheeks and lintels are tied in to the tower walls and have every appearance of being original work.

 

The statement, attributed to Andrew Jervise, that the figure itself was taken from a tomb in St Nicholas kirkyard and set up in the recess by John Niven, may explain this extremely interesting piece of sculpture.

 

However, despite the accumulation of paint and patching on the statue, close inspection reveals that the dress and armour are contemporary with that of the first decade of the 17th century: the theory cannot be dismissed that here we have a portrait in sculpture of the founder of the building, Sir Robert Keith of Benholm. Also at 1st floor level, and facing west along Nether Kirkgate, is an armorial panel displaying two coats-of-arms.

 

The upper shield (there are no supporters or crest) is now indecipherable but there is the possibility that it bore the cross of St John below the simple motto ‘Pro Fide’: the Knights of St John, although disbanded at the Reformation, retained the superiority of several properties in Aberdeen.

  

The larger part of the heraldic panel has the shield of the Keiths – argent, on a chief paly of 6, or and gules with crest and supporting stags, all under the motto ‘Veritas Vincit’ (Truth Conquers).

  

The whole panel is completely overpainted and requires expert cleaning. Of the weapon-holes which must originally have defended the tower-house, only one is now visible – a fine example of a gunport of the quatrefoil type.

 

Thanks to the magnificent Wikipedia and Doric Columns for the history facts on this great building .

Okay, so I got a DIM G.S.E body for my Isar head since it seemed to have wider shoulders (than Narae), there was a large bust option and I thought the colour match should be good. And yes, the shoulders are wider and so is the whole doll. I did not expect the body to be quite so big. (I will have comparisons with other bodies I have soon.) The first reaction I had to it was that it's in the same scale as a JID body (and it has very similar looking short feet). Only this is much more graceful.

 

The second thing I noticed was that this body is _very_ heavily engineered (you'll see what I mean in the upcoming images). Usually I'd hate it, but this is the first body I've handled that actually works with all the gimmicks.

 

After assembling it and checking out all the joints, I have to say that this body is perfect, save for two things. 1) The boob-joint. This body has a very heavy back curve and the default position is a very stiff rigid posture. If there was a waist joint in the torso she could slouch and look natural, but since there isn't she will break her ribcage, have a weird curve and then a bump in her back if she leans forward (you'll see in photos). 2) The short feet. This isn't a problem with most shoes, but if you want open toe ones, you're out of luck because they won't reach properly to the opening. I was quite glad to notice, though, that the feet are big like she is and thus she can wear any MSD shoes without them looking ridiculously big. (I can finally shop for heels from Leeke!)

 

I'm sorry I couldn't do this review before I blushed the body, but I wasn't sure if I'd have time to finish the blush before it gets dark.

 

You can see the standard front, back, side photos at DIM's own page, so I'm going straight for the jointing explanation.

 

The body I have has the large bust and mobility joint. Head is Iplehouse Isar.

 

NEW RELEASE PL2016-M34

 

Dear clients, here comes a new member, PL2016-M34, our 5th. 1:6 scale seamless male figure body with stainless steel skeleton after its four seniors: PL2015-M30, PL2016-M31, PL2016-M32 and PL2016-M33, which are broadly acclaimed by clients all over the world.

 

PL2016-M34 stands 31cm, has the physique of an excellent body builder, being muscular in a very well-proportioned way, from its massive and bulging muscles, you feel its potent strength is eagerly waiting to be let out. Check out the pics to see and feel that for yourselves please.

 

If you ever had your hands on any of our first four models, then you know how

flexible/posable/durable they are, how the skin feels like and despite some

aspects to improve, how aesthetically beautiful and anatomically scientific the

bodies are. As mentioned above, the first four models have got loads of attention

and reviews, good and bad, we appreciate them all. They guide us the right direction to go. Combine that with our strong R&D and manufacturing strength, we could do better with higher efficiency.

 

If you’re new to our 1:6 scale seamless male figure body series, below is the basic info for you to get started:

 

PL2015-M30: very muscular, slightly shorter than the following models

PL2016-M31: quite muscular, tall

PL2016-M32: physique typical of Asian men, slim with very tight muscles

PL2016-M33: very muscular, tall

 

Similarities they share:

Boasting human-like skin texture, and being super flexible, posable and

durable. All enjoy great popularity with clients all over the world.

  

Detailed info:

Its internal skeleton armature is made from durable stainless steel to withstand playability without being easily damaged or corrupted. Each armature has 28 points of articulation, using ball-jointed system, for maximum flexibility and movement. Each joint is designed to move freely and consistently with 90% accuracy. With the slightest effort, this body is capable of making countless dynamic poses to imitate any posture of any character.

 

The stainless steel armature is wrapped with a non-toxic, environmentally friendly medical-grade material specially developed for Phicen bodies. The material features durable, anti-cracking qualities that are easy to clean, but not easy to stain or dye. Additionally, the skin texture is designed to deliver a tactile experience of real skin.

 

While built for playability, this Phicen seamless figure body is NOT a toy - it is a

sophisticated 1:6 scale model designed to realistically simulate the real human

by using superior materials and quality execution. Anatomically correct though,

it’s not designed to be a sex toy either. They are used in the aspects of character design, cos-play, modeling, photography, painting, anatomy, or simply figure collection.

 

NOTE:

These products include NO head sculpt.

They all come in suntan, the skin tone matches that of most head sculpts from other mainstream 1:6 scale action figure companies.

 

Part List:

1) M34 male super flexible seamless body with metal skeleton

2) interchangeable hands * 6pcs/3pairs

3) removable flat-heeled feet * 1pair

4) shorts * 1pc

5) wrist band * 1pair

6) ankle band * 1pair

7) Male genitalia * 5pcs

Pamela is wearing a Knitbrary inspired cardigan.

Handknitted.

All sizes available.

 

Follow me on facebook! www.facebook.com/karineSHCF

 

More clothing handmade by me here flic.kr/s/aHskbvqtZ3

I've finished the circuit of the outside installations. The Gallery with the inside features is not yet opened so I'm walking around seeing some of the installations in different light. This is the Lime and Lava Red Tower near the Desert Terrace Garden just north of the Desert Portal.

 

I had a very nice morning at the Desert Botanical Garden viewing the Chihuly Glass installations. As a Member I get in an hour early. I wish I had taken better advantage of this exhibit and caught some sunsets.

 

dbg.org/media-release/desert-botanical-garden-announces-c...

"Dale Chihuly makes a dramatic return to the Sonoran Desert on Dec. 3 with a stunning new exhibition at two of Arizona’s most iconic venues, Desert Botanical Garden and Frank Lloyd Wright’s Taliesin West.

 

"Combining art, architecture and nature, Chihuly in the Desert, is set against majestic saguaros, landmark buildings and striking Papago buttes. Chihuly’s masterpieces stun from day to night as color, light and form come alive at two locations for a joint exhibition. Tickets go on sale to the public starting Oct. 4 for the exhibition that runs from Dec. 3, 2021 through June 19, 2022.

 

“The Garden is thrilled to bring Chihuly back to the Valley since their first showing in 2008. We are co-presenting the exhibit with Taliesin West – both venues will be filled with extraordinary glass installations,” says Ken Schutz, the Garden’s executive director. “Partnering with Taliesin West has been a rewarding experience, and I think our successful collaboration might serve as a model for other arts and cultural organizations in the Valley as they bring their programs back on line.”

 

"Chihuly in the Desert showcases Dale Chihuly’s stunning, large-scale installations nestled among the Garden’s world-class collection of desert plants. Featuring installations on the Garden’s trails complemented by a major indoor gallery in Dorrance Hall, the dynamic exhibition includes never-before-seen installations and is a must-see throughout the seasons.

 

Desert Botanical Garden Chihuly 2022

 

DSC01048 acd

NASA's Jupiter-bound Juno spacecraft will carry the 1.5-inch likeness of Galileo Galilei, the Roman gods Juno and Jupiter. These 1:1 scale minifigures are precision milled aluminum (at a reported cost of $5,000 USD each) and will soon go where no minifig has gone before. Weather-permitting, liftoff is scheduled for Friday, August 5, 2011 at 11:34 a.m. EDT.

More info at: www.nasa.gov/mission_pages/juno/main/index.html and www.legospace.com/

image from: photojournal.jpl.nasa.gov/

(psst: Hey LEGO Group... How about making these available in ABS as a retail set?)

Handcrafted 1:12 Scale Miniature 1940's General Store.

Fish, any of approximately 34,000 species of vertebrate animals (phylum Chordata) found in the fresh and salt waters of the world. Living species range from the primitive jawless lampreys and hagfishes through the cartilaginous sharks, skates, and rays to the abundant and diverse bony fishes. Most fish species are cold-blooded; however, one species, the opah (Lampris guttatus), is warm-blooded.

 

The term fish is applied to a variety of vertebrates of several evolutionary lines. It describes a life-form rather than a taxonomic group. As members of the phylum Chordata, fish share certain features with other vertebrates. These features are gill slits at some point in the life cycle, a notochord, or skeletal supporting rod, a dorsal hollow nerve cord, and a tail. Living fishes represent some five classes, which are as distinct from one another as are the four classes of familiar air-breathing animals—amphibians, reptiles, birds, and mammals. For example, the jawless fishes (Agnatha) have gills in pouches and lack limb girdles. Extant agnathans are the lampreys and the hagfishes. As the name implies, the skeletons of fishes of the class Chondrichthyes (from chondr, “cartilage,” and ichthyes, “fish”) are made entirely of cartilage. Modern fish of this class lack a swim bladder, and their scales and teeth are made up of the same placoid material. Sharks, skates, and rays are examples of cartilaginous fishes. The bony fishes are by far the largest class. Examples range from the tiny seahorse to the 450-kg (1,000-pound) blue marlin, from the flattened soles and flounders to the boxy puffers and ocean sunfishes. Unlike the scales of the cartilaginous fishes, those of bony fishes, when present, grow throughout life and are made up of thin overlapping plates of bone. Bony fishes also have an operculum that covers the gill slits.

 

The study of fishes, the science of ichthyology, is of broad importance. Fishes are of interest to humans for many reasons, the most important being their relationship with and dependence on the environment. A more obvious reason for interest in fishes is their role as a moderate but important part of the world’s food supply. This resource, once thought unlimited, is now realized to be finite and in delicate balance with the biological, chemical, and physical factors of the aquatic environment. Overfishing, pollution, and alteration of the environment are the chief enemies of proper fisheries management, both in fresh waters and in the ocean. (For a detailed discussion of the technology and economics of fisheries, see commercial fishing.) Another practical reason for studying fishes is their use in disease control. As predators on mosquito larvae, they help curb malaria and other mosquito-borne diseases.

 

Fishes are valuable laboratory animals in many aspects of medical and biological research. For example, the readiness of many fishes to acclimate to captivity has allowed biologists to study behaviour, physiology, and even ecology under relatively natural conditions. Fishes have been especially important in the study of animal behaviour, where research on fishes has provided a broad base for the understanding of the more flexible behaviour of the higher vertebrates. The zebra fish is used as a model in studies of gene expression.

 

There are aesthetic and recreational reasons for an interest in fishes. Millions of people keep live fishes in home aquariums for the simple pleasure of observing the beauty and behaviour of animals otherwise unfamiliar to them. Aquarium fishes provide a personal challenge to many aquarists, allowing them to test their ability to keep a small section of the natural environment in their homes. Sportfishing is another way of enjoying the natural environment, also indulged in by millions of people every year. Interest in aquarium fishes and sportfishing supports multimillion-dollar industries throughout the world.

 

Fishes have been in existence for more than 450 million years, during which time they have evolved repeatedly to fit into almost every conceivable type of aquatic habitat. In a sense, land vertebrates are simply highly modified fishes: when fishes colonized the land habitat, they became tetrapod (four-legged) land vertebrates. The popular conception of a fish as a slippery, streamlined aquatic animal that possesses fins and breathes by gills applies to many fishes, but far more fishes deviate from that conception than conform to it. For example, the body is elongate in many forms and greatly shortened in others; the body is flattened in some (principally in bottom-dwelling fishes) and laterally compressed in many others; the fins may be elaborately extended, forming intricate shapes, or they may be reduced or even lost; and the positions of the mouth, eyes, nostrils, and gill openings vary widely. Air breathers have appeared in several evolutionary lines.

 

Many fishes are cryptically coloured and shaped, closely matching their respective environments; others are among the most brilliantly coloured of all organisms, with a wide range of hues, often of striking intensity, on a single individual. The brilliance of pigments may be enhanced by the surface structure of the fish, so that it almost seems to glow. A number of unrelated fishes have actual light-producing organs. Many fishes are able to alter their coloration—some for the purpose of camouflage, others for the enhancement of behavioral signals.

 

Fishes range in adult length from less than 10 mm (0.4 inch) to more than 20 metres (60 feet) and in weight from about 1.5 grams (less than 0.06 ounce) to many thousands of kilograms. Some live in shallow thermal springs at temperatures slightly above 42 °C (100 °F), others in cold Arctic seas a few degrees below 0 °C (32 °F) or in cold deep waters more than 4,000 metres (13,100 feet) beneath the ocean surface. The structural and, especially, the physiological adaptations for life at such extremes are relatively poorly known and provide the scientifically curious with great incentive for study.

 

Almost all natural bodies of water bear fish life, the exceptions being very hot thermal ponds and extremely salt-alkaline lakes, such as the Dead Sea in Asia and the Great Salt Lake in North America. The present distribution of fishes is a result of the geological history and development of Earth as well as the ability of fishes to undergo evolutionary change and to adapt to the available habitats. Fishes may be seen to be distributed according to habitat and according to geographical area. Major habitat differences are marine and freshwater. For the most part, the fishes in a marine habitat differ from those in a freshwater habitat, even in adjacent areas, but some, such as the salmon, migrate from one to the other. The freshwater habitats may be seen to be of many kinds. Fishes found in mountain torrents, Arctic lakes, tropical lakes, temperate streams, and tropical rivers will all differ from each other, both in obvious gross structure and in physiological attributes. Even in closely adjacent habitats where, for example, a tropical mountain torrent enters a lowland stream, the fish fauna will differ. The marine habitats can be divided into deep ocean floors (benthic), mid-water oceanic (bathypelagic), surface oceanic (pelagic), rocky coast, sandy coast, muddy shores, bays, estuaries, and others. Also, for example, rocky coastal shores in tropical and temperate regions will have different fish faunas, even when such habitats occur along the same coastline.

 

Although much is known about the present geographical distribution of fishes, far less is known about how that distribution came about. Many parts of the fish fauna of the fresh waters of North America and Eurasia are related and undoubtedly have a common origin. The faunas of Africa and South America are related, extremely old, and probably an expression of the drifting apart of the two continents. The fauna of southern Asia is related to that of Central Asia, and some of it appears to have entered Africa. The extremely large shore-fish faunas of the Indian and tropical Pacific oceans comprise a related complex, but the tropical shore fauna of the Atlantic, although containing Indo-Pacific components, is relatively limited and probably younger. The Arctic and Antarctic marine faunas are quite different from each other. The shore fauna of the North Pacific is quite distinct, and that of the North Atlantic more limited and probably younger. Pelagic oceanic fishes, especially those in deep waters, are similar the world over, showing little geographical isolation in terms of family groups. The deep oceanic habitat is very much the same throughout the world, but species differences do exist, showing geographical areas determined by oceanic currents and water masses.

 

All aspects of the life of a fish are closely correlated with adaptation to the total environment, physical, chemical, and biological. In studies, all the interdependent aspects of fish, such as behaviour, locomotion, reproduction, and physical and physiological characteristics, must be taken into account.

 

Correlated with their adaptation to an extremely wide variety of habitats is the extremely wide variety of life cycles that fishes display. The great majority hatch from relatively small eggs a few days to several weeks or more after the eggs are scattered in the water. Newly hatched young are still partially undeveloped and are called larvae until body structures such as fins, skeleton, and some organs are fully formed. Larval life is often very short, usually less than a few weeks, but it can be very long, some lampreys continuing as larvae for at least five years. Young and larval fishes, before reaching sexual maturity, must grow considerably, and their small size and other factors often dictate that they live in a habitat different than that of the adults. For example, most tropical marine shore fishes have pelagic larvae. Larval food also is different, and larval fishes often live in shallow waters, where they may be less exposed to predators.

 

After a fish reaches adult size, the length of its life is subject to many factors, such as innate rates of aging, predation pressure, and the nature of the local climate. The longevity of a species in the protected environment of an aquarium may have nothing to do with how long members of that species live in the wild. Many small fishes live only one to three years at the most. In some species, however, individuals may live as long as 10 or 20 or even 100 years.

 

Fish behaviour is a complicated and varied subject. As in almost all animals with a central nervous system, the nature of a response of an individual fish to stimuli from its environment depends upon the inherited characteristics of its nervous system, on what it has learned from past experience, and on the nature of the stimuli. Compared with the variety of human responses, however, that of a fish is stereotyped, not subject to much modification by “thought” or learning, and investigators must guard against anthropomorphic interpretations of fish behaviour.

 

Fishes perceive the world around them by the usual senses of sight, smell, hearing, touch, and taste and by special lateral line water-current detectors. In the few fishes that generate electric fields, a process that might best be called electrolocation aids in perception. One or another of these senses often is emphasized at the expense of others, depending upon the fish’s other adaptations. In fishes with large eyes, the sense of smell may be reduced; others, with small eyes, hunt and feed primarily by smell (such as some eels).

 

Specialized behaviour is primarily concerned with the three most important activities in the fish’s life: feeding, reproduction, and escape from enemies. Schooling behaviour of sardines on the high seas, for instance, is largely a protective device to avoid enemies, but it is also associated with and modified by their breeding and feeding requirements. Predatory fishes are often solitary, lying in wait to dart suddenly after their prey, a kind of locomotion impossible for beaked parrot fishes, which feed on coral, swimming in small groups from one coral head to the next. In addition, some predatory fishes that inhabit pelagic environments, such as tunas, often school.

 

Sleep in fishes, all of which lack true eyelids, consists of a seemingly listless state in which the fish maintains its balance but moves slowly. If attacked or disturbed, most can dart away. A few kinds of fishes lie on the bottom to sleep. Most catfishes, some loaches, and some eels and electric fishes are strictly nocturnal, being active and hunting for food during the night and retiring during the day to holes, thick vegetation, or other protective parts of the environment.

 

Communication between members of a species or between members of two or more species often is extremely important, especially in breeding behaviour (see below Reproduction). The mode of communication may be visual, as between the small so-called cleaner fish and a large fish of a very different species. The larger fish often allows the cleaner to enter its mouth to remove gill parasites. The cleaner is recognized by its distinctive colour and actions and therefore is not eaten, even if the larger fish is normally a predator. Communication is often chemical, signals being sent by specific chemicals called pheromones.

 

Many fishes have a streamlined body and swim freely in open water. Fish locomotion is closely correlated with habitat and ecological niche (the general position of the animal to its environment).

 

Many fishes in both marine and fresh waters swim at the surface and have mouths adapted to feed best (and sometimes only) at the surface. Often such fishes are long and slender, able to dart at surface insects or at other surface fishes and in turn to dart away from predators; needlefishes, halfbeaks, and topminnows (such as killifish and mosquito fish) are good examples. Oceanic flying fishes escape their predators by gathering speed above the water surface, with the lower lobe of the tail providing thrust in the water. They then glide hundreds of yards on enlarged, winglike pectoral and pelvic fins. South American freshwater flying fishes escape their enemies by jumping and propelling their strongly keeled bodies out of the water.

