Technical ability aside, the difference is commitment. Some people look at whatever they do as a job and then they want to be good craftsmen. Then there are people who do it as a passion. They really care about it., and it shows in their photographs.

 

~ Mike Morse, Associated Press Guide to Photojournalism (Associated Press Handbooks) by Brian Horton , ISBN: 0071363874 , Page: 14

 

P.S. Non-HDR-processed / Non-GND-filtered ● Black Card Technique 黑卡作品

When Ollie's vet said that he would be back to full activity by September I was a little sceptical. He proved me wrong. On our first trip back to the cabin (just over 2 weeks post-op) he ran straight down to the water, waited for his kong then did this.

 

We picked up the life jacket in case he needed some help adjusting to three legged swimming. Seeing how well he did I'm not sure its necessary, but it should help him stay out longer without tiring.

ability slows, rather than returning / Far below the only road / alone, I drove and found Only loneliness, / beautiful, unique extinction

Polka - Foto para o Concurso Miss Blythe Brasil - Aptidão

----

Polka - Photo to the competition "Miss Blythe Brazil - Ability

Polka loves to paint and draw.

The ability of the little tern (Sterna albifrons) fishing is incredible. During the month of August they are feeding their chickens, some of which barely have a few days. Once caught the fish, he approaches the place where chicken is and calls a "krii" characteristic. Often no perches to feed the chickens.

 

La habilidad del charrancito (Sterna albifrons) para pescar es increíble. Durante el mes de agosto están alimentando a sus pollos, algunos de los cuales a penas tienen unos días. Una vez atrapado el pez, se acerca al lugar donde está la cría y la llama con un "krii" característico. A menudo ni siquiera se posa para entregar la presa a los pollos.

 

©ALL RIGHTS RESERVED. My pictures may not be downloaded, copied, published, reproduced, uploaded, edited or used in any way without my written permission

VL-700 Valefor

 

As part of the Lego Empire Strategic bombing triad, the VL-700 Valefor offers an intercontinental bombing ability together with a stealthy design and impressive firepower.

 

More images here; www.flickr.com/photos/einon/

The Valefor is the second largest bomber used by the Imperial Lego Air Force, (twice the size of the real world B-1B Lancer) and it’s among the heaviest combat aircrafts ever built. The VL-700 is designed for both high altitude (flying at over Mach 4,5) and low altitude penetration (at transonic speeds). The variable-geometry wings with their full-span leading-edge slats and trailing-edge double-slotted flaps, confer a useful combination benign low-speed handling and high supersonic speed. The VL-700 has a crew of 6, sitting side by side inside a small and special capsule. Both Pilot and Co-pilot are provided with fighter-type control columns since the Valefor is extremely manoeuvrable. The controls are fully digital and the “fly-by-wire” system is controlled by a Quantic computer, also used for electronic and ECW warfare. The crew is composed of one pilot, one co-pilot, two bombardiers/weapons officers, one navigator/Electronic Warfare operator and one defensive warfare officer. Valefor crews love the aircraft; it has a large compartment for the crew to rest, a galley and two toilets (for both male and female pilots).

 

In the front of the cockpit is the long, pointed radome for the terrain following and attack radar, with a fairing below it for the forward-looking TV camera used for visual weapon aiming. Intercontinental range is assured by the provision of a fully retractable in-flight refuelling probe.

Located in two nacelles under the inner wing section there are the eight V-5000 Ramjets engines of the Valefor, each delivering 150kN dry thrust and 350kN with afterburner each. So far, they are the most powerful jet engines used in the world, allowing the bomber to fly at the edge of space, almost immune to the enemy AA missiles. The bomber is so fast that no enemy fighter is able to catch it. However, Stealth is the most important asset for the survival of the VL-700.

The need