 

So-called mid-water swimmers, the most common type of fish, are of many kinds and live in many habitats. The powerful fusiform tunas and the trouts, for example, are adapted for strong, fast swimming, the tunas to capture prey speedily in the open ocean and the trouts to cope with the swift currents of streams and rivers. The trout body form is well adapted to many habitats. Fishes that live in relatively quiet waters such as bays or lake shores or slow rivers usually are not strong, fast swimmers but are capable of short, quick bursts of speed to escape a predator. Many of these fishes have their sides flattened, examples being the sunfish and the freshwater angelfish of aquarists. Fish associated with the bottom or substrate usually are slow swimmers. Open-water plankton-feeding fishes almost always remain fusiform and are capable of rapid, strong movement (for example, sardines and herrings of the open ocean and also many small minnows of streams and lakes).

 

Bottom-living fishes are of many kinds and have undergone many types of modification of their body shape and swimming habits. Rays, which evolved from strong-swimming mid-water sharks, usually stay close to the bottom and move by undulating their large pectoral fins. Flounders live in a similar habitat and move over the bottom by undulating the entire body. Many bottom fishes dart from place to place, resting on the bottom between movements, a motion common in gobies. One goby relative, the mudskipper, has taken to living at the edge of pools along the shore of muddy mangrove swamps. It escapes its enemies by flipping rapidly over the mud, out of the water. Some catfishes, synbranchid eels, the so-called climbing perch, and a few other fishes venture out over damp ground to find more promising waters than those that they left. They move by wriggling their bodies, sometimes using strong pectoral fins; most have accessory air-breathing organs. Many bottom-dwelling fishes live in mud holes or rocky crevices. Marine eels and gobies commonly are found in such habitats and for the most part venture far beyond their cavelike homes. Some bottom dwellers, such as the clingfishes (Gobiesocidae), have developed powerful adhesive disks that enable them to remain in place on the substrate in areas such as rocky coasts, where the action of the waves is great.

 

The methods of reproduction in fishes are varied, but most fishes lay a large number of small eggs, fertilized and scattered outside of the body. The eggs of pelagic fishes usually remain suspended in the open water. Many shore and freshwater fishes lay eggs on the bottom or among plants. Some have adhesive eggs. The mortality of the young and especially of the eggs is very high, and often only a few individuals grow to maturity out of hundreds, thousands, and in some cases millions of eggs laid.

 

Males produce sperm, usually as a milky white substance called milt, in two (sometimes one) testes within the body cavity. In bony fishes a sperm duct leads from each testis to a urogenital opening behind the vent or anus. In sharks and rays and in cyclostomes the duct leads to a cloaca. Sometimes the pelvic fins are modified to help transmit the milt to the eggs at the female’s vent or on the substrate where the female has placed them. Sometimes accessory organs are used to fertilize females internally—for example, the claspers of many sharks and rays.

 

In the females the eggs are formed in two ovaries (sometimes only one) and pass through the ovaries to the urogenital opening and to the outside. In some fishes the eggs are fertilized internally but are shed before development takes place. Members of about a dozen families each of bony fishes (teleosts) and sharks bear live young. Many skates and rays also bear live young. In some bony fishes the eggs simply develop within the female, the young emerging when the eggs hatch (ovoviviparous). Others develop within the ovary and are nourished by ovarian tissues after hatching (viviparous). There are also other methods utilized by fishes to nourish young within the female. In all live-bearers the young are born at a relatively large size and are few in number. In one family of primarily marine fishes, the surfperches from the Pacific coast of North America, Japan, and Korea, the males of at least one species are born sexually mature, although they are not fully grown.

 

Some fishes are hermaphroditic—an individual producing both sperm and eggs, usually at different stages of its life. Self-fertilization, however, is probably rare.

 

Successful reproduction and, in many cases, defense of the eggs and the young are assured by rather stereotypical but often elaborate courtship and parental behaviour, either by the male or the female or both. Some fishes prepare nests by hollowing out depressions in the sand bottom (cichlids, for example), build nests with plant materials and sticky threads excreted by the kidneys (sticklebacks), or blow a cluster of mucus-covered bubbles at the water surface (gouramis). The eggs are laid in these structures. Some varieties of cichlids and catfishes incubate eggs in their mouths.

 

Some fishes, such as salmon, undergo long migrations from the ocean and up large rivers to spawn in the gravel beds where they themselves hatched (anadromous fishes). Some, such as the freshwater eels (family Anguillidae), live and grow to maturity in fresh water and migrate to the sea to spawn (catadromous fishes). Other fishes undertake shorter migrations from lakes into streams, within the ocean, or enter spawning habitats that they do not ordinarily occupy in other ways.

 

The basic structure and function of the fish body are similar to those of all other vertebrates. The usual four types of tissues are present: surface or epithelial, connective (bone, cartilage, and fibrous tissues, as well as their derivative, blood), nerve, and muscle tissues. In addition, the fish’s organs and organ systems parallel those of other vertebrates.

 

The typical fish body is streamlined and spindle-shaped, with an anterior head, a gill apparatus, and a heart, the latter lying in the midline just below the gill chamber. The body cavity, containing the vital organs, is situated behind the head in the lower anterior part of the body. The anus usually marks the posterior termination of the body cavity and most often occurs just in front of the base of the anal fin. The spinal cord and vertebral column continue from the posterior part of the head to the base of the tail fin, passing dorsal to the body cavity and through the caudal (tail) region behind the body cavity. Most of the body is of muscular tissue, a high proportion of which is necessitated by swimming. In the course of evolution this basic body plan has been modified repeatedly into the many varieties of fish shapes that exist today.

 

The skeleton forms an integral part of the fish’s locomotion system, as well as serving to protect vital parts. The internal skeleton consists of the skull bones (except for the roofing bones of the head, which are really part of the external skeleton), the vertebral column, and the fin supports (fin rays). The fin supports are derived from the external skeleton but will be treated here because of their close functional relationship to the internal skeleton. The internal skeleton of cyclostomes, sharks, and rays is of cartilage; that of many fossil groups and some primitive living fishes is mostly of cartilage but may include some bone. In place of the vertebral column, the earliest vertebrates had a fully developed notochord, a flexible stiff rod of viscous cells surrounded by a strong fibrous sheath. During the evolution of modern fishes the rod was replaced in part by cartilage and then by ossified cartilage. Sharks and rays retain a cartilaginous vertebral column; bony fishes have spool-shaped vertebrae that in the more primitive living forms only partially replace the notochord. The skull, including the gill arches and jaws of bony fishes, is fully, or at least partially, ossified. That of sharks and rays remains cartilaginous, at times partially replaced by calcium deposits but never by true bone.

 

The supportive elements of the fins (basal or radial bones or both) have changed greatly during fish evolution. Some of these changes are described in the section below (Evolution and paleontology). Most fishes possess a single dorsal fin on the midline of the back. Many have two and a few have three dorsal fins. The other fins are the single tail and anal fins and paired pelvic and pectoral fins. A small fin, the adipose fin, with hairlike fin rays, occurs in many of the relatively primitive teleosts (such as trout) on the back near the base of the caudal fin.

 

The skin of a fish must serve many functions. It aids in maintaining the osmotic balance, provides physical protection for the body, is the site of coloration, contains sensory receptors, and, in some fishes, functions in respiration. Mucous glands, which aid in maintaining the water balance and offer protection from bacteria, are extremely numerous in fish skin, especially in cyclostomes and teleosts. Since mucous glands are present in the modern lampreys, it is reasonable to assume that they were present in primitive fishes, such as the ancient Silurian and Devonian agnathans. Protection from abrasion and predation is another function of the fish skin, and dermal (skin) bone arose early in fish evolution in response to this need. It is thought that bone first evolved in skin and only later invaded the cartilaginous areas of the fish’s body, to provide additional support and protection. There is some argument as to which came first, cartilage or bone, and fossil evidence does not settle the question. In any event, dermal bone has played an important part in fish evolution and has different characteristics in different groups of fishes. Several groups are characterized at least in part by the kind of bony scales they possess.

 

Scales have played an important part in the evolution of fishes. Primitive fishes usually had thick bony plates or thick scales in several layers of bone, enamel, and related substances. Modern teleost fishes have scales of bone, which, while still protective, allow much more freedom of motion in the body. A few modern teleosts (some catfishes, sticklebacks, and others) have secondarily acquired bony plates in the skin. Modern and early sharks possessed placoid scales, a relatively primitive type of scale with a toothlike structure, consisting of an outside layer of enamel-like substance (vitrodentine), an inner layer of dentine, and a pulp cavity containing nerves and blood vessels. Primitive bony fishes had thick scales of either the ganoid or the cosmoid type. Cosmoid scales have a hard, enamel-like outer layer, an inner layer of cosmine (a form of dentine), and then a layer of vascular bone (isopedine). In ganoid scales the hard outer layer is different chemically and is called ganoin. Under this is a cosminelike layer and then a vascular bony layer. The thin, translucent bony scales of modern fishes, called cycloid and ctenoid (the latter distinguished by serrations at the edges), lack enameloid and dentine layers.

 

Skin has several other functions in fishes. It is well supplied with nerve endings and presumably receives tactile, thermal, and pain stimuli. Skin is also well supplied with blood vessels. Some fishes breathe in part through the skin, by the exchange of oxygen and carbon dioxide between the surrounding water and numerous small blood vessels near the skin surface.

 

Skin serves as protection through the control of coloration. Fishes exhibit an almost limitless range of colours. The colours often blend closely with the surroundings, effectively hiding the animal. Many fishes use bright colours for territorial advertisement or as recognition marks for other members of their own species, or sometimes for members of other species. Many fishes can change their colour to a greater or lesser degree, by movement of pigment within the pigment cells (chromatophores). Black pigment cells (melanophores), of almost universal occurrence in fishes, are often juxtaposed with other pigment cells. When placed beneath iridocytes or leucophores (bearing the silvery or white pigment guanine), melanophores produce structural colours of blue and green. These colours are often extremely intense, because they are formed by refraction of light through the needlelike crystals of guanine. The blue and green refracted colours are often relatively pure, lacking the red and yellow rays, which have been absorbed by the black pigment (melanin) of the melanophores. Yellow, orange, and red colours are produced by erythrophores, cells containing the appropriate carotenoid pigments. Other colours are produced by combinations of melanophores, erythrophores, and iridocytes.

 

The major portion of the body of most fishes consists of muscles. Most of the mass is trunk musculature, the fin muscles usually being relatively small. The caudal fin is usually the most powerful fin, being moved by the trunk musculature. The body musculature is usually arranged in rows of chevron-shaped segments on each side. Contractions of these segments, each attached to adjacent vertebrae and vertebral processes, bends the body on the vertebral joint, producing successive undulations of the body, passing from the head to the tail, and producing driving strokes of the tail. It is the latter that provides the strong forward movement for most fishes.

 

The digestive system, in a functional sense, starts at the mouth, with the teeth used to capture prey or collect plant foods. Mouth shape and tooth structure vary greatly in fishes, depending on the kind of food normally eaten. Most fishes are predacious, feeding on small invertebrates or other fishes and have simple conical teeth on the jaws, on at least some of the bones of the roof of the mouth, and on special gill arch structures just in front of the esophagus. The latter are throat teeth. Most predacious fishes swallow their prey whole, and the teeth are used for grasping and holding prey, for orienting prey to be swallowed (head first) and for working the prey toward the esophagus. There are a variety of tooth types in fishes. Some fishes, such as sharks and piranhas, have cutting teeth for biting chunks out of their victims. A shark’s tooth, although superficially like that of a piranha, appears in many respects to be a modified scale, while that of the piranha is like that of other bony fishes, consisting of dentine and enamel. Parrot fishes have beaklike mouths with short incisor-like teeth for breaking off coral and have heavy pavementlike throat teeth for crushing the coral. Some catfishes have small brushlike teeth, arranged in rows on the jaws, for scraping plant and animal growth from rocks. Many fishes (such as the Cyprinidae or minnows) have no jaw teeth at all but have very strong throat teeth.

 

Some fishes gather planktonic food by straining it from their gill cavities with numerous elongate stiff rods (gill rakers) anchored by one end to the gill bars. The food collected on these rods is passed to the throat, where it is swallowed. Most fishes have only short gill rakers that help keep food particles from escaping out the mouth cavity into the gill chamber.

 

Once reaching the throat, food enters a short, often greatly distensible esophagus, a simple tube with a muscular wall leading into a stomach. The stomach varies greatly in fishes, depending upon the diet. In most predacious fishes it is a simple straight or curved tube or pouch with a muscular wall and a glandular lining. Food is largely digested there and leaves the stomach in liquid form.

 

Between the stomach and the intestine, ducts enter the digestive tube from the liver and pancreas. The liver is a large, clearly defined organ. The pancreas may be embedded in it, diffused through it, or broken into small parts spread along some of the intestine. The junction between the stomach and the intestine is marked by a muscular valve. Pyloric ceca (blind sacs) occur in some fishes at this junction and have a digestive or absorptive function or both.

 

The intestine itself is quite variable in length, depending upon the fish’s diet. It is short in predacious forms, sometimes no longer than the body cavity, but long in herbivorous forms, being coiled and several times longer than the entire length of the fish in some species of South American catfishes. The intestine is primarily an organ for absorbing nutrients into the bloodstream. The larger its internal surface, the greater its absorptive efficiency, and a spiral valve is one method of increasing its absorption surface.

 

Sharks, rays, chimaeras, lungfishes, surviving chondrosteans, holosteans, and even a few of the more primitive teleosts have a spiral valve or at least traces of it in the intestine. Most modern teleosts have increased the area of the intestinal walls by having numerous folds and villi (fingerlike projections) somewhat like those in humans. Undigested substances are passed to the exterior through the anus in most teleost fishes. In lungfishes, sharks, and rays, it is first passed through the cloaca, a common cavity receiving the intestinal opening and the ducts from the urogenital system.

 

Oxygen and carbon dioxide dissolve in water, and most fishes exchange dissolved oxygen and carbon dioxide in water by means of the gills. The gills lie behind and to the side of the mouth cavity and consist of fleshy filaments supported by the gill arches and filled with blood vessels, which give gills a bright red colour. Water taken in continuously through the mouth passes backward between the gill bars and over the gill filaments, where the exchange of gases takes place. The gills are protected by a gill cover in teleosts and many other fishes but by flaps of skin in sharks, rays, and some of the older fossil fish groups. The blood capillaries in the gill filaments are close to the gill surface to take up oxygen from the water and to give up excess carbon dioxide to the water.

 

Most modern fishes have a hydrostatic (ballast) organ, called the swim bladder, that lies in the body cavity just below the kidney and above the stomach and intestine. It originated as a diverticulum of the digestive canal. In advanced teleosts, especially the acanthopterygians, the bladder has lost its connection with the digestive tract, a condition called physoclistic. The connection has been retained (physostomous) by many relatively primitive teleosts. In several unrelated lines of fishes, the bladder has become specialized as a lung or, at least, as a highly vascularized accessory breathing organ. Some fishes with such accessory organs are obligate air breathers and will drown if denied access to the surface, even in well-oxygenated water. Fishes with a hydrostatic form of swim bladder can control their depth by regulating the amount of gas in the bladder. The gas, mostly oxygen, is secreted into the bladder by special glands, rendering the fish more buoyant; the gas is absorbed into the bloodstream by another special organ, reducing the overall buoyancy and allowing the fish to sink. Some deep-sea fishes may have oils, rather than gas, in the bladder. Other deep-sea and some bottom-living forms have much-reduced swim bladders or have lost the organ entirely.

 

The swim bladder of fishes follows the same developmental pattern as the lungs of land vertebrates. There is no doubt that the two structures have the same historical origin in primitive fishes. More or less intermediate forms still survive among the more primitive types of fishes, such as the lungfishes Lepidosiren and Protopterus.

 

The circulatory, or blood vascular, system consists of the heart, the arteries, the capillaries, and the veins. It is in the capillaries that the interchange of oxygen, carbon dioxide, nutrients, and other substances such as hormones and waste products takes place. The capillaries lead to the veins, which return the venous blood with its waste products to the heart, kidneys, and gills. There are two kinds of capillary beds: those in the gills and those in the rest of the body. The heart, a folded continuous muscular tube with three or four saclike enlargements, undergoes rhythmic contractions and receives venous blood in a sinus venosus. It passes the blood to an auricle and then into a thick muscular pump, the ventricle. From the ventricle the blood goes to a bulbous structure at the base of a ventral aorta just below the gills. The blood passes to the afferent (receiving) arteries of the gill arches and then to the gill capillaries. There waste gases are given off to the environment, and oxygen is absorbed. The oxygenated blood enters efferent (exuant) arteries of the gill arches and then flows into the dorsal aorta. From there blood is distributed to the tissues and organs of the body. One-way valves prevent backflow. The circulation of fishes thus differs from that of the reptiles, birds, and mammals in that oxygenated blood is not returned to the heart prior to distribution to the other parts of the body.

 

The primary excretory organ in fishes, as in other vertebrates, is the kidney. In fishes some excretion also takes place in the digestive tract, skin, and especially the gills (where ammonia is given off). Compared with land vertebrates, fishes have a special problem in maintaining their internal environment at a constant concentration of water and dissolved substances, such as salts. Proper balance of the internal environment (homeostasis) of a fish is in a great part maintained by the excretory system, especially the kidney.

 

The kidney, gills, and skin play an important role in maintaining a fish’s internal environment and checking the effects of osmosis. Marine fishes live in an environment in which the water around them has a greater concentration of salts than they can have inside their body and still maintain life. Freshwater fishes, on the other hand, live in water with a much lower concentration of salts than they require inside their bodies. Osmosis tends to promote the loss of water from the body of a marine fish and absorption of water by that of a freshwater fish. Mucus in the skin tends to slow the process but is not a sufficient barrier to prevent the movement of fluids through the permeable skin. When solutions on two sides of a permeable membrane have different concentrations of dissolved substances, water will pass through the membrane into the more concentrated solution, while the dissolved chemicals move into the area of lower concentration (diffusion).

 

The kidney of freshwater fishes is often larger in relation to body weight than that of marine fishes. In both groups the kidney excretes wastes from the body, but the kidney of freshwater fishes also excretes large amounts of water, counteracting the water absorbed through the skin. Freshwater fishes tend to lose salt to the environment and must replace it. They get some salt from their food, but the gills and skin inside the mouth actively absorb salt from water passed through the mouth. This absorption is performed by special cells capable of moving salts against the diffusion gradient. Freshwater fishes drink very little water and take in little water with their food.

 

Marine fishes must conserve water, and therefore their kidneys excrete little water. To maintain their water balance, marine fishes drink large quantities of seawater, retaining most of the water and excreting the salt. Most nitrogenous waste in marine fishes appears to be secreted by the gills as ammonia. Marine fishes can excrete salt by clusters of special cells (chloride cells) in the gills.

 

There are several teleosts—for example, the salmon—that travel between fresh water and seawater and must adjust to the reversal of osmotic gradients. They adjust their physiological processes by spending time (often surprisingly little time) in the intermediate brackish environment.

 

Marine hagfishes, sharks, and rays have osmotic concentrations in their blood about equal to that of seawater and so do not have to drink water nor perform much physiological work to maintain their osmotic balance. In sharks and rays the osmotic concentration is kept high by retention of urea in the blood. Freshwater sharks have a lowered concentration of urea in the blood.

 

Endocrine glands secrete their products into the bloodstream and body tissues and, along with the central nervous system, control and regulate many kinds of body functions. Cyclostomes have a well-developed endocrine system, and presumably it was well developed in the early Agnatha, ancestral to modern fishes. Although the endocrine system in fishes is similar to that of higher vertebrates, there are numerous differences in detail. The pituitary, the thyroid, the suprarenals, the adrenals, the pancreatic islets, the sex glands (ovaries and testes), the inner wall of the intestine, and the bodies of the ultimobranchial gland make up the endocrine system in fishes. There are some others whose function is not well understood. These organs regulate sexual activity and reproduction, growth, osmotic pressure, general metabolic activities such as the storage of fat and the utilization of foodstuffs, blood pressure, and certain aspects of skin colour. Many of these activities are also controlled in part by the central nervous system, which works with the endocrine system in maintaining the life of a fish. Some parts of the endocrine system are developmentally, and undoubtedly evolutionarily, derived from the nervous system.

 

As in all vertebrates, the nervous system of fishes is the primary mechanism coordinating body activities, as well as integrating these activities in the appropriate manner with stimuli from the environment. The central nervous system, consisting of the brain and spinal cord, is the primary integrating mechanism. The peripheral nervous system, consisting of nerves that connect the brain and spinal cord to various body organs, carries sensory information from special receptor organs such as the eyes, internal ears, nares (sense of smell), taste glands, and others to the integrating centres of the brain and spinal cord. The peripheral nervous system also carries information via different nerve cells from the integrating centres of the brain and spinal cord. This coded information is carried to the various organs and body systems, such as the skeletal muscular system, for appropriate action in response to the original external or internal stimulus. Another branch of the nervous system, the autonomic nervous system, helps to coordinate the activities of many glands and organs and is itself closely connected to the integrating centres of the brain.

 

The brain of the fish is divided into several anatomical and functional parts, all closely interconnected but each serving as the primary centre of integrating particular kinds of responses and activities. Several of these centres or parts are primarily associated with one type of sensory perception, such as sight, hearing, or smell (olfaction).

 

The sense of smell is important in almost all fishes. Certain eels with tiny eyes depend mostly on smell for location of food. The olfactory, or nasal, organ of fishes is located on the dorsal surface of the snout. The lining of the nasal organ has special sensory cells that perceive chemicals dissolved in the water, such as substances from food material, and send sensory information to the brain by way of the first cranial nerve. Odour also serves as an alarm system. Many fishes, especially various species of freshwater minnows, react with alarm to a chemical released from the skin of an injured member of their own species.

 

Many fishes have a well-developed sense of taste, and tiny pitlike taste buds or organs are located not only within their mouth cavities but also over their heads and parts of their body. Catfishes, which often have poor vision, have barbels (“whiskers”) that serve as supplementary taste organs, those around the mouth being actively used to search out food on the bottom. Some species of naturally blind cave fishes are especially well supplied with taste buds, which often cover most of their body surface.

 

Sight is extremely important in most fishes. The eye of a fish is basically like that of all other vertebrates, but the eyes of fishes are extremely varied in structure and adaptation. In general, fishes living in dark and dim water habitats have large eyes, unless they have specialized in some compensatory way so that another sense (such as smell) is dominant, in which case the eyes will often be reduced. Fishes living in brightly lighted shallow waters often will have relatively small but efficient eyes. Cyclostomes have somewhat less elaborate eyes than other fishes, with skin stretched over the eyeball perhaps making their vision somewhat less effective. Most fishes have a spherical lens and accommodate their vision to far or near subjects by moving the lens within the eyeball. A few sharks accommodate by changing the shape of the lens, as in land vertebrates. Those fishes that are heavily dependent upon the eyes have especially strong muscles for accommodation. Most fishes see well, despite the restrictions imposed by frequent turbidity of the water and by light refraction.

 

Fossil evidence suggests that colour vision evolved in fishes more than 300 million years ago, but not all living fishes have retained this ability. Experimental evidence indicates that many shallow-water fishes, if not all, have colour vision and see some colours especially well, but some bottom-dwelling shore fishes live in areas where the water is sufficiently deep to filter out most if not all colours, and these fishes apparently never see colours. When tested in shallow water, they apparently are unable to respond to colour differences.

 

Sound perception and balance are intimately associated senses in a fish. The organs of hearing are entirely internal, located within the skull, on each side of the brain and somewhat behind the eyes. Sound waves, especially those of low frequencies, travel readily through water and impinge directly upon the bones and fluids of the head and body, to be transmitted to the hearing organs. Fishes readily respond to sound; for example, a trout conditioned to escape by the approach of fishermen will take flight upon perceiving footsteps on a stream bank even if it cannot see a fisherman. Compared with humans, however, the range of sound frequencies heard by fishes is greatly restricted. Many fishes communicate with each other by producing sounds in their swim bladders, in their throats by rasping their teeth, and in other ways.

 

A fish or other vertebrate seldom has to rely on a single type of sensory information to determine the nature of the environment around it. A catfish uses taste and touch when examining a food object with its oral barbels. Like most other animals, fishes have many touch receptors over their body surface. Pain and temperature receptors also are present in fishes and presumably produce the same kind of information to a fish as to humans. Fishes react in a negative fashion to stimuli that would be painful to human beings, suggesting that they feel a sensation of pain.

 

An important sensory system in fishes that is absent in other vertebrates (except some amphibians) is the lateral line system. This consists of a series of heavily innervated small canals located in the skin and bone around the eyes, along the lower jaw, over the head, and down the mid-side of the body, where it is associated with the scales. Intermittently along these canals are located tiny sensory organs (pit organs) that apparently detect changes in pressure. The system allows a fish to sense changes in water currents and pressure, thereby helping the fish to orient itself to the various changes that occur in the physical environment.

 

Although a great many fossil fishes have been found and described, they represent a tiny portion of the long and complex evolution of fishes, and knowledge of fish evolution remains relatively fragmentary. In the classification presented in this article, fishlike vertebrates are divided into seven categories, the members of each having a different basic structural organization and different physical and physiological adaptations for the problems presented by the environment. The broad basic pattern has been one of successive replacement of older groups by newer, better-adapted groups. One or a few members of a group evolved a basically more efficient means of feeding, breathing, or swimming or several better ways of living. These better-adapted groups then forced the extinction of members of the older group with which they competed for available food, breeding places, or other necessities of life. As the new fishes became well established, some of them evolved further and adapted to other habitats, where they continued to replace members of the old group already there. The process was repeated until all or almost all members of the old group in a variety of habitats had been replaced by members of the newer evolutionary line.

 

The earliest vertebrate fossils of certain relationships are fragments of dermal armour of jawless fishes (superclass Agnatha, order Heterostraci) from the Upper Ordovician Period in North America, about 450 million years in age. Early Ordovician toothlike fragments from the former Soviet Union are less certainly remains of agnathans. It is uncertain whether the North American jawless fishes inhabited shallow coastal marine waters, where their remains became fossilized, or were freshwater vertebrates washed into coastal deposits by stream action.

 

Jawless fishes probably arose from ancient, small, soft-bodied filter-feeding organisms much like and probably also ancestral to the modern sand-dwelling filter feeders, the Cephalochordata (Amphioxus and its relatives). The body in the ancestral animals was probably stiffened by a notochord. Although a vertebrate origin in fresh water is much debated by paleontologists, it is possible that mobility of the body and protection provided by dermal armour arose in response to streamflow in the freshwater environment and to the need to escape from and resist the clawed invertebrate eurypterids that lived in the same waters. Because of the marine distribution of the surviving primitive chordates, however, many paleontologists doubt that the vertebrates arose in fresh water.

 

Heterostracan remains are next found in what appear to be delta deposits in two North American localities of Silurian age. By the close of the Silurian, about 416 million years ago, European heterostracan remains are found in what appear to be delta or coastal deposits. In the Late Silurian of the Baltic area, lagoon or freshwater deposits yield jawless fishes of the order Osteostraci. Somewhat later in the Silurian from the same region, layers contain fragments of jawed acanthodians, the earliest group of jawed vertebrates, and of jawless fishes. These layers lie between marine beds but appear to be washed out from fresh waters of a coastal region.

 

It is evident, therefore, that by the end of the Silurian both jawed and jawless vertebrates were well established and already must have had a long history of development. Yet paleontologists have remains only of specialized forms that cannot have been the ancestors of the placoderms and bony fishes that appear in the next period, the Devonian. No fossils are known of the more primitive ancestors of the agnathans and acanthodians. The extensive marine beds of the Silurian and those of the Ordovician are essentially void of vertebrate history. It is believed that the ancestors of fishlike vertebrates evolved in upland fresh waters, where whatever few and relatively small fossil beds were made probably have been long since eroded away. Remains of the earliest vertebrates may never be found.

 

By the close of the Silurian, all known orders of jawless vertebrates had evolved, except perhaps the modern cyclostomes, which are without the hard parts that ordinarily are preserved as fossils. Cyclostomes were unknown as fossils until 1968, when a lamprey of modern body structure was reported from the Middle Pennsylvanian of Illinois, in deposits more than 300 million years old. Fossil evidence of the four orders of armoured jawless vertebrates is absent from deposits later than the Devonian. Presumably, these vertebrates became extinct at that time, being replaced by the more efficient and probably more aggressive placoderms, acanthodians, selachians (sharks and relatives), and by early bony fishes. Cyclostomes survived probably because early on they evolved from anaspid agnathans and developed a rasping tonguelike structure and a sucking mouth, enabling them to prey on other fishes. With this way of life they apparently had no competition from other fish groups. Cyclostomes, the hagfishes and lampreys, were once thought to be closely related because of the similarity in their suctorial mouths, but it is now understood that the hagfishes, order Myxiniformes, are the most primitive living chordates, and they are classified separately from the lampreys, order Petromyzontiformes.

 

Early jawless vertebrates probably fed on tiny organisms by filter feeding, as do the larvae of their descendants, the modern lampreys. The gill cavity of the early agnathans was large. It is thought that small organisms taken from the bottom by a nibbling action of the mouth, or more certainly by a sucking action through the mouth, were passed into the gill cavity along with water for breathing. Small organisms then were strained out by the gill apparatus and directed to the food canal. The gill apparatus thus evolved as a feeding, as well as a breathing, structure. The head and gills in the agnathans were protected by a heavy dermal armour; the tail region was free, allowing motion for swimming.

 

Most important for the evolution of fishes and vertebrates in general was the early appearance of bone, cartilage, and enamel-like substance. These materials became modified in later fishes, enabling them to adapt to many aquatic environments and finally even to land. Other basic organs and tissues of the vertebrates—such as the central nervous system, heart, liver, digestive tract, kidney, and circulatory system— undoubtedly were present in the ancestors of the agnathans. In many ways, bone, both external and internal, was the key to vertebrate evolution.

 

The next class of fishes to appear was the Acanthodii, containing the earliest known jawed vertebrates, which arose in the Late Silurian, more than 416 million years ago. The acanthodians declined after the Devonian but lasted into the Early Permian, a little less than 280 million years ago. The first complete specimens appear in Lower Devonian freshwater deposits, but later in the Devonian and Permian some members appear to have been marine. Most were small fishes, not more than 75 cm (approximately 30 inches) in length.

 

We know nothing of the ancestors of the acanthodians. They must have arisen from some jawless vertebrate, probably in fresh water. They appear to have been active swimmers with almost no head armour but with large eyes, indicating that they depended heavily on vision. Perhaps they preyed on invertebrates. The rows of spines and spinelike fins between the pectoral and pelvic fins give some credence to the idea that paired fins arose from “fin folds” along the body sides.

 

The relationships of the acanthodians to other jawed vertebrates are obscure. They possess features found in both sharks and bony fishes. They are like early bony fishes in possessing ganoidlike scales and a partially ossified internal skeleton. Certain aspects of the jaw appear to be more like those of bony fishes than sharks, but the bony fin spines and certain aspects of the gill apparatus would seem to favour relationships with early sharks. Acanthodians do not seem particularly close to the Placodermi, although, like the placoderms, they apparently possessed less efficient tooth replacement and tooth structure than the sharks and the bony fishes, possibly one reason for their subsequent extinction.

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licence | please contact me to obtain prior a license and to buy the rights to use and publish this photo. A licensing usage agreed upon with ▻ Bernard Egger is the only usage granted !

 

photographer | ▻ Bernard Egger profile.. • collections.. • sets..

classic sports cars | vintage motorcycles | Oldtimer Grand Prix

 

category | Minichamps scale 1/12 motorcycle - item # 122781212

📷 | 1978 Ducati 900SS IOM TT Hailwood :: rumoto images 5673

 

MINICHAMPS models are the world renowned classic motorcycle models of exceptional highly quality and detail. These 1/12 fully die cast models are with many working parts. Most of these high-quality and very rare models were only available in limited quantities and have been out of stock for a long time.

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MINICHAMPS-Modelle sind die weltberühmten klassischen Motorradmodelle von außergewöhnlich hoher Qualität und Detailtreue. Diese 1:12 Volldruckgussmodelle sind mit vielen funktionierenden Teilen. Die meisten dieser hochwertigen und sehr seltenen Modelle waren nur limitiert verfügbar und sind seit langer Zeit bereits vergriffen.

 

Ducati 900 Racer Mike Hailwood - winner TT 'Isle of Man'

In the history of Ducati, the second of June 1978 is a historical date. This was the day when the nine-fold world champion Mike Hailwood won the Tourist Trophy on a Ducati 900 SS on the legendary Isle of Man. In the world's most difficult road race, 'Mike the Bike' beat Phil Read on his Honda, which put him in a position to celebrate a magnificent comeback - following his withdrawal from racing in 1967. 44 years after his triumph, this race has remained vivid in the memories of all Mike Hailwood and Ducati fans.

It's been six months since I finished my last MOC, but I'm finally back with my latest Formula 1 car. This is my scale model of the 2017 Ferrari F1 car which is being driven by Sebastian Vettel and Kimi Raikkonen (I've also built the 2014, 2015, and 2016 Ferraris previously).

 

Just like the real racecar, this one is longer and wider than previous year's cars. It also has more intricate aero bits - an angled front wing, a slanted rear wing, bigger barge boards, a shark fin, and the controversial T-wing.

 

I really like the design of this year's F1 cars - they look so much more aggressive than before. Thus, I enjoyed building this car quite a bit. The sidepods or side air intakes were challenging to build, but it was extremely satisfying when it finally came together.

 

Thanks for visiting, and I hope it's not another six months until I post another MOC!

Comments are welcome. I like reading comments more than watching counters increment up.

 

Modified from my old Chimera Chub. The Black Flag Chub belongs to a frame pirate. Somehow he always manages to smuggle his favorite Chub to different planets under the TTA's noses. His “crew” on the other hand have to fend for themselves and steal new equipment wherever they go. The Chub was build from high quality salvage, but where did it get those guns? In fact, what are those guns?

 

Made for Mobile Frame Zero.

1:42 scale

 

The North American F-100 Super Sabre was a supersonic multiple-role fighter-bomber from the cold war. It was introduced in the early 50's as a replacement for the Korean War F-86 Sabre. Its design was revolutionary for the time, and was a huge step in fighter jet development. It was the first jet capable of supersonic speeds at level flight. The F-100 deployed to Vietnam during Operation Rolling Thunder in 1965. It was one of the most effective bombers of the war, and was continued to be used in Vietnam until 1972 when it was totally replaced by the more advanced F4 Phantom.

 

This model was quite a challenge in some bits, but in the end I am very pleased with how it turned out. The camouflage was hard to pull off in olive green, so I felt stickers would be the best option to fill in some nasty gaps. This might be a bit controvertial, but I think it looks fine. Instructions for this model will be available in due time! Thanks, -Bear

Ladies and gentlemen, friends and fellow builders!

  

I´m very proud to present you my Executor after 2 years of building, troubles, problems and so on. But I had very much fun to design Darth Vader's flagship. As I began to design the first of fifth versions, I was a bad Lego builder. With the time I built better and better and the result you see here. So a long way is going to an end, now.

 

Now some facts about my Executor:

 

Large: 2,04m long

 

Pieces: I don´t know the number of parts, but I can say that this are much over 10000 bricks

 

weight: I haven´t a scales, which is big enough to weight my ship, but I can´t carry it alone, so it must weight over 30 kilogramms.

 

Time of building: over 2 years and over 2000 hours (no gag)

 

Maybe you are a bit shock about the fact that this is complete build by my own, a 16 years old german boy. So now the pictures of the Super Star Destroyer:

  

1:6 Scale Flooded Crypt with Sarcophagus. Inspired by Flickr member Oksana_frost’s Ghost and Vampire Barbie’s. Is this too morbid for Barbie collectors ? It’s not lost on me that even the Ghost Barbie has a smile on her face so this might be a little much……………………

I murdered a regular Barbie to make the Shrouded Repose for the Sarcophagus lid

 

Sheep (pl.: sheep) or domestic sheep (Ovis aries) are a domesticated, ruminant mammal typically kept as livestock. Although the term sheep can apply to other species in the genus Ovis, in everyday usage it almost always refers to domesticated sheep. Like all ruminants, sheep are members of the order Artiodactyla, the even-toed ungulates. Numbering a little over one billion, domestic sheep are also the most numerous species of sheep. An adult female is referred to as a ewe (/juː/ yoo), an intact male as a ram, occasionally a tup, a castrated male as a wether, and a young sheep as a lamb.

 

Sheep are most likely descended from the wild mouflon of Europe and Asia, with Iran being a geographic envelope of the domestication center. One of the earliest animals to be domesticated for agricultural purposes, sheep are raised for fleeces, meat (lamb, hogget or mutton) and milk. A sheep's wool is the most widely used animal fiber, and is usually harvested by shearing. In Commonwealth countries, ovine meat is called lamb when from younger animals and mutton when from older ones; in the United States, meat from both older and younger animals is usually called lamb. Sheep continue to be important for wool and meat today, and are also occasionally raised for pelts, as dairy animals, or as model organisms for science.

 

Sheep husbandry is practised throughout the majority of the inhabited world, and has been fundamental to many civilizations. In the modern era, Australia, New Zealand, the southern and central South American nations, and the British Isles are most closely associated with sheep production.

 

There is a large lexicon of unique terms for sheep husbandry which vary considerably by region and dialect. Use of the word sheep began in Middle English as a derivation of the Old English word scēap. A group of sheep is called a flock. Many other specific terms for the various life stages of sheep exist, generally related to lambing, shearing, and age.

 

Being a key animal in the history of farming, sheep have a deeply entrenched place in human culture, and are represented in much modern language and symbolism. As livestock, sheep are most often associated with pastoral, Arcadian imagery. Sheep figure in many mythologies—such as the Golden Fleece—and major religions, especially the Abrahamic traditions. In both ancient and modern religious ritual, sheep are used as sacrificial animals.

 

History

Main article: History of the domestic sheep

The exact line of descent from wild ancestors to domestic sheep is unclear. The most common hypothesis states that Ovis aries is descended from the Asiatic (O. gmelini) species of mouflon; the European mouflon (Ovis aries musimon) is a direct descendant of this population. Sheep were among the first animals to be domesticated by humankind (although the domestication of dogs probably took place 10 to 20 thousand years earlier); the domestication date is estimated to fall between 11,000 and 9000 B.C in Mesopotamia and possibly around 7000 BC in Mehrgarh in the Indus Valley. The rearing of sheep for secondary products, and the resulting breed development, began in either southwest Asia or western Europe. Initially, sheep were kept solely for meat, milk and skins. Archaeological evidence from statuary found at sites in Iran suggests that selection for woolly sheep may have begun around 6000 BC, and the earliest woven wool garments have been dated to two to three thousand years later.

 

Sheep husbandry spread quickly in Europe. Excavations show that in about 6000 BC, during the Neolithic period of prehistory, the Castelnovien people, living around Châteauneuf-les-Martigues near present-day Marseille in the south of France, were among the first in Europe to keep domestic sheep. Practically from its inception, ancient Greek civilization relied on sheep as primary livestock, and were even said to name individual animals. Ancient Romans kept sheep on a wide scale, and were an important agent in the spread of sheep raising. Pliny the Elder, in his Natural History (Naturalis Historia), speaks at length about sheep and wool. European colonists spread the practice to the New World from 1493 onwards.

 

Characteristics

Domestic sheep are relatively small ruminants, usually with a crimped hair called wool and often with horns forming a lateral spiral. They differ from their wild relatives and ancestors in several respects, having become uniquely neotenic as a result of selective breeding by humans. A few primitive breeds of sheep retain some of the characteristics of their wild cousins, such as short tails. Depending on breed, domestic sheep may have no horns at all (i.e. polled), or horns in both sexes, or in males only. Most horned breeds have a single pair, but a few breeds may have several.

 

Sheep in Turkmenistan

Another trait unique to domestic sheep as compared to wild ovines is their wide variation in color. Wild sheep are largely variations of brown hues, and variation within species is extremely limited. Colors of domestic sheep range from pure white to dark chocolate brown, and even spotted or piebald. Sheep keepers also sometimes artificially paint "smit marks" onto their sheep in any pattern or color for identification. Selection for easily dyeable white fleeces began early in sheep domestication, and as white wool is a dominant trait it spread quickly. However, colored sheep do appear in many modern breeds, and may even appear as a recessive trait in white flocks. While white wool is desirable for large commercial markets, there is a niche market for colored fleeces, mostly for handspinning. The nature of the fleece varies widely among the breeds, from dense and highly crimped, to long and hairlike. There is variation of wool type and quality even among members of the same flock, so wool classing is a step in the commercial processing of the fibre.

  

Suffolks are a medium wool, black-faced breed of meat sheep that make up 60% of the sheep population in the U.S.

Depending on breed, sheep show a range of heights and weights. Their rate of growth and mature weight is a heritable trait that is often selected for in breeding. Ewes typically weigh between 45 and 100 kilograms (100 and 220 lb), and rams between 45 and 160 kilograms (100 and 350 lb). When all deciduous teeth have erupted, the sheep has 20 teeth. Mature sheep have 32 teeth. As with other ruminants, the front teeth in the lower jaw bite against a hard, toothless pad in the upper jaw. These are used to pick off vegetation, then the rear teeth grind it before it is swallowed. There are eight lower front teeth in ruminants, but there is some disagreement as to whether these are eight incisors, or six incisors and two incisor-shaped canines. This means that the dental formula for sheep is either

0.0.3.3

4.0.3.3

or

0.0.3.3

3.1.3.3

There is a large diastema between the incisors and the molars.

 

In the first few years of life one can calculate the age of sheep from their front teeth, as a pair of milk teeth is replaced by larger adult teeth each year, the full set of eight adult front teeth being complete at about four years of age. The front teeth are then gradually lost as sheep age, making it harder for them to feed and hindering the health and productivity of the animal. For this reason, domestic sheep on normal pasture begin to slowly decline from four years on, and the life expectancy of a sheep is 10 to 12 years, though some sheep may live as long as 20 years.

 

Skull

Sheep have good hearing, and are sensitive to noise when being handled. Sheep have horizontal slit-shaped pupils, with excellent peripheral vision; with visual fields of about 270° to 320°, sheep can see behind themselves without turning their heads. Many breeds have only short hair on the face, and some have facial wool (if any) confined to the poll and or the area of the mandibular angle; the wide angles of peripheral vision apply to these breeds. A few breeds tend to have considerable wool on the face; for some individuals of these breeds, peripheral vision may be greatly reduced by "wool blindness", unless recently shorn about the face. Sheep have poor depth perception; shadows and dips in the ground may cause sheep to baulk. In general, sheep have a tendency to move out of the dark and into well-lit areas, and prefer to move uphill when disturbed. Sheep also have an excellent sense of smell, and, like all species of their genus, have scent glands just in front of the eyes, and interdigitally on the feet. The purpose of these glands is uncertain, but those on the face may be used in breeding behaviors. The foot glands might also be related to reproduction, but alternative functions, such as secretion of a waste product or a scent marker to help lost sheep find their flock, have also been proposed.

 

Comparison with goats

Sheep and goats are closely related: both are in the subfamily Caprinae. However, they are separate species, so hybrids rarely occur and are always infertile. A hybrid of a ewe and a buck (a male goat) is called a sheep-goat hybrid, known as geep. Visual differences between sheep and goats include the beard of goats and divided upper lip of sheep. Sheep tails also hang down, even when short or docked, while the short tails of goats are held upwards. Also, sheep breeds are often naturally polled (either in both sexes or just in the female), while naturally polled goats are rare (though many are polled artificially). Males of the two species differ in that buck goats acquire a unique and strong odor during the rut, whereas rams do not.

 

Breeds

The domestic sheep is a multi-purpose animal, and the more than 200 breeds now in existence were created to serve these diverse purposes. Some sources give a count of a thousand or more breeds, but these numbers cannot be verified, according to some sources. However, several hundred breeds of sheep have been identified by the Food and Agriculture Organization of the UN (FAO), with the estimated number varying somewhat from time to time: e.g. 863 breeds as of 1993, 1314 breeds as of 1995 and 1229 breeds as of 2006. (These numbers exclude extinct breeds, which are also tallied by the FAO.) For the purpose of such tallies, the FAO definition of a breed is "either a subspecific group of domestic livestock with definable and identifiable external characteristics that enable it to be separated by visual appraisal from other similarly defined groups within the same species or a group for which geographical and/or cultural separation from phenotypically similar groups has led to acceptance of its separate identity." Almost all sheep are classified as being best suited to furnishing a certain product: wool, meat, milk, hides, or a combination in a dual-purpose breed. Other features used when classifying sheep include face color (generally white or black), tail length, presence or lack of horns, and the topography for which the breed has been developed. This last point is especially stressed in the UK, where breeds are described as either upland (hill or mountain) or lowland breeds. A sheep may also be of a fat-tailed type, which is a dual-purpose sheep common in Africa and Asia with larger deposits of fat within and around its tail.

 

Breeds are often categorized by the type of their wool. Fine wool breeds are those that have wool of great crimp and density, which are preferred for textiles. Most of these were derived from Merino sheep, and the breed continues to dominate the world sheep industry. Downs breeds have wool between the extremes, and are typically fast-growing meat and ram breeds with dark faces. Some major medium wool breeds, such as the Corriedale, are dual-purpose crosses of long and fine-wooled breeds and were created for high-production commercial flocks. Long wool breeds are the largest of sheep, with long wool and a slow rate of growth. Long wool sheep are most valued for crossbreeding to improve the attributes of other sheep types. For example: the American Columbia breed was developed by crossing Lincoln rams (a long wool breed) with fine-wooled Rambouillet ewes.

 

Coarse or carpet wool sheep are those with a medium to long length wool of characteristic coarseness. Breeds traditionally used for carpet wool show great variability, but the chief requirement is a wool that will not break down under heavy use (as would that of the finer breeds). As the demand for carpet-quality wool declines, some breeders of this type of sheep are attempting to use a few of these traditional breeds for alternative purposes. Others have always been primarily meat-class sheep.

 

A minor class of sheep are the dairy breeds. Dual-purpose breeds that may primarily be meat or wool sheep are often used secondarily as milking animals, but there are a few breeds that are predominantly used for milking. These sheep produce a higher quantity of milk and have slightly longer lactation curves. In the quality of their milk, the fat and protein content percentages of dairy sheep vary from non-dairy breeds, but lactose content does not.

 

A last group of sheep breeds is that of fur or hair sheep, which do not grow wool at all. Hair sheep are similar to the early domesticated sheep kept before woolly breeds were developed, and are raised for meat and pelts. Some modern breeds of hair sheep, such as the Dorper, result from crosses between wool and hair breeds. For meat and hide producers, hair sheep are cheaper to keep, as they do not need shearing. Hair sheep are also more resistant to parasites and hot weather.

 

With the modern rise of corporate agribusiness and the decline of localized family farms, many breeds of sheep are in danger of extinction. The Rare Breeds Survival Trust of the UK lists 22 native breeds as having only 3,000 registered animals (each), and The Livestock Conservancy lists 14 as either "critical" or "threatened". Preferences for breeds with uniform characteristics and fast growth have pushed heritage (or heirloom) breeds to the margins of the sheep industry. Those that remain are maintained through the efforts of conservation organizations, breed registries, and individual farmers dedicated to their preservation.

 

Diet

Sheep are herbivorous mammals. Most breeds prefer to graze on grass and other short roughage, avoiding the taller woody parts of plants that goats readily consume. Both sheep and goats use their lips and tongues to select parts of the plant that are easier to digest or higher in nutrition. Sheep, however, graze well in monoculture pastures where most goats fare poorly.

 

Ruminant system of a sheep

Like all ruminants, sheep have a complex digestive system composed of four chambers, allowing them to break down cellulose from stems, leaves, and seed hulls into simpler carbohydrates. When sheep graze, vegetation is chewed into a mass called a bolus, which is then passed into the rumen, via the reticulum. The rumen is a 19- to 38-liter (5 to 10 gallon) organ in which feed is fermented. The fermenting organisms include bacteria, fungi, and protozoa. (Other important rumen organisms include some archaea, which produce methane from carbon dioxide.) The bolus is periodically regurgitated back to the mouth as cud for additional chewing and salivation. After fermentation in the rumen, feed passes into the reticulum and the omasum; special feeds such as grains may bypass the rumen altogether. After the first three chambers, food moves into the abomasum for final digestion before processing by the intestines. The abomasum is the only one of the four chambers analogous to the human stomach, and is sometimes called the "true stomach".

 

Other than forage, the other staple feed for sheep is hay, often during the winter months. The ability to thrive solely on pasture (even without hay) varies with breed, but all sheep can survive on this diet. Also included in some sheep's diets are minerals, either in a trace mix or in licks. Feed provided to sheep must be specially formulated, as most cattle, poultry, pig, and even some goat feeds contain levels of copper that are lethal to sheep. The same danger applies to mineral supplements such as salt licks.

 

Grazing behavior

Sheep follow a diurnal pattern of activity, feeding from dawn to dusk, stopping sporadically to rest and chew their cud. Ideal pasture for sheep is not lawnlike grass, but an array of grasses, legumes and forbs. Types of land where sheep are raised vary widely, from pastures that are seeded and improved intentionally to rough, native lands. Common plants toxic to sheep are present in most of the world, and include (but are not limited to) cherry, some oaks and acorns, tomato, yew, rhubarb, potato, and rhododendron.

 

Effects on pasture

Sheep are largely grazing herbivores, unlike browsing animals such as goats and deer that prefer taller foliage. With a much narrower face, sheep crop plants very close to the ground and can overgraze a pasture much faster than cattle. For this reason, many shepherds use managed intensive rotational grazing, where a flock is rotated through multiple pastures, giving plants time to recover. Paradoxically, sheep can both cause and solve the spread of invasive plant species. By disturbing the natural state of pasture, sheep and other livestock can pave the way for invasive plants. However, sheep also prefer to eat invasives such as cheatgrass, leafy spurge, kudzu and spotted knapweed over native species such as sagebrush, making grazing sheep effective for conservation grazing. Research conducted in Imperial County, California compared lamb grazing with herbicides for weed control in seedling alfalfa fields. Three trials demonstrated that grazing lambs were just as effective as herbicides in controlling winter weeds. Entomologists also compared grazing lambs to insecticides for insect control in winter alfalfa. In this trial, lambs provided insect control as effectively as insecticides.

 

Behavior

Sheep are flock animals and strongly gregarious; much sheep behavior can be understood on the basis of these tendencies. The dominance hierarchy of sheep and their natural inclination to follow a leader to new pastures were the pivotal factors in sheep being one of the first domesticated livestock species. Furthermore, in contrast to the red deer and gazelle (two other ungulates of primary importance to meat production in prehistoric times), sheep do not defend territories although they do form home ranges. All sheep have a tendency to congregate close to other members of a flock, although this behavior varies with breed, and sheep can become stressed when separated from their flock members. During flocking, sheep have a strong tendency to follow, and a leader may simply be the first individual to move. Relationships in flocks tend to be closest among related sheep: in mixed-breed flocks, subgroups of the same breed tend to form, and a ewe and her direct descendants often move as a unit within large flocks. Sheep can become hefted to one particular local pasture (heft) so they do not roam freely in unfenced landscapes. Lambs learn the heft from ewes and if whole flocks are culled it must be retaught to the replacement animals.

 

Flock behaviour in sheep is generally only exhibited in groups of four or more sheep; fewer sheep may not react as expected when alone or with few other sheep. Being a prey species, the primary defense mechanism of sheep is to flee from danger when their flight zone is entered. Cornered sheep may charge and butt, or threaten by hoof stamping and adopting an aggressive posture. This is particularly true for ewes with newborn lambs.

 

In regions where sheep have no natural predators, none of the native breeds of sheep exhibit a strong flocking behavior.

 

Herding

Farmers exploit flocking behavior to keep sheep together on unfenced pastures such as hill farming, and to move them more easily. For this purpose shepherds may use herding dogs in this effort, with a highly bred herding ability. Sheep are food-oriented, and association of humans with regular feeding often results in sheep soliciting people for food. Those who are moving sheep may exploit this behavior by leading sheep with buckets of feed.

 

Dominance hierarchy

Sheep establish a dominance hierarchy through fighting, threats and competitiveness. Dominant animals are inclined to be more aggressive with other sheep, and usually feed first at troughs. Primarily among rams, horn size is a factor in the flock hierarchy. Rams with different size horns may be less inclined to fight to establish the dominance order, while rams with similarly sized horns are more so. Merinos have an almost linear hierarchy whereas there is a less rigid structure in Border Leicesters when a competitive feeding situation arises.

 

In sheep, position in a moving flock is highly correlated with social dominance, but there is no definitive study to show consistent voluntary leadership by an individual sheep.

 

Intelligence and learning ability

Sheep are frequently thought of as unintelligent animals. Their flocking behavior and quickness to flee and panic can make shepherding a difficult endeavor for the uninitiated. Despite these perceptions, a University of Illinois monograph on sheep reported their intelligence to be just below that of pigs and on par with that of cattle. Sheep can recognize individual human and ovine faces and remember them for years; they can remember 50 other different sheep faces for over two years; they can recognize and are attracted to individual sheep and humans by their faces, as they possess similar specialized neural systems in the temporal and frontal lobes of their brains to humans and have a greater involvement of the right brain hemisphere. In addition to long-term facial recognition of individuals, sheep can also differentiate emotional states through facial characteristics.[68][69] If worked with patiently, sheep may learn their names, and many sheep are trained to be led by halter for showing and other purposes. Sheep have also responded well to clicker training. Sheep have been used as pack animals; Tibetan nomads distribute baggage equally throughout a flock as it is herded between living sites.

 

It has been reported that some sheep have apparently shown problem-solving abilities; a flock in West Yorkshire, England allegedly found a way to get over cattle grids by rolling on their backs, although documentation of this has relied on anecdotal accounts.

 

Vocalisations

Sounds made by domestic sheep include bleats, grunts, rumbles and snorts. Bleating ("baaing") is used mostly for contact communication, especially between dam and lambs, but also at times between other flock members. The bleats of individual sheep are distinctive, enabling the ewe and her lambs to recognize each other's vocalizations. Vocal communication between lambs and their dam declines to a very low level within several weeks after parturition. A variety of bleats may be heard, depending on sheep age and circumstances. Apart from contact communication, bleating may signal distress, frustration or impatience; however, sheep are usually silent when in pain. Isolation commonly prompts bleating by sheep. Pregnant ewes may grunt when in labor. Rumbling sounds are made by the ram during courting; somewhat similar rumbling sounds may be made by the ewe, especially when with her neonate lambs. A snort (explosive exhalation through the nostrils) may signal aggression or a warning, and is often elicited from startled sheep.

 

Lamb

In sheep breeds lacking facial wool, the visual field is wide. In 10 sheep (Cambridge, Lleyn and Welsh Mountain breeds, which lack facial wool), the visual field ranged from 298° to 325°, averaging 313.1°, with binocular overlap ranging from 44.5° to 74°, averaging 61.7°. In some breeds, unshorn facial wool can limit the visual field; in some individuals, this may be enough to cause "wool blindness". In 60 Merinos, visual fields ranged from 219.1° to 303.0°, averaging 269.9°, and the binocular field ranged from 8.9° to 77.7°, averaging 47.5°; 36% of the measurements were limited by wool, although photographs of the experiments indicate that only limited facial wool regrowth had occurred since shearing. In addition to facial wool (in some breeds), visual field limitations can include ears and (in some breeds) horns, so the visual field can be extended by tilting the head. Sheep eyes exhibit very low hyperopia and little astigmatism. Such visual characteristics are likely to produce a well-focused retinal image of objects in both the middle and long distance. Because sheep eyes have no accommodation, one might expect the image of very near objects to be blurred, but a rather clear near image could be provided by the tapetum and large retinal image of the sheep's eye, and adequate close vision may occur at muzzle length. Good depth perception, inferred from the sheep's sure-footedness, was confirmed in "visual cliff" experiments; behavioral responses indicating depth perception are seen in lambs at one day old. Sheep are thought to have colour vision, and can distinguish between a variety of colours: black, red, brown, green, yellow and white. Sight is a vital part of sheep communication, and when grazing, they maintain visual contact with each other. Each sheep lifts its head upwards to check the position of other sheep in the flock. This constant monitoring is probably what keeps the sheep in a flock as they move along grazing. Sheep become stressed when isolated; this stress is reduced if they are provided with a mirror, indicating that the sight of other sheep reduces stress.

 

Taste is the most important sense in sheep, establishing forage preferences, with sweet and sour plants being preferred and bitter plants being more commonly rejected. Touch and sight are also important in relation to specific plant characteristics, such as succulence and growth form.

 

The ram uses his vomeronasal organ (sometimes called the Jacobson's organ) to sense the pheromones of ewes and detect when they are in estrus. The ewe uses her vomeronasal organ for early recognition of her neonate lamb.

 

Reproduction

Sheep follow a similar reproductive strategy to other herd animals. A group of ewes is generally mated by a single ram, who has either been chosen by a breeder or (in feral populations) has established dominance through physical contest with other rams. Most sheep are seasonal breeders, although some are able to breed year-round. Ewes generally reach sexual maturity at six to eight months old, and rams generally at four to six months. However, there are exceptions. For example, Finnsheep ewe lambs may reach puberty as early as 3 to 4 months, and Merino ewes sometimes reach puberty at 18 to 20 months. Ewes have estrus cycles about every 17 days, during which they emit a scent and indicate readiness through physical displays towards rams.

 

In feral sheep, rams may fight during the rut to determine which individuals may mate with ewes. Rams, especially unfamiliar ones, will also fight outside the breeding period to establish dominance; rams can kill one another if allowed to mix freely. During the rut, even usually friendly rams may become aggressive towards humans due to increases in their hormone levels.

 

After mating, sheep have a gestation period of about five months, and normal labor takes one to three hours. Although some breeds regularly throw larger litters of lambs, most produce single or twin lambs. During or soon after labor, ewes and lambs may be confined to small lambing jugs, small pens designed to aid both careful observation of ewes and to cement the bond between them and their lambs.

  

A lamb's first steps

Ovine obstetrics can be problematic. By selectively breeding ewes that produce multiple offspring with higher birth weights for generations, sheep producers have inadvertently caused some domestic sheep to have difficulty lambing; balancing ease of lambing with high productivity is one of the dilemmas of sheep breeding. In the case of any such problems, those present at lambing may assist the ewe by extracting or repositioning lambs. After the birth, ewes ideally break the amniotic sac (if it is not broken during labor), and begin licking clean the lamb. Most lambs will begin standing within an hour of birth. In normal situations, lambs nurse after standing, receiving vital colostrum milk. Lambs that either fail to nurse or are rejected by the ewe require help to survive, such as bottle-feeding or fostering by another ewe.

 

Most lambs begin life being born outdoors. After lambs are several weeks old, lamb marking (ear tagging, docking, mulesing, and castrating) is carried out. Vaccinations are usually carried out at this point as well. Ear tags with numbers are attached, or ear marks are applied, for ease of later identification of sheep. Docking and castration are commonly done after 24 hours (to avoid interference with maternal bonding and consumption of colostrum) and are often done not later than one week after birth, to minimize pain, stress, recovery time and complications. The first course of vaccinations (commonly anti-clostridial) is commonly given at an age of about 10 to 12 weeks; i.e. when the concentration of maternal antibodies passively acquired via colostrum is expected to have fallen low enough to permit development of active immunity. Ewes are often revaccinated annually about 3 weeks before lambing, to provide high antibody concentrations in colostrum during the first several hours after lambing. Ram lambs that will either be slaughtered or separated from ewes before sexual maturity are not usually castrated. Objections to all these procedures have been raised by animal rights groups, but farmers defend them by saying they save money, and inflict only temporary pain.

 

Homosexuality

Sheep are the only species of mammal except for humans which exhibits exclusive homosexual behavior. About 10% of rams refuse to mate with ewes but readily mate with other rams, and thirty percent of all rams demonstrate at least some homosexual behavior. Additionally, a small number of females that were accompanied by a male fetus in utero (i.e. as fraternal twins) are freemartins (female animals that are behaviorally masculine and lack functioning ovaries).

 

Health

Sheep may fall victim to poisons, infectious diseases, and physical injuries. As a prey species, a sheep's system is adapted to hide the obvious signs of illness, to prevent being targeted by predators. However, some signs of ill health are obvious, with sick sheep eating little, vocalizing excessively, and being generally listless. Throughout history, much of the money and labor of sheep husbandry has aimed to prevent sheep ailments. Historically, shepherds often created remedies by experimentation on the farm. In some developed countries, including the United States, sheep lack the economic importance for drug companies to perform expensive clinical trials required to approve more than a relatively limited number of drugs for ovine use. However, extra-label drug use in sheep production is permitted in many jurisdictions, subject to certain restrictions. In the US, for example, regulations governing extra-label drug use in animals are found in 21 CFR (Code of Federal Regulations) Part 530. In the 20th and 21st centuries, a minority of sheep owners have turned to alternative treatments such as homeopathy, herbalism and even traditional Chinese medicine to treat sheep veterinary problems. Despite some favorable anecdotal evidence, the effectiveness of alternative veterinary medicine has been met with skepticism in scientific journals. The need for traditional anti-parasite drugs and antibiotics is widespread, and is the main impediment to certified organic farming with sheep.

 

Many breeders take a variety of preventive measures to ward off problems. The first is to ensure all sheep are healthy when purchased. Many buyers avoid outlets known to be clearing houses for animals culled from healthy flocks as either sick or simply inferior. This can also mean maintaining a closed flock, and quarantining new sheep for a month. Two fundamental preventive programs are maintaining good nutrition and reducing stress in the sheep. Restraint, isolation, loud noises, novel situations, pain, heat, extreme cold, fatigue and other stressors can lead to secretion of cortisol, a stress hormone, in amounts that may indicate welfare problems. Excessive stress can compromise the immune system. "Shipping fever" (pneumonic mannheimiosis, formerly called pasteurellosis) is a disease of particular concern, that can occur as a result of stress, notably during transport and (or) handling. Pain, fear and several other stressors can cause secretion of epinephrine (adrenaline). Considerable epinephrine secretion in the final days before slaughter can adversely affect meat quality (by causing glycogenolysis, removing the substrate for normal post-slaughter acidification of meat) and result in meat becoming more susceptible to colonization by spoilage bacteria. Because of such issues, low-stress handling is essential in sheep management. Avoiding poisoning is also important; common poisons are pesticide sprays, inorganic fertilizer, motor oil, as well as radiator coolant containing ethylene glycol.

 

Common forms of preventive medication for sheep are vaccinations and treatments for parasites. Both external and internal parasites are the most prevalent malady in sheep, and are either fatal, or reduce the productivity of flocks. Worms are the most common internal parasites. They are ingested during grazing, incubate within the sheep, and are expelled through the digestive system (beginning the cycle again). Oral anti-parasitic medicines, known as drenches, are given to a flock to treat worms, sometimes after worm eggs in the feces has been counted to assess infestation levels. Afterwards, sheep may be moved to a new pasture to avoid ingesting the same parasites. External sheep parasites include: lice (for different parts of the body), sheep keds, nose bots, sheep itch mites, and maggots. Keds are blood-sucking parasites that cause general malnutrition and decreased productivity, but are not fatal. Maggots are those of the bot fly and the blow-fly, commonly Lucilia sericata or its relative L. cuprina. Fly maggots cause the extremely destructive condition of flystrike. Flies lay their eggs in wounds or wet, manure-soiled wool; when the maggots hatch they burrow into a sheep's flesh, eventually causing death if untreated. In addition to other treatments, crutching (shearing wool from a sheep's rump) is a common preventive method. Some countries allow mulesing, a practice that involves stripping away the skin on the rump to prevent fly-strike, normally performed when the sheep is a lamb. Nose bots are fly larvae that inhabit a sheep's sinuses, causing breathing difficulties and discomfort. Common signs are a discharge from the nasal passage, sneezing, and frantic movement such as head shaking. External parasites may be controlled through the use of backliners, sprays or immersive sheep dips.

 

A wide array of bacterial and viral diseases affect sheep. Diseases of the hoof, such as foot rot and foot scald may occur, and are treated with footbaths and other remedies. Foot rot is present in over 97% of flocks in the UK. These painful conditions cause lameness and hinder feeding. Ovine Johne's disease is a wasting disease that affects young sheep. Bluetongue disease is an insect-borne illness causing fever and inflammation of the mucous membranes. Ovine rinderpest (or peste des petits ruminants) is a highly contagious and often fatal viral disease affecting sheep and goats. Sheep may also be affected by primary or secondary photosensitization. Tetanus can also afflict sheep through wounds from shearing, docking, castration, or vaccination. The organism also can be introduced into the reproductive tract by unsanitary humans who assist ewes during lambing.

 

A few sheep conditions are transmissible to humans. Orf (also known as scabby mouth, contagious ecthyma or soremouth) is a skin disease leaving lesions that is transmitted through skin-to-skin contact. Cutaneous anthrax is also called woolsorter's disease, as the spores can be transmitted in unwashed wool. More seriously, the organisms that can cause spontaneous enzootic abortion in sheep are easily transmitted to pregnant women. Also of concern are the prion disease scrapie and the virus that causes foot-and-mouth disease (FMD), as both can devastate flocks. The latter poses a slight risk to humans. During the 2001 FMD pandemic in the UK, hundreds of sheep were culled and some rare British breeds were at risk of extinction due to this.

 

Of the 600,300 sheep lost to the US economy in 2004, 37.3% were lost to predators, while 26.5% were lost to some form of disease. Poisoning accounted for 1.7% of non-productive deaths.

 

Predators

A lamb being attacked by coyotes with a bite to the throat

Other than parasites and disease, predation is a threat to sheep and the profitability of sheep raising. Sheep have little ability to defend themselves, compared with other species kept as livestock. Even if sheep survive an attack, they may die from their injuries or simply from panic. However, the impact of predation varies dramatically with region. In Africa, Australia, the Americas, and parts of Europe and Asia predators are a serious problem. In the United States, for instance, over one third of sheep deaths in 2004 were caused by predation. In contrast, other nations are virtually devoid of sheep predators, particularly islands known for extensive sheep husbandry. Worldwide, canids—including the domestic dog—are responsible for most sheep deaths. Other animals that occasionally prey on sheep include: felines, bears, birds of prey, ravens and feral hogs.

 

Sheep producers have used a wide variety of measures to combat predation. Pre-modern shepherds used their own presence, livestock guardian dogs, and protective structures such as barns and fencing. Fencing (both regular and electric), penning sheep at night and lambing indoors all continue to be widely used. More modern shepherds used guns, traps, and poisons to kill predators, causing significant decreases in predator populations. In the wake of the environmental and conservation movements, the use of these methods now usually falls under the purview of specially designated government agencies in most developed countries.

 

The 1970s saw a resurgence in the use of livestock guardian dogs and the development of new methods of predator control by sheep producers, many of them non-lethal. Donkeys and guard llamas have been used since the 1980s in sheep operations, using the same basic principle as livestock guardian dogs. Interspecific pasturing, usually with larger livestock such as cattle or horses, may help to deter predators, even if such species do not actively guard sheep. In addition to animal guardians, contemporary sheep operations may use non-lethal predator deterrents such as motion-activated lights and noisy alarms.

 

Economic importance

Main article: Agricultural economics

Global sheep stock

in 2019

Number in millions

1. China163.5 (13.19%)

2. India74.3 (5.99%)

3. Australia65.8 (5.31%)

4. Nigeria46.9 (3.78%)

5. Iran41.3 (3.33%)

6. Sudan40.9 (3.3%)

7. Chad35.9 (2.9%)

8. Turkey35.2 (2.84%)

9. United Kingdom33.6 (2.71%)

10. Mongolia32.3 (2.61%)

World total1,239.8

 

Source: UN Food and Agriculture Organization

Sheep are an important part of the global agricultural economy. However, their once vital status has been largely replaced by other livestock species, especially the pig, chicken, and cow. China, Australia, India, and Iran have the largest modern flocks, and serve both local and exportation needs for wool and mutton. Other countries such as New Zealand have smaller flocks but retain a large international economic impact due to their export of sheep products. Sheep also play a major role in many local economies, which may be niche markets focused on organic or sustainable agriculture and local food customers. Especially in developing countries, such flocks may be a part of subsistence agriculture rather than a system of trade. Sheep themselves may be a medium of trade in barter economies.

 

Domestic sheep provide a wide array of raw materials. Wool was one of the first textiles, although in the late 20th century wool prices began to fall dramatically as the result of the popularity and cheap prices for synthetic fabrics. For many sheep owners, the cost of shearing is greater than the possible profit from the fleece, making subsisting on wool production alone practically impossible without farm subsidies. Fleeces are used as material in making alternative products such as wool insulation. In the 21st century, the sale of meat is the most profitable enterprise in the sheep industry, even though far less sheep meat is consumed than chicken, pork or beef.

 

Sheepskin is likewise used for making clothes, footwear, rugs, and other products. Byproducts from the slaughter of sheep are also of value: sheep tallow can be used in candle and soap making, sheep bone and cartilage has been used to furnish carved items such as dice and buttons as well as rendered glue and gelatin. Sheep intestine can be formed into sausage casings, and lamb intestine has been formed into surgical sutures, as well as strings for musical instruments and tennis rackets. Sheep droppings, which are high in cellulose, have even been sterilized and mixed with traditional pulp materials to make paper. Of all sheep byproducts, perhaps the most valuable is lanolin: the waterproof, fatty substance found naturally in sheep's wool and used as a base for innumerable cosmetics and other products.

 

Some farmers who keep sheep also make a profit from live sheep. Providing lambs for youth programs such as 4-H and competition at agricultural shows is often a dependable avenue for the sale of sheep. Farmers may also choose to focus on a particular breed of sheep in order to sell registered purebred animals, as well as provide a ram rental service for breeding. A new option for deriving profit from live sheep is the rental of flocks for grazing; these "mowing services" are hired in order to keep unwanted vegetation down in public spaces and to lessen fire hazard.

 

Despite the falling demand and price for sheep products in many markets, sheep have distinct economic advantages when compared with other livestock. They do not require expensive housing, such as that used in the intensive farming of chickens or pigs. They are an efficient use of land; roughly six sheep can be kept on the amount that would suffice for a single cow or horse. Sheep can also consume plants, such as noxious weeds, that most other animals will not touch, and produce more young at a faster rate. Also, in contrast to most livestock species, the cost of raising sheep is not necessarily tied to the price of feed crops such as grain, soybeans and corn. Combined with the lower cost of quality sheep, all these factors combine to equal a lower overhead for sheep producers, thus entailing a higher profitability potential for the small farmer. Sheep are especially beneficial for independent producers, including family farms with limited resources, as the sheep industry is one of the few types of animal agriculture that has not been vertically integrated by agribusiness. However, small flocks, from 10 to 50 ewes, often are not profitable because they tend to be poorly managed. The primary reason is that mechanization is not feasible, so return per hour of labor is not maximized. Small farm flocks generally are used simply to control weeds on irrigation ditches or maintained as a hobby.

 

Shoulder of lamb

Sheep meat and milk were one of the earliest staple proteins consumed by human civilization after the transition from hunting and gathering to agriculture. Sheep meat prepared for food is known as either mutton or lamb, and approximately 540 million sheep are slaughtered each year for meat worldwide. "Mutton" is derived from the Old French moton, which was the word for sheep used by the Anglo-Norman rulers of much of the British Isles in the Middle Ages. This became the name for sheep meat in English, while the Old English word sceap was kept for the live animal. Throughout modern history, "mutton" has been limited to the meat of mature sheep usually at least two years of age; "lamb" is used for that of immature sheep less than a year.

 

In the 21st century, the nations with the highest consumption of sheep meat are the Arab states of the Persian Gulf, New Zealand, Australia, Greece, Uruguay, the United Kingdom and Ireland. These countries eat 14–40 lbs (3–18 kg) of sheep meat per capita, per annum. Sheep meat is also popular in France, Africa (especially the Arab world), the Caribbean, the rest of the Middle East, India, and parts of China. This often reflects a history of sheep production. In these countries in particular, dishes comprising alternative cuts and offal may be popular or traditional. Sheep testicles—called animelles or lamb fries—are considered a delicacy in many parts of the world. Perhaps the most unusual dish of sheep meat is the Scottish haggis, composed of various sheep innards cooked along with oatmeal and chopped onions inside its stomach. In comparison, countries such as the U.S. consume only a pound or less (under 0.5 kg), with Americans eating 50 pounds (22 kg) of pork and 65 pounds (29 kg) of beef. In addition, such countries rarely eat mutton, and may favor the more expensive cuts of lamb: mostly lamb chops and leg of lamb.

 

Though sheep's milk may be drunk rarely in fresh form, today it is used predominantly in cheese and yogurt making. Sheep have only two teats, and produce a far smaller volume of milk than cows. However, as sheep's milk contains far more fat, solids, and minerals than cow's milk, it is ideal for the cheese-making process. It also resists contamination during cooling better because of its much higher calcium content. Well-known cheeses made from sheep milk include the feta of Bulgaria and Greece, Roquefort of France, Manchego from Spain, the pecorino romano (the Italian word for "sheep" is pecore) and ricotta of Italy. Yogurts, especially some forms of strained yogurt, may also be made from sheep milk. Many of these products are now often made with cow's milk, especially when produced outside their country of origin. Sheep milk contains 4.8% lactose, which may affect those who are intolerant.

 

As with other domestic animals, the meat of uncastrated males is inferior in quality, especially as they grow. A "bucky" lamb is a lamb which was not castrated early enough, or which was castrated improperly (resulting in one testicle being retained). These lambs are worth less at market.

 

In science

Sheep are generally too large and reproduce too slowly to make ideal research subjects, and thus are not a common model organism. They have, however, played an influential role in some fields of science. In particular, the Roslin Institute of Edinburgh, Scotland used sheep for genetics research that produced groundbreaking results. In 1995, two ewes named Megan and Morag were the first mammals cloned from differentiated cells, also referred to as gynomerogony. A year later, a Finnish Dorset sheep named Dolly, dubbed "the world's most famous sheep" in Scientific American, was the first mammal to be cloned from an adult somatic cell. Following this, Polly and Molly were the first mammals to be simultaneously cloned and transgenic.

 

As of 2008, the sheep genome has not been fully sequenced, although a detailed genetic map has been published, and a draft version of the complete genome produced by assembling sheep DNA sequences using information given by the genomes of other mammals. In 2012, a transgenic sheep named "Peng Peng" was cloned by Chinese scientists, who spliced his genes with that of a roundworm (C. elegans) in order to increase production of fats healthier for human consumption.

 

In the study of natural selection, the population of Soay sheep that remain on the island of Hirta have been used to explore the relation of body size and coloration to reproductive success. Soay sheep come in several colors, and researchers investigated why the larger, darker sheep were in decline; this occurrence contradicted the rule of thumb that larger members of a population tend to be more successful reproductively. The feral Soays on Hirta are especially useful subjects because they are isolated.

 

Domestic sheep are sometimes used in medical research, particularly for researching cardiovascular physiology, in areas such as hypertension and heart failure. Pregnant sheep are also a useful model for human pregnancy, and have been used to investigate the effects on fetal development of malnutrition and hypoxia. In behavioral sciences, sheep have been used in isolated cases for the study of facial recognition, as their mental process of recognition is qualitatively similar to humans.

 

Cultural impact

Sheep have had a strong presence in many cultures, especially in areas where they form the most common type of livestock. In the English language, to call someone a sheep or ovine may allude that they are timid and easily led. In contradiction to this image, male sheep are often used as symbols of virility and power; the logos of the Los Angeles Rams football team and the Dodge Ram pickup truck allude to males of the bighorn sheep, Ovis canadensis.

 

Counting sheep is popularly said to be an aid to sleep, and some ancient systems of counting sheep persist today. Sheep also enter in colloquial sayings and idiom frequently with such phrases as "black sheep". To call an individual a black sheep implies that they are an odd or disreputable member of a group. This usage derives from the recessive trait that causes an occasional black lamb to be born into an entirely white flock. These black sheep were considered undesirable by shepherds, as black wool is not as commercially viable as white wool. Citizens who accept overbearing governments have been referred to by the Portmanteau neologism of sheeple. Somewhat differently, the adjective "sheepish" is also used to describe embarrassment.

 

In heraldry

In British heraldry, sheep appear in the form of rams, sheep proper and lambs. These are distinguished by the ram being depicted with horns and a tail, the sheep with neither and the lamb with its tail only. A further variant of the lamb, termed the Paschal lamb, is depicted as carrying a Christian cross and with a halo over its head. Rams' heads, portrayed without a neck and facing the viewer, are also found in British armories. The fleece, depicted as an entire sheepskin carried by a ring around its midsection, originally became known through its use in the arms of the Order of the Golden Fleece and was later adopted by towns and individuals with connections to the wool industry. A sheep on a blue field is depicted on the greater/royal arms of the king of Denmark to represent the Faroe Islands. In 2004 a modernized arms has been adopted by the Faroe Islands, which based on a 15th century coat of arms.

 

Religion and folklore

In antiquity, symbolism involving sheep cropped up in religions in the ancient Near East, the Mideast, and the Mediterranean area: Çatalhöyük, ancient Egyptian religion, the Cana'anite and Phoenician tradition, Judaism, Greek religion, and others. Religious symbolism and ritual involving sheep began with some of the first known faiths: Skulls of rams (along with bulls) occupied central placement in shrines at the Çatalhöyük settlement in 8,000 BCE. In Ancient Egyptian religion, the ram was the symbol of several gods: Khnum, Heryshaf and Amun (in his incarnation as a god of fertility). Other deities occasionally shown with ram features include the goddess Ishtar, the Phoenician god Baal-Hamon, and the Babylonian god Ea-Oannes. In Madagascar, sheep were not eaten as they were believed to be incarnations of the souls of ancestors.

 

There are many ancient Greek references to sheep: that of Chrysomallos, the golden-fleeced ram, continuing to be told through into the modern era. Astrologically, Aries, the ram, is the first sign of the classical Greek zodiac, and the sheep is the eighth of the twelve animals associated with the 12-year cycle of in the Chinese zodiac, related to the Chinese calendar. It is said in Chinese traditions that Hou ji sacrificed sheep. Mongolia, shagai are an ancient form of dice made from the cuboid bones of sheep that are often used for fortunetelling purposes.

 

Sheep play an important role in all the Abrahamic faiths; Abraham, Isaac, Jacob, Moses, and King David were all shepherds. According to the Biblical story of the Binding of Isaac, a ram is sacrificed as a substitute for Isaac after an angel stays Abraham's hand (in the Islamic tradition, Abraham was about to sacrifice Ishmael). Eid al-Adha is a major annual festival in Islam in which sheep (or other animals) are sacrificed in remembrance of this act. Sheep are occasionally sacrificed to commemorate important secular events in Islamic cultures. Greeks and Romans sacrificed sheep regularly in religious practice, and Judaism once sacrificed sheep as a Korban (sacrifice), such as the Passover lamb. Ovine symbols—such as the ceremonial blowing of a shofar—still find a presence in modern Judaic traditions.

 

Collectively, followers of Christianity are often referred to as a flock, with Christ as the Good Shepherd, and sheep are an element in the Christian iconography of the birth of Jesus. Some Christian saints are considered patrons of shepherds, and even of sheep themselves. Christ is also portrayed as the Sacrificial lamb of God (Agnus Dei) and Easter celebrations in Greece and Romania traditionally feature a meal of Paschal lamb. A church leader is often called the pastor, which is derived from the Latin word for shepherd. In many western Christian traditions bishops carry a staff, which also serves as a symbol of the episcopal office, known as a crosier, which is modeled on the shepherd's crook.

 

Sheep are key symbols in fables and nursery rhymes like The Wolf in Sheep's Clothing, Little Bo Peep, Baa, Baa, Black Sheep, and Mary Had a Little Lamb; novels such as George Orwell's Animal Farm and Haruki Murakami's A Wild Sheep Chase; songs such as Bach's Sheep may safely graze (Schafe können sicher weiden) and Pink Floyd's "Sheep", and poems like William Blake's "The Lamb".

Jim Sparkman's amazing 3/4 inch scale Philadelphia elevated models and trackage. This large layout was set up at the 2015 East Penn Trolley Meet, quite an impressive sight!

Lindsay Wagner (TV's BIONIC WOMAN) enjoys a Room-Box by Regent Miniatures.

 

Lindsay Wagner won an EMMY for her portrayal of Jaime Sommers. One of the rare brought back to life TV Characters solely by fans of The Bionic Man staring Lee Majors. Lindsay went on to star in many films and television movies and can currently be seen in Warehouse 13 and continues to pursue he work at personal wellness. Visit Lindsay's web site at www.lindsaywagner.com. Lindsay is a repainted and restyled Barbie by Cruz for www.myfarrah.com.

 

Photo/Graphic Layout & web sites ncruz.com & myfarrah.com by www.stevemckinnis.com.

President of Ukraine Volodymyr Zelenskyy held an online meeting with representatives of Ukrainian media involved in the United News telethon.

The Head of State congratulated the media workers on the anniversary of the telethon and noted that United News played an important role in building public unity and trust in the context of Russia's full-scale war against Ukraine.

 

"I think our citizens mostly trust the Ukrainian media. I want to thank you for the great job that you do with pride and professionalism," Volodymyr Zelenskyy said.

According to the President, the telethon has become a powerful media front on the path to Ukraine's victory.

Trikomo is a town in Cyprus. It is under the de facto control of Northern Cyprus and is the administrative center of the Iskele District of Northern Cyprus, which mainly extends into the Karpas Peninsula , while de jure it belongs to the Famagusta District of the Republic of Cyprus . It gained municipality status in 1998. Before 1974 Trikomo was a mixed village with a Greek Cypriot majority.

 

In 2011 Trikomo had 1948 inhabitants.

 

Trikomo is located in the north-eastern part of the Messaria plain , 9 km south of the village of Ardana , about two kilometers from the Bay of Famagusta and four kilometers north-west of the village of Sygkrasi .

 

In Greek Trikomo means "three houses". In 1975 the Turkish Cypriots renamed it Yeni İskele to commemorate the origins of the town's current inhabitants. In Larnaca before 1974 Turkish Cypriots resided in the neighborhood called Skala ("İskele" in Turkish), so that when they settled in the village they renamed it with the same name (lit. "new İskele", later shortened to İskele ). Yeni means "new", so Yeni İskele literally means "New Scale/İskele".

 

Before the 1974 Turkish invasion of Cyprus , the population of Trikomo consisted almost entirely of Greek Cypriots , most of whom fled during the conflict while the rest were subsequently deported to the south. Among these, worthy of mention is Georgios Grivas (1898-1974), general of the Greek army , leader of the guerrilla organization EOKA, protagonist of the liberation struggle against the English and of the paramilitary organization EOKA B.

 

The Turkish Cypriot municipality of Larnaca which had been established in 1958 moved to Trikomo in 1974, soon after the Turkish invasion of the island .

 

In Trikomo is the Church of the Panagia Theotokos , deconsecrated and home to an icon museum displaying rare examples of medieval iconography in Cyprus. The church is divided into two sections, one Orthodox and one Catholic. The first is the oldest, dating back to the Byzantine era , while the second was built in the 12th century, during the period in which the island was ruled by the Lusignans

 

Before 1974 Trikomo was a mixed village with a Greek Cypriot majority. In the 1831 Ottoman census, Muslims made up approximately 18.4% of the population. However, by 1891 this percentage dropped significantly to 3.4%. In the first half of the 20th century the population of the village increased steadily, from 1,247 inhabitants in 1901 to 2,195 in 1960.

 

Most of Trikomo's Greek Cypriots were displaced in August 1974, although some remained in the town after the Turkish army took control. In October 1975 there were still 92 Greek Cypriots in the city, but in 1978 they were moved to the south side of the Green Line . Currently, like the rest of the displaced Greek Cypriots, Trikomo Greek Cypriots are scattered across the south of the island, especially in the cities. The number of Greek Cypriots from Trikomo displaced in 1974-78 was approximately 2,330 (2,323 in the 1960 census).

 

Today the village is inhabited mainly by displaced Turkish Cypriots from the south of the island, especially from the city of Larnaca and its district . In 1976-77, some families from Turkey, especially from the province of Adana , also settled in the village . Since the 2000s, many wealthy Europeans, Turks and Turkish Cypriots from other areas of the north of the island (including returnees from abroad) have purchased properties, built houses and settled in the vicinity of the city. According to the 2006 Turkish Cypriot census, the population of Trikomo/İskele was 3,657.

 

The city annually hosts the Iskele Festival , which takes place for ten days in summer, and is the oldest annual festival in Cyprus, having first been held in Larnaca in 1968. In 1974, the event was moved to Trikomo together to the Turkish Cypriot inhabitants of Larnaca who had moved there. The program includes an international folk dance festival, concerts by Turkish Cypriot and mainland Turkish musicians, various sports tournaments, stalls offering food and various competitions, along with other performances and competitions highlighting the city's cultural heritage.

 

The current mayor of the city is Hasan Sadıkoğlu, who was first elected in 2014 as an independent candidate. It was re-elected in 2018 as the candidate of the right-wing National Unity Party (UBP), winning with 54.6% of the vote. In the 2018 local elections, four members of the UBP, two members of the pro-settler Renaissance Party (YDP), and two members of the left-wing Turkish Republican Party (CTP) were elected to the eight-member city council .

 

Trikomo is twinned with:

Flag of Türkiye Beykoz, Istanbul

Flag of Türkiye Büyükçekmece, Istanbul

Flag of Türkiye Finike, Antalya , since 2015

Flag of Türkiye Mamak, Ankara

Flag of Türkiye Pendik, Istanbul

Flag of Türkiye Samsung , since 2006

 

Turkish Cypriot sports club Larnaka Gençler Birliği (also called İskele Gençlerbirliği ) was founded in 1934 in Larnaca, and was playing in the Süper Lig of the Northern Cyprus Football Federation in the 2018–19 season

 

Northern Cyprus, officially the Turkish Republic of Northern Cyprus (TRNC), is a de facto state that comprises the northeastern portion of the island of Cyprus. It is recognised only by Turkey, and its territory is considered by all other states to be part of the Republic of Cyprus.

 

Northern Cyprus extends from the tip of the Karpass Peninsula in the northeast to Morphou Bay, Cape Kormakitis and its westernmost point, the Kokkina exclave in the west. Its southernmost point is the village of Louroujina. A buffer zone under the control of the United Nations stretches between Northern Cyprus and the rest of the island and divides Nicosia, the island's largest city and capital of both sides.

 

A coup d'état in 1974, performed as part of an attempt to annex the island to Greece, prompted the Turkish invasion of Cyprus. This resulted in the eviction of much of the north's Greek Cypriot population, the flight of Turkish Cypriots from the south, and the partitioning of the island, leading to a unilateral declaration of independence by the north in 1983. Due to its lack of recognition, Northern Cyprus is heavily dependent on Turkey for economic, political and military support.

 

Attempts to reach a solution to the Cyprus dispute have been unsuccessful. The Turkish Army maintains a large force in Northern Cyprus with the support and approval of the TRNC government, while the Republic of Cyprus, the European Union as a whole, and the international community regard it as an occupation force. This military presence has been denounced in several United Nations Security Council resolutions.

 

Northern Cyprus is a semi-presidential, democratic republic with a cultural heritage incorporating various influences and an economy that is dominated by the services sector. The economy has seen growth through the 2000s and 2010s, with the GNP per capita more than tripling in the 2000s, but is held back by an international embargo due to the official closure of the ports in Northern Cyprus by the Republic of Cyprus. The official language is Turkish, with a distinct local dialect being spoken. The vast majority of the population consists of Sunni Muslims, while religious attitudes are mostly moderate and secular. Northern Cyprus is an observer state of ECO and OIC under the name "Turkish Cypriot State", PACE under the name "Turkish Cypriot Community", and Organization of Turkic States with its own name.

 

Several distinct periods of Cypriot intercommunal violence involving the two main ethnic communities, Greek Cypriots and Turkish Cypriots, marked mid-20th century Cyprus. These included the Cyprus Emergency of 1955–59 during British rule, the post-independence Cyprus crisis of 1963–64, and the Cyprus crisis of 1967. Hostilities culminated in the 1974 de facto division of the island along the Green Line following the Turkish invasion of Cyprus. The region has been relatively peaceful since then, but the Cyprus dispute has continued, with various attempts to solve it diplomatically having been generally unsuccessful.

 

Cyprus, an island lying in the eastern Mediterranean, hosted a population of Greeks and Turks (four-fifths and one-fifth, respectively), who lived under British rule in the late nineteenth-century and the first half of the twentieth-century. Christian Orthodox Church of Cyprus played a prominent political role among the Greek Cypriot community, a privilege that it acquired during the Ottoman Empire with the employment of the millet system, which gave the archbishop an unofficial ethnarch status.

 

The repeated rejections by the British of Greek Cypriot demands for enosis, union with Greece, led to armed resistance, organised by the National Organization of Cypriot Struggle, or EOKA. EOKA, led by the Greek-Cypriot commander George Grivas, systematically targeted British colonial authorities. One of the effects of EOKA's campaign was to alter the Turkish position from demanding full reincorporation into Turkey to a demand for taksim (partition). EOKA's mission and activities caused a "Cretan syndrome" (see Turkish Resistance Organisation) within the Turkish Cypriot community, as its members feared that they would be forced to leave the island in such a case as had been the case with Cretan Turks. As such, they preferred the continuation of British colonial rule and then taksim, the division of the island. Due to the Turkish Cypriots' support for the British, EOKA's leader, Georgios Grivas, declared them to be enemies. The fact that the Turks were a minority was, according to Nihat Erim, to be addressed by the transfer of thousands of Turks from mainland Turkey so that Greek Cypriots would cease to be the majority. When Erim visited Cyprus as the Turkish representative, he was advised by Field Marshal Sir John Harding, the then Governor of Cyprus, that Turkey should send educated Turks to settle in Cyprus.

 

Turkey actively promoted the idea that on the island of Cyprus two distinctive communities existed, and sidestepped its former claim that "the people of Cyprus were all Turkish subjects". In doing so, Turkey's aim to have self-determination of two to-be equal communities in effect led to de jure partition of the island.[citation needed] This could be justified to the international community against the will of the majority Greek population of the island. Dr. Fazil Küçük in 1954 had already proposed Cyprus be divided in two at the 35° parallel.

 

Lindley Dan, from Notre Dame University, spotted the roots of intercommunal violence to different visions among the two communities of Cyprus (enosis for Greek Cypriots, taksim for Turkish Cypriots). Also, Lindlay wrote that "the merging of church, schools/education, and politics in divisive and nationalistic ways" had played a crucial role in creation of havoc in Cyprus' history. Attalides Michael also pointed to the opposing nationalisms as the cause of the Cyprus problem.

 

By the mid-1950's, the "Cyprus is Turkish" party, movement, and slogan gained force in both Cyprus and Turkey. In a 1954 editorial, Turkish Cypriot leader Dr. Fazil Kuchuk expressed the sentiment that the Turkish youth had grown up with the idea that "as soon as Great Britain leaves the island, it will be taken over by the Turks", and that "Turkey cannot tolerate otherwise". This perspective contributed to the willingness of Turkish Cypriots to align themselves with the British, who started recruiting Turkish Cypriots into the police force that patrolled Cyprus to fight EOKA, a Greek Cypriot nationalist organisation that sought to rid the island of British rule.

 

EOKA targeted colonial authorities, including police, but Georgios Grivas, the leader of EOKA, did not initially wish to open up a new front by fighting Turkish Cypriots and reassured them that EOKA would not harm their people. In 1956, some Turkish Cypriot policemen were killed by EOKA members and this provoked some intercommunal violence in the spring and summer, but these attacks on policemen were not motivated by the fact that they were Turkish Cypriots.

 

However, in January 1957, Grivas changed his policy as his forces in the mountains became increasingly pressured by the British Crown forces. In order to divert the attention of the Crown forces, EOKA members started to target Turkish Cypriot policemen intentionally in the towns, so that Turkish Cypriots would riot against the Greek Cypriots and the security forces would have to be diverted to the towns to restore order. The killing of a Turkish Cypriot policeman on 19 January, when a power station was bombed, and the injury of three others, provoked three days of intercommunal violence in Nicosia. The two communities targeted each other in reprisals, at least one Greek Cypriot was killed and the British Army was deployed in the streets. Greek Cypriot stores were burned and their neighbourhoods attacked. Following the events, the Greek Cypriot leadership spread the propaganda that the riots had merely been an act of Turkish Cypriot aggression. Such events created chaos and drove the communities apart both in Cyprus and in Turkey.

 

On 22 October 1957 Sir Hugh Mackintosh Foot replaced Sir John Harding as the British Governor of Cyprus. Foot suggested five to seven years of self-government before any final decision. His plan rejected both enosis and taksim. The Turkish Cypriot response to this plan was a series of anti-British demonstrations in Nicosia on 27 and 28 January 1958 rejecting the proposed plan because the plan did not include partition. The British then withdrew the plan.

 

In 1957, Black Gang, a Turkish Cypriot pro-taksim paramilitary organisation, was formed to patrol a Turkish Cypriot enclave, the Tahtakale district of Nicosia, against activities of EOKA. The organisation later attempted to grow into a national scale, but failed to gain public support.

 

By 1958, signs of dissatisfaction with the British increased on both sides, with a group of Turkish Cypriots forming Volkan (later renamed to the Turkish Resistance Organisation) paramilitary group to promote partition and the annexation of Cyprus to Turkey as dictated by the Menderes plan. Volkan initially consisted of roughly 100 members, with the stated aim of raising awareness in Turkey of the Cyprus issue and courting military training and support for Turkish Cypriot fighters from the Turkish government.

 

In June 1958, the British Prime Minister, Harold Macmillan, was expected to propose a plan to resolve the Cyprus issue. In light of the new development, the Turks rioted in Nicosia to promote the idea that Greek and Turkish Cypriots could not live together and therefore any plan that did not include partition would not be viable. This violence was soon followed by bombing, Greek Cypriot deaths and looting of Greek Cypriot-owned shops and houses. Greek and Turkish Cypriots started to flee mixed population villages where they were a minority in search of safety. This was effectively the beginning of the segregation of the two communities. On 7 June 1958, a bomb exploded at the entrance of the Turkish Embassy in Cyprus. Following the bombing, Turkish Cypriots looted Greek Cypriot properties. On 26 June 1984, the Turkish Cypriot leader, Rauf Denktaş, admitted on British channel ITV that the bomb was placed by the Turks themselves in order to create tension. On 9 January 1995, Rauf Denktaş repeated his claim to the famous Turkish newspaper Milliyet in Turkey.

 

The crisis reached a climax on 12 June 1958, when eight Greeks, out of an armed group of thirty five arrested by soldiers of the Royal Horse Guards on suspicion of preparing an attack on the Turkish quarter of Skylloura, were killed in a suspected attack by Turkish Cypriot locals, near the village of Geunyeli, having been ordered to walk back to their village of Kondemenos.

 

After the EOKA campaign had begun, the British government successfully began to turn the Cyprus issue from a British colonial problem into a Greek-Turkish issue. British diplomacy exerted backstage influence on the Adnan Menderes government, with the aim of making Turkey active in Cyprus. For the British, the attempt had a twofold objective. The EOKA campaign would be silenced as quickly as possible, and Turkish Cypriots would not side with Greek Cypriots against the British colonial claims over the island, which would thus remain under the British. The Turkish Cypriot leadership visited Menderes to discuss the Cyprus issue. When asked how the Turkish Cypriots should respond to the Greek Cypriot claim of enosis, Menderes replied: "You should go to the British foreign minister and request the status quo be prolonged, Cyprus to remain as a British colony". When the Turkish Cypriots visited the British Foreign Secretary and requested for Cyprus to remain a colony, he replied: "You should not be asking for colonialism at this day and age, you should be asking for Cyprus be returned to Turkey, its former owner".

 

As Turkish Cypriots began to look to Turkey for protection, Greek Cypriots soon understood that enosis was extremely unlikely. The Greek Cypriot leader, Archbishop Makarios III, now set independence for the island as his objective.

 

Britain resolved to solve the dispute by creating an independent Cyprus. In 1959, all involved parties signed the Zurich Agreements: Britain, Turkey, Greece, and the Greek and Turkish Cypriot leaders, Makarios and Dr. Fazil Kucuk, respectively. The new constitution drew heavily on the ethnic composition of the island. The President would be a Greek Cypriot, and the Vice-President a Turkish Cypriot with an equal veto. The contribution to the public service would be set at a ratio of 70:30, and the Supreme Court would consist of an equal number of judges from both communities as well as an independent judge who was not Greek, Turkish or British. The Zurich Agreements were supplemented by a number of treaties. The Treaty of Guarantee stated that secession or union with any state was forbidden, and that Greece, Turkey and Britain would be given guarantor status to intervene if that was violated. The Treaty of Alliance allowed for two small Greek and Turkish military contingents to be stationed on the island, and the Treaty of Establishment gave Britain sovereignty over two bases in Akrotiri and Dhekelia.

 

On 15 August 1960, the Colony of Cyprus became fully independent as the Republic of Cyprus. The new republic remained within the Commonwealth of Nations.

 

The new constitution brought dissatisfaction to Greek Cypriots, who felt it to be highly unjust for them for historical, demographic and contributional reasons. Although 80% of the island's population were Greek Cypriots and these indigenous people had lived on the island for thousands of years and paid 94% of taxes, the new constitution was giving the 17% of the population that was Turkish Cypriots, who paid 6% of taxes, around 30% of government jobs and 40% of national security jobs.

 

Within three years tensions between the two communities in administrative affairs began to show. In particular disputes over separate municipalities and taxation created a deadlock in government. A constitutional court ruled in 1963 Makarios had failed to uphold article 173 of the constitution which called for the establishment of separate municipalities for Turkish Cypriots. Makarios subsequently declared his intention to ignore the judgement, resulting in the West German judge resigning from his position. Makarios proposed thirteen amendments to the constitution, which would have had the effect of resolving most of the issues in the Greek Cypriot favour. Under the proposals, the President and Vice-President would lose their veto, the separate municipalities as sought after by the Turkish Cypriots would be abandoned, the need for separate majorities by both communities in passing legislation would be discarded and the civil service contribution would be set at actual population ratios (82:18) instead of the slightly higher figure for Turkish Cypriots.

 

The intention behind the amendments has long been called into question. The Akritas plan, written in the height of the constitutional dispute by the Greek Cypriot interior minister Polycarpos Georkadjis, called for the removal of undesirable elements of the constitution so as to allow power-sharing to work. The plan envisaged a swift retaliatory attack on Turkish Cypriot strongholds should Turkish Cypriots resort to violence to resist the measures, stating "In the event of a planned or staged Turkish attack, it is imperative to overcome it by force in the shortest possible time, because if we succeed in gaining command of the situation (in one or two days), no outside, intervention would be either justified or possible." Whether Makarios's proposals were part of the Akritas plan is unclear, however it remains that sentiment towards enosis had not completely disappeared with independence. Makarios described independence as "a step on the road to enosis".[31] Preparations for conflict were not entirely absent from Turkish Cypriots either, with right wing elements still believing taksim (partition) the best safeguard against enosis.

 

Greek Cypriots however believe the amendments were a necessity stemming from a perceived attempt by Turkish Cypriots to frustrate the working of government. Turkish Cypriots saw it as a means to reduce their status within the state from one of co-founder to that of minority, seeing it as a first step towards enosis. The security situation deteriorated rapidly.

 

Main articles: Bloody Christmas (1963) and Battle of Tillyria

An armed conflict was triggered after December 21, 1963, a period remembered by Turkish Cypriots as Bloody Christmas, when a Greek Cypriot policemen that had been called to help deal with a taxi driver refusing officers already on the scene access to check the identification documents of his customers, took out his gun upon arrival and shot and killed the taxi driver and his partner. Eric Solsten summarised the events as follows: "a Greek Cypriot police patrol, ostensibly checking identification documents, stopped a Turkish Cypriot couple on the edge of the Turkish quarter. A hostile crowd gathered, shots were fired, and two Turkish Cypriots were killed."

 

In the morning after the shooting, crowds gathered in protest in Northern Nicosia, likely encouraged by the TMT, without incident. On the evening of the 22nd, gunfire broke out, communication lines to the Turkish neighbourhoods were cut, and the Greek Cypriot police occupied the nearby airport. On the 23rd, a ceasefire was negotiated, but did not hold. Fighting, including automatic weapons fire, between Greek and Turkish Cypriots and militias increased in Nicosia and Larnaca. A force of Greek Cypriot irregulars led by Nikos Sampson entered the Nicosia suburb of Omorphita and engaged in heavy firing on armed, as well as by some accounts unarmed, Turkish Cypriots. The Omorphita clash has been described by Turkish Cypriots as a massacre, while this view has generally not been acknowledged by Greek Cypriots.

 

Further ceasefires were arranged between the two sides, but also failed. By Christmas Eve, the 24th, Britain, Greece, and Turkey had joined talks, with all sides calling for a truce. On Christmas day, Turkish fighter jets overflew Nicosia in a show of support. Finally it was agreed to allow a force of 2,700 British soldiers to help enforce a ceasefire. In the next days, a "buffer zone" was created in Nicosia, and a British officer marked a line on a map with green ink, separating the two sides of the city, which was the beginning of the "Green Line". Fighting continued across the island for the next several weeks.

 

In total 364 Turkish Cypriots and 174 Greek Cypriots were killed during the violence. 25,000 Turkish Cypriots from 103-109 villages fled and were displaced into enclaves and thousands of Turkish Cypriot houses were ransacked or completely destroyed.

 

Contemporary newspapers also reported on the forceful exodus of the Turkish Cypriots from their homes. According to The Times in 1964, threats, shootings and attempts of arson were committed against the Turkish Cypriots to force them out of their homes. The Daily Express wrote that "25,000 Turks have already been forced to leave their homes". The Guardian reported a massacre of Turks at Limassol on 16 February 1964.

 

Turkey had by now readied its fleet and its fighter jets appeared over Nicosia. Turkey was dissuaded from direct involvement by the creation of a United Nations Peacekeeping Force in Cyprus (UNFICYP) in 1964. Despite the negotiated ceasefire in Nicosia, attacks on the Turkish Cypriot persisted, particularly in Limassol. Concerned about the possibility of a Turkish invasion, Makarios undertook the creation of a Greek Cypriot conscript-based army called the "National Guard". A general from Greece took charge of the army, whilst a further 20,000 well-equipped officers and men were smuggled from Greece into Cyprus. Turkey threatened to intervene once more, but was prevented by a strongly worded letter from the American President Lyndon B. Johnson, anxious to avoid a conflict between NATO allies Greece and Turkey at the height of the Cold War.

 

Turkish Cypriots had by now established an important bridgehead at Kokkina, provided with arms, volunteers and materials from Turkey and abroad. Seeing this incursion of foreign weapons and troops as a major threat, the Cypriot government invited George Grivas to return from Greece as commander of the Greek troops on the island and launch a major attack on the bridgehead. Turkey retaliated by dispatching its fighter jets to bomb Greek positions, causing Makarios to threaten an attack on every Turkish Cypriot village on the island if the bombings did not cease. The conflict had now drawn in Greece and Turkey, with both countries amassing troops on their Thracian borders. Efforts at mediation by Dean Acheson, a former U.S. Secretary of State, and UN-appointed mediator Galo Plaza had failed, all the while the division of the two communities becoming more apparent. Greek Cypriot forces were estimated at some 30,000, including the National Guard and the large contingent from Greece. Defending the Turkish Cypriot enclaves was a force of approximately 5,000 irregulars, led by a Turkish colonel, but lacking the equipment and organisation of the Greek forces.

 

The Secretary-General of the United Nations in 1964, U Thant, reported the damage during the conflicts:

 

UNFICYP carried out a detailed survey of all damage to properties throughout the island during the disturbances; it shows that in 109 villages, most of them Turkish-Cypriot or mixed villages, 527 houses have been destroyed while 2,000 others have suffered damage from looting.

 

The situation worsened in 1967, when a military junta overthrew the democratically elected government of Greece, and began applying pressure on Makarios to achieve enosis. Makarios, not wishing to become part of a military dictatorship or trigger a Turkish invasion, began to distance himself from the goal of enosis. This caused tensions with the junta in Greece as well as George Grivas in Cyprus. Grivas's control over the National Guard and Greek contingent was seen as a threat to Makarios's position, who now feared a possible coup.[citation needed] The National Guard and Cyprus Police began patrolling the Turkish Cypriot enclaves of Ayios Theodoros and Kophinou, and on November 15 engaged in heavy fighting with the Turkish Cypriots.

 

By the time of his withdrawal 26 Turkish Cypriots had been killed. Turkey replied with an ultimatum demanding that Grivas be removed from the island, that the troops smuggled from Greece in excess of the limits of the Treaty of Alliance be removed, and that the economic blockades on the Turkish Cypriot enclaves be lifted. Grivas was recalled by the Athens Junta and the 12,000 Greek troops were withdrawn. Makarios now attempted to consolidate his position by reducing the number of National Guard troops, and by creating a paramilitary force loyal to Cypriot independence. In 1968, acknowledging that enosis was now all but impossible, Makarios stated, "A solution by necessity must be sought within the limits of what is feasible which does not always coincide with the limits of what is desirable."

 

After 1967 tensions between the Greek and Turkish Cypriots subsided. Instead, the main source of tension on the island came from factions within the Greek Cypriot community. Although Makarios had effectively abandoned enosis in favour of an 'attainable solution', many others continued to believe that the only legitimate political aspiration for Greek Cypriots was union with Greece.

 

On his arrival, Grivas began by establishing a nationalist paramilitary group known as the National Organization of Cypriot Fighters (Ethniki Organosis Kyprion Agoniston B or EOKA-B), drawing comparisons with the EOKA struggle for enosis under the British colonial administration of the 1950s.

 

The military junta in Athens saw Makarios as an obstacle. Makarios's failure to disband the National Guard, whose officer class was dominated by mainland Greeks, had meant the junta had practical control over the Cypriot military establishment, leaving Makarios isolated and a vulnerable target.

 

During the first Turkish invasion, Turkish troops invaded Cyprus territory on 20 July 1974, invoking its rights under the Treaty of Guarantee. This expansion of Turkish-occupied zone violated International Law as well as the Charter of the United Nations. Turkish troops managed to capture 3% of the island which was accompanied by the burning of the Turkish Cypriot quarter, as well as the raping and killing of women and children. A temporary cease-fire followed which was mitigated by the UN Security Council. Subsequently, the Greek military Junta collapsed on July 23, 1974, and peace talks commenced in which a democratic government was installed. The Resolution 353 was broken after Turkey attacked a second time and managed to get a hold of 37% of Cyprus territory. The Island of Cyprus was appointed a Buffer Zone by the United Nations, which divided the island into two zones through the 'Green Line' and put an end to the Turkish invasion. Although Turkey announced that the occupied areas of Cyprus to be called the Federated Turkish State in 1975, it is not legitimised on a worldwide political scale. The United Nations called for the international recognition of independence for the Republic of Cyprus in the Security Council Resolution 367.

 

In the years after the Turkish invasion of northern Cyprus one can observe a history of failed talks between the two parties. The 1983 declaration of the independent Turkish Republic of Cyprus resulted in a rise of inter-communal tensions and made it increasingly hard to find mutual understanding. With Cyprus' interest of a possible EU membership and a new UN Secretary-General Kofi Annan in 1997 new hopes arose for a fresh start. International involvement from sides of the US and UK, wanting a solution to the Cyprus dispute prior to the EU accession led to political pressures for new talks. The believe that an accession without a solution would threaten Greek-Turkish relations and acknowledge the partition of the island would direct the coming negotiations.

 

Over the course of two years a concrete plan, the Annan plan was formulated. In 2004 the fifth version agreed upon from both sides and with the endorsement of Turkey, US, UK and EU then was presented to the public and was given a referendum in both Cypriot communities to assure the legitimisation of the resolution. The Turkish Cypriots voted with 65% for the plan, however the Greek Cypriots voted with a 76% majority against. The Annan plan contained multiple important topics. Firstly it established a confederation of two separate states called the United Cyprus Republic. Both communities would have autonomous states combined under one unified government. The members of parliament would be chosen according to the percentage in population numbers to ensure a just involvement from both communities. The paper proposed a demilitarisation of the island over the next years. Furthermore it agreed upon a number of 45000 Turkish settlers that could remain on the island. These settlers became a very important issue concerning peace talks. Originally the Turkish government encouraged Turks to settle in Cyprus providing transfer and property, to establish a counterpart to the Greek Cypriot population due to their 1 to 5 minority. With the economic situation many Turkish-Cypriot decided to leave the island, however their departure is made up by incoming Turkish settlers leaving the population ratio between Turkish Cypriots and Greek Cypriots stable. However all these points where criticised and as seen in the vote rejected mainly by the Greek Cypriots. These name the dissolution of the „Republic of Cyprus", economic consequences of a reunion and the remaining Turkish settlers as reason. Many claim that the plan was indeed drawing more from Turkish-Cypriot demands then Greek-Cypriot interests. Taking in consideration that the US wanted to keep Turkey as a strategic partner in future Middle Eastern conflicts.

 

A week after the failed referendum the Republic of Cyprus joined the EU. In multiple instances the EU tried to promote trade with Northern Cyprus but without internationally recognised ports this spiked a grand debate. Both side endure their intention of negotiations, however without the prospect of any new compromises or agreements the UN is unwilling to start the process again. Since 2004 negotiations took place in numbers but without any results, both sides are strongly holding on to their position without an agreeable solution in sight that would suit both parties.

Power can significantly change a person's personality. Maybe even transform it. To fight hubris syndrome, we must begin by fighting our tendency to admire power.Power has always inspired writers. Hubris syndrome "- when power drives an individual mad - would also have transfigured a large number of historical personalities.

Hubris (/ˈhjuːbrɪs/, also hybris, from ancient Greek ὕβρις) describes a personality quality of extreme or foolish pride or dangerous overconfidence.[1] In its ancient Greek context, it typically describes behavior that defies the norms of behavior or challenges the gods, and which in turn brings about the downfall, or nemesis, of the perpetrator of hubris.

The adjectival form of the noun hubris is "hubristic". Hubris is usually perceived as a characteristic of an individual rather than a group, although the group the offender belongs to may suffer collateral consequences from the wrongful act. Hubris often indicates a loss of contact with reality and an overestimation of one's own competence, accomplishments or capabilities. Contrary to common expectations,[by whom?] hubris is not necessarily associated with high self-esteem but with highly fluctuating or variable self-esteem, and a gap between inflated self perception and a more modest reality. In ancient Greek, hubris referred to actions that shamed and humiliated the victim for the pleasure or gratification of the abuser. The term had a strong sexual connotation, and the shame reflected upon the perpetrator as well. Violations of the law against hubris included what might today be termed assault and battery; sexual crimes; or the theft of public or sacred property. Two well-known cases are found in the speeches of Demosthenes, a prominent statesman and orator in ancient Greece. These two examples occurred when first Midias punched Demosthenes in the face in the theatre (Against Midias), and second when (in Against Conon) a defendant allegedly assaulted a man and crowed over the victim. Yet another example of hubris appears in Aeschines' Against Timarchus, where the defendant, Timarchus, is accused of breaking the law of hubris by submitting himself to prostitution and anal intercourse. Aeschines brought this suit against Timarchus to bar him from the rights of political office and his case succeeded. In ancient Athens, hubris was defined as the use of violence to shame the victim (this sense of hubris could also characterize rape. Aristotle defined hubris as shaming the victim, not because of anything that happened to the committer or might happen to the committer, but merely for that committer's own gratification: to cause shame to the victim, not in order that anything may happen to you, nor because anything has happened to you, but merely for your own gratification. Hubris is not the requital of past injuries; this is revenge. As for the pleasure in hubris, its cause is this: naive men think that by ill-treating others they make their own superiority the greater. Crucial to this definition are the ancient Greek concepts of honour (τιμή, timē) and shame (αἰδώς, aidōs). The concept of honour included not only the exaltation of the one receiving honour, but also the shaming of the one overcome by the act of hubris. This concept of honour is akin to a zero-sum game. Rush Rehm simplifies this definition of hubris to the contemporary concept of "insolence, contempt, and excessive violence".In Greek mythology, when a figure's hubris offends the pagan gods of ancient Greece, it is usually punished; examples of such hubristic, sinful humans include Icarus, Phaethon, Arachne, Salmoneus, Niobe, Cassiopeia, and Tereus. The concept of hubris is not only derived from Greek philosophy - as it is found in Plato and Aristotle - but also from the theatre, where it allows us to tell the story of great epics, where success goes up to the head of the hero, who claims to rise to the rank of gods; it is then ruthlessly put in its place by Nemesis, the goddess of vengeance. The Greek hybris refers to the excesses and their disastrous consequences.

 

In its modern usage, hubris denotes overconfident pride combined with arrogance.[10] Hubris is often associated with a lack of humility. Sometimes a person's hubris is also associated with ignorance. The accusation of hubris often implies that suffering or punishment will follow, similar to the occasional pairing of hubris and nemesis in Greek mythology. The proverb "pride goeth (goes) before destruction, a haughty spirit before a fall" (from the biblical Book of Proverbs, 16:18) is thought to sum up the modern use of hubris. Hubris is also referred to as "pride that blinds" because it often causes a committer of hubris to act in foolish ways that belie common sense.[11] In other words, the modern definition may be thought of as, "that pride that goes just before the fall."

Examples of hubris are often found in literature, most famously in John Milton's Paradise Lost, in which Lucifer attempts to compel the other angels to worship him, is cast into hell by God and the innocent angels, and proclaims: "Better to reign in hell than serve in heaven." Victor in Mary Shelley's Frankenstein manifests hubris in his attempt to become a great scientist by creating life through technological means, but comes to regret his project. Marlowe's play Doctor Faustus portrays the eponymous character as a scholar whose arrogance and pride compel him to sign a deal with the Devil, and retain his haughtiness until his death and damnation, despite the fact that he could easily have repented had he chosen to do so.

 

en.wikipedia.org/wiki/Hubris

 

Charisma, charm, the ability to inspire, persuasiveness, breadth of vision, willingness to take risks, grandiose aspirations and bold self-confidence—these qualities are often associated with successful leadership. Yet there is another side to this profile, for these very same qualities can be marked by impetuosity, a refusal to listen to or take advice and a particular form of incompetence when impulsivity, recklessness and frequent inattention to detail predominate. This can result in disastrous leadership and cause damage on a large scale. The attendant loss of capacity to make rational decisions is perceived by the general public to be more than ‘just making a mistake’. While they may use discarded medical or colloquial terms, such as ‘madness’ or ‘he's lost it’, to describe such behaviour, they instinctively sense a change of behaviour although their words do not adequately capture its essence. A common thread tying these elements together is hubris, or exaggerated pride, overwhelming self-confidence and contempt for others (Owen, 2006). How may we usefully think about a leader who hubristically abuses power, damaging the lives of others? Some see it as nothing more than the extreme manifestation of normal behaviour along a spectrum of narcissism. Others simply dismiss hubris as an occupational hazard of powerful leaders, politicians or leaders in business, the military and academia; an unattractive but understandable aspect of those who crave power. But the matter can be formulated differently so that it becomes appropriate to think of hubris in medical terms. It then becomes necessary first to rule out conditions such as bipolar (manic-depressive) disorder, in which grandiosity may be a prominent feature. From the medical perspective, a number of questions other than the practicalities of treatment can be raised. For example can physicians and psychiatrists help in identifying features of hubris and contribute to designing legislation, codes of practice and democratic processes to constrain some of its features? Can neuroscientists go further and discover through brain imaging and other techniques more about the presentations of abnormal personality? (Goodman et al., 2007).

 

We see the relevance of hubris by virtue of it being a trait or a propensity towards certain attitudes and behaviours. A certain level of hubris can indicate a shift in the behavioural pattern of a leader who then becomes no longer fully functional in terms of the powerful office held. First, several characteristics of hubris are easily thought of as adaptive behaviours either in a modified context or when present with slightly less intensity. The most illustrative such example is impulsivity, which can be adaptive in certain contexts. More detailed study of powerful leaders is needed to see whether it is mere impulsivity that leads to haphazard decision making, or whether some become impulsive because they inhabit a more emotional grandiose and isolated culture of decision making.

 

We believe that extreme hubristic behaviour is a syndrome, constituting a cluster of features (‘symptoms’) evoked by a specific trigger (power), and usually remitting when power fades. ‘Hubris syndrome’ is seen as an acquired condition, and therefore different from most personality disorders which are traditionally seen as persistent throughout adulthood. The key concept is that hubris syndrome is a disorder of the possession of power, particularly power which has been associated with overwhelming success, held for a period of years and with minimal constraint on the leader.

 

The ability to make swift decisions, sometimes based on little evidence, is of particular importance—arguably necessary—in a leader. Similarly, a thin-skinned person will not be able to stand the process of public scrutiny, attacks by opponents and back-stabbings from within, without some form of self-exultation and grand belief about their own mission and importance. Powerful leaders are a highly selected sample and many criteria of any syndrome based on hubris are those behaviours by which they are probably selected—they make up the pores of the filter through which such individuals must pass to achieve high office.

 

Hubris is associated in Greek mythology with Nemesis. The syndrome, however, develops irrespective of whether the individual's leadership is judged a success or failure; and it is not dependent on bad outcomes. For the purpose of clarity, given that these are retrospective judgements, we have determined that the syndrome is best confined to those who have no history of a major depressive illness that could conceivably be a manifestation of bipolar disorder.

 

Hubris is acquired, therefore, over a period. The full blown hubris, associated with holding considerable power in high office, may or may not be transient. There is a moving scale of hubris and no absolute cut-off in definition or the distinction from fully functional leadership. External events can influence the variation both in intensity and time of onset.

 

Dictators are particularly prone to hubris because there are few, if any, constraints on their behaviour. Here, this complex area is not covered but one of us has considered the matter elsewhere (Owen, 2008). Hitler's biographer, Ian Kershaw (1998, 2000), entitled his first volume 1889–1936 Hubris and the second 1936–1945 Nemesis. Stalin's hubris was not as marked or as progressive as Hitler's. As for Mussolini and Mao both had hubris but probably each also had bipolar disorder. Khrushchev was diagnosed as having hypomania and there is some evidence that Saddam Hussein had bipolar disease (Owen, 2008).

 

Being elected to high office for a democratic leader is a significant event. Subsequent election victories appear to increase the likelihood of hubristic behaviour becoming hubris syndrome. Facing a crisis situation such as a looming or actual war or facing potential financial disaster may further increase hubris. But only the more developed cases of hubris deserve classification as a syndrome exposed as an occupational hazard in those made vulnerable by circumstance.

 

Hubris syndrome and its characteristics

 

Unlike most personality disorders, which appear by early adulthood, we view hubris syndrome as developing only after power has been held for a period of time, and therefore manifesting at any age. In this regard, it follows a tradition which acknowledges the existence of pathological personality change, such as the four types in ICD-10: enduring personality change after trauma, psychiatric illness, chronic pain or unspecified type (ICD-10, 1994)—although ICD-10 implies that these four diagnoses are unlikely to improve.

 

Initially 14 symptoms constituting the hubristic syndrome were proposed (Owen, 2006). Now, we have shortened and tabulated these descriptions and mapped their broad affinities with the DSM IV criteria for narcissistic personality disorder, antisocial personality disorder and histrionic personality disorder. These three personality disorders also appear in ICD-10, although narcissistic personality disorder is presented in an appendix as a provisional condition, whose clinical or scientific status is regarded as uncertain. ICD-10 considers narcissistic personality disorder to be sufficiently important to warrant more study, but that it is not yet ready for international acceptance. In practice, the correlations are less precise than the table suggests and the syndrome better described by the broader patterns and descriptions that the individual criteria encapsulate.

 

Establishing the diagnostic features of hubris syndrome

 

The nosology of psychiatric illness depends on traditional criteria for placing diagnoses in a biomedical framework (Robins and Guze, 1970). There are, however, other underpinnings—psychological or sociological—that can be applied. Validity for a psychiatric illness involves assessing five phases: (i) clinical description; (ii) laboratory studies; (iii) defining boundaries vis-a-vis other disorders; (iv) follow-up study; and (v) family study. While these phases are worth analysing, it has to be recognized that there are severe limitations in rigidly applying such criteria to hubris syndrome given that so few people exercise real power in any society and the frequency amongst those ‘at-risk’ is low. The potential importance of the syndrome derives, however, from the extensive damage that can be done by the small number of people who are affected. As an investigative strategy, it may be that studies such as neuroimaging, family studies, or careful personality assessments in more accessible subjects with hubristic qualities or narcissistic personality disorder from other vulnerable groups might inform the validation process.

 

Proposed clinical features

 

Hubris syndrome was formulated as a pattern of behaviour in a person who: (i) sees the world as a place for self-glorification through the use of power; (ii) has a tendency to take action primarily to enhance personal image; (iii) shows disproportionate concern for image and presentation; (iv) exhibits messianic zeal and exaltation in speech; (v) conflates self with nation or organization; (vi) uses the royal ‘we’ in conversation; (vii) shows excessive self-confidence; (viii) manifestly has contempt for others; (ix) shows accountability only to a higher court (history or God); (x) displays unshakeable belief that they will be vindicated in that court; (xi) loses contact with reality; (xii) resorts to restlessness, recklessness and impulsive actions; (xiii) allows moral rectitude to obviate consideration of practicality, cost or outcome; and (xiv) displays incompetence with disregard for nuts and bolts of policy making.

 

In defining the clinical features of any disorder, more is required than simply listing the symptoms. In the case of hubris syndrome, a context of substantial power is necessary, as well as a certain period of time in power—although the length has not been specified, varying in the cases described from 1 to 9 years. The condition may have predisposing personality characteristics but it is acquired, that is its appearance post-dates the acquisition of power.

 

Establishment of the clinical features should include the demonstration of criterion reliability, exploration of a preferred threshold for the minimum number of features that must be present, and the measurement of symptoms (e.g. their presence or absence, and a severity scale). This endeavour may also include a decision as to whether the 14 criteria suggested might usefully be revised.

 

To determine whether hubris syndrome can be characterized biologically will be very difficult. It is the nature of leaders who have the syndrome that they are resistant to the very idea that they can be ill, for this is a sign of weakness. Rather, they tend to cover up illness and so would be most unlikely to submit voluntarily to any testing, e.g. the completion of scales measuring anxiety, neuroticism and impulsivity. Also the numbers of people with the syndrome is likely to be so small preventing the realistic application of statistical analyses. It also needs to be remembered that leaders are prone to using performance-enhancing drugs fashionable at the time. Two heads of government, Eden and Kennedy, were on amphetamines in the 1950s and 1960s. In the 21st century hubristic leaders are likely to be amongst the first to use the new category of so-called cognition enhancers. Many neuroscientists believe that such drugs properly used can be taken without harm. The problem is a leader who takes these without medical supervision and in combination with other substances or in dosages substantially above those that are recommended. In 2008, Nature carried out an informal survey of its mainly scientific readers and found that one in five of 1400 responders were taking stimulants and wake-promoting agents such as methylphenidate and modafinil, or β-blockers for non-medical reasons (Maher, 2008).

 

In defining the boundaries, one of the more important questions may be to understand whether hubris syndrome is essentially the same as narcissistic personality disorder (NPD), a subtype of NPD or a separate entity. As shown in Table 1, 7 of the 14 possible defining symptoms are also among the criteria for NPD in DSM-IV, and two correspond to those for antisocial personality and histrionic personality disorders (APD and HPD, respectively) (American Psychiatric Association, 2000). The five remaining symptoms are unique, in the sense they have not been classified elsewhere: (v) conflation of self with the nation or organization; (vi) use of the royal ‘we’; (x) an unshakable belief that a higher court (history or God) will provide vindication; (xii) restlessness, recklessness and impulsiveness; and (xiii) moral rectitude that overrides practicalities, cost and outcome.

 

academic.oup.com/brain/article/132/5/1396/354862/Hubris-s...

 

La Vie site cites the work of researcher Ian H. Robertson, who studied the effect of hubris on a fish species in Lake Tanganyka in Africa, on which the seizure of power triggers a hormonal reaction that changes their organism. The researcher explains that the situation is similar for humans, whose intelligence is multiplied tenfold by dopamine intake, but "too much dopamine will have harmful consequences. But absolute power floods the brain with dopamine. It also creates an addiction,"says the researcher. That is not all. Excessive self-confidence puts in place a mental mechanism that makes it impossible to assess oneself properly. The more you have a fair appreciation of your own qualities, the more modest you are. And you don't normally feel fit to become head of state,"explains Sebastian Dieguez, a neuroscience researcher at the University of Freiburg.

THE HAZZARD RANGE HERALD

With a light wind in the air and temps in the high 50s On Saturday evening Nov 26th ,2022, Hazzard Range county officials ,residents and visitors gathered at Government Center Park in Sparta, for the community Christmas tree lighting.

Local Resident and retired county Sheriff ( 1970-1982 ) Joe King Sr was given the honor of turning on the lights for the first time. This Year's lighting ceremony included Christmas music provided by KRTK radio , refreshments and Santa Claus.

 

The very last of several type B's I made over the years. I made this one in 2008.

 

One of the most recognizable buildings in Texas is the Alamo in downtown San Antonio Texas. It is known worldwide by its characteristic shape. The Alamo began as the Mission San Antonio de Valero, a Spanish Mission, in the early 1700's, one of the first in Texas. The establishment of this mission played a crucial role in the settlement of San Antonio, Texas and the Southwest. "Mission San Antonio de Valero" has not always been at this location. The original mission was founded near the headwaters of San Pedro Creek in 1718. In 1719 the mission was relocated a short distance to the south of where it sits today. A 1724 storm destroyed structures at the new site, prompting Spanish officials to relocate the mission to its present spot. It was the mission compound constructed here at the 1724 location that later gained fame as the Alamo. While this is the third spot for Mission San Antonio de Valero, it is the only place the "Alamo" has ever been.The San Antonio de Valero Mission was built to provide local indigenous people, or Indians, with protection from hostile tribes and conversion to the Catholic faith, the state religion of Spain at that time. Accordingly, the first residents of San Antonio de Valero were members of Native American tribes like the Payaya, Sama, Pachaque and other Coahuiltecan Indian tribes. Spanish missionaries provided religious services and directed the work of those residing inside the Mission. Those residents who died in the mission were often buried in front of the Church, according to Spanish tradition. Consequently, the area in front of the Alamo Shrine represented with a patch of green grass, the Campo Santo, is considered hallowed burial ground.

 

It's difficult to pinpoint when the Valero mission was first called "Alamo." In 1803 a company of Spanish soldiers arrived in San Antonio de Valero or Bejar, now simply known as San Antonio. They were housed in and around the mission, which became known as the Presidio de Bejar. Over time the presidio/mission became know as The Alamo and its garrison as The Alamo Company presumably because of a row of Cottonwood Trees nearby the Mission. Alamo means cottonwood tree in Spanish.

 

San Antonio de Bexar had long been an important place in Texas. Not only was it home to a military garrison, it was a crossroads and center of commerce. By the early 1830s, the town's population had grown to nearly 2,500. With the outbreak of revolt in Coahuila y Tejas, San Antonio even resumed its old role as the capital of Texas. San Antonio experienced two sieges and battles during the Texas Revolution. The first, the Siege and Battle of Bexar, began in late October 1835 after the incident in Gonzales when angry colonists and Tejanos followed the retreating Alamo Company back to San Antonio in the early stage of the revolution. When the Texian siege of the town stalled, soldier and empresario Ben Milam rallied a force on December 5 that fought its way into the center of San Antonio. After a bloody five-day, house-to-house fight, the Texians took control of the town and Mexican General Martin Perfecto de Cos surrendered the town and the public property it held. Thus, the rebels gained control of San Antonio and the Alamo.

 

The second battle occurred when the Mexican forces marched north to squash the rebellion and take back San Antonio de Bexar. On February 23, 1836, the arrival of General Antonio Lopez de Santa Anna's army outside San Antonio nearly caught the rebels by surprise. Undaunted, the Texians and Tejanos prepared to defend the Alamo together. Eventually the rebels retreated to the inside of the Alamo compound and the siege of the Alamo began. The defenders held out for 13 days against Santa Anna's army. William B. Travis, the commander of the Alamo sent forth couriers carrying pleas for help to communities in Texas. On the eighth day of the siege, a band of 32 volunteers from Gonzales arrived, bringing the number of defenders to nearly two hundred. Legend holds that with the possibility of additional help fading, Colonel Travis drew a line on the ground and asked any man willing to stay and fight to step over — all except one did.

As the defenders saw it, the Alamo was the key to the defense of Texas, and they were ready to give their lives rather than surrender their position to General Santa Anna. Among the Alamo's garrison were Jim Bowie, renowned knife fighter, and David Crockett, famed frontiersman and former congressman from Tennessee.

 

The final assault came before daybreak on the morning of March 6, 1836, as columns of Mexican soldiers emerged from the predawn darkness and headed for the Alamo's walls. Cannon and small arms fire from inside the Alamo beat back several attacks. Regrouping, the Mexicans scaled the walls and rushed into the compound.

 

Once inside, they turned a captured cannon on the Long Barrack and church, blasting open the barricaded doors. The desperate struggle continued until the defenders were overwhelmed. By sunrise, the battle had ended and Santa Anna entered the Alamo compound to survey the scene of his victory.

 

While the facts surrounding the siege of the Alamo continue to be debated, there is no doubt about what the battle has come to symbolize. People worldwide continue to remember the Alamo as a heroic struggle against impossible odds; a place where men made the ultimate sacrifice for freedom. For this reason, the Alamo remains hallowed ground and the Shrine of Texas Liberty.

 

The Alamo was designated a National Historical Landmark on December 19, 1960. National Historic Landmarks are on the National Register of Historic Places and have high historical significance. Out of more than 80,000 places on the National Register of Historic Places only about 2,430 are NHLs.

ODC-Balance

 

This is something I've seen in lawyer's offices. www.mylawquestions.com/what-are-the-scales-of-justice.htm

President of Ukraine Volodymyr Zelenskyy met with a delegation of the global parliamentary network United for Ukraine, which included representatives of the parliaments of 13 European countries and the European Parliament.

 

The Head of State noted that he was pleased to meet with friends of Ukraine who visit our country at such a crucial time and have been with it from the first moments of Russia's full-scale aggression.

"Thank you very much for your visit. It is an important signal of support. We are glad to have such wonderful partners who help our country not to lose its independence and the lives of our people. After all, people are our biggest priority," Volodymyr Zelenskyy emphasized.

The President emphasized the importance of armed, diplomatic, and sanctions support from the European community and thanked for the decisions taken to recognize the Holodomor of 1932-1933 as genocide of the Ukrainian people.

On this year’s traditional walk to visit the ‘Painted Ladies’ of historic Grimsby Beach (at the East end of Grimsby, Ontario and along the South shore of Lake Ontario) we had the good fortune to see them in the winter and got some images of them with snow. This is another of the cluster of Victorian-era gingerbread cottages that started to appear in this area in the 1880s as part of the conversion of tent sites to more permanent housing. The compact size of the cottages was dictated by the size of the tent sites and their cheek-by-jowl spacing stems from that same layout. This cottage is located at #17 Fair Avenue and this years colour scheme is blue-based, although, if you were to visit the site in daylight, you would see its over-the-top colour details. Owners of these cottages have adopted these colourful looks although, as I understand it, the colours were not quite this dramatic when they were first erected. The Boss and I headed out there a few hours before rain washed away the Christmas Day snowfall. In the morning only a little of the snow remained, certainly not enough to get a shot like this again before the decorations come down or, next Christmas. - JW

 

Date Taken: 2020-12-27

 

Tech Details:

 

Taken using a Tripod-mounted Nikon D800 fitted with an AF-S Nikkor 24-120mm 1:4.0 lense set to 44mm, ISO100, Tungsten WB, Matrix metering, Aperture Priority mode, f/5.6, 15 sec base and repeated at exposure biases of EV+/-1.0 for frames ranging from EV+2 to EV-2 to produce a sequence capturing the dynamic range of the scene with the intent of exposure blending in post. The 5 images were loaded into GIMP and the images were then added as layers to the reference layer image (EV+0.0 image) with the reference layer at the bottom of the stack, all other layers were manually aligned to the reference layer (which was a royal pain in the nether regions BTW), black/transparent layer masks were added to all layers but the reference layer a large paintbrush with white paint was used on the various masks to reveal the good portions of each exposure and a couple of layers were duplicated and had mask added to allow me to address some very localized issues, the result was then used to create a new layer from the visible result, some fine tuning of the overall tonality was done using the curves tool, sharpen slightly, save, scale to 6000px wide, sharpen slightly, save, add fine black-and-white frame, add bar and text on left, save, scale image to 3000 px wide for posting online, sharpen very slightly, save.

I haven't actually built one of of these in real LEGO bricks (I don't have all the requisite LEGO elements), but purportedly, all the pieces used in the construction of this model exist in real-life and are available for purchase in the secondary market.

 

This model is designed to accommodate a LEGO minifig in the rear crew compartment. It's about 1/48 scale, a complement to my design for the Jigabachi AV attack helicopter.

 

The funny thing about the head assembly that's started in Step 23 is that it's not attached by conventional LEGO clutch connections. It's trapped in place by some admittedly janky construction technique.

An HO scale model of Conrail's Philadelphia Division Safety On Rails Theater car.

This car was a staple at events in and around NJ in the 90s. I remember as a kid seeing it at the Hoboken Terminal festival along with its companion N21 Operation Lifesaver caboose. The car still exists today, painted and lettered TOYX 1775 for Operation Toy Train. It currently resides at the Port Jervis Transportation History Center. More info can be found here:

 

pjthc.org/1775

 

The model is built from a Tangent Scale Models undecorated PC version X58 kit. The only major modification was cutting out the door and sanding it to the correct thickness so it could be placed in the open position. The hinges also had to be cut and repositioned to match the open appearance. The car had some body panel repairs done and that was replicated with 0.05 styrene sheet. The former grab iron locations were also modified to match prototype photos. Grab Irons and steps were added by the doors along with matching the roof walk support arrangement to match photos. The AC was kit bashed from a Details West part and the brackets and lines are fabbed from brass. The car was painted with Tru-Color rich oxide brown and lettered with a mix of Microscale, CMR, and custom printed decals.

 

Replication of the interior was easy since the car still retains its original configuration. Unfortunately the only source I had on how it was originally decorated was from a couple of grainy videos I found on Youtube by user AviationMetalSmith. Where I could, the photos and posters are exact copies otherwise they are just a representation that looks close and conveys the original idea of the photo or sign, as one might imagine finding the exact photos is near impossible. I had no clear photos or video of the display on the wall with the open door so I was able to get a general idea by looking at the reflections in the glass from the other side. Again, the photos are just general images that just looked right. All of the interior artwork was done in Inkspace and printed out. The freebies on the countertop are pictures of actual items I have in my collection. The exterior decoration and signage is a mix of the way the car appeared at an event in Whippany NJ and the way its shown in the video at Hoboken NJ.

 

This model took many hours of research to even get close to looking right and I'd like to give a huge shoutout to Rudy Garbely and the Conrail Historical Society, Bryan at Eastern Seaboard Models, and the Port Jervis Transportation History Center for all the help. I couldn't have done this without your help, so Thanks!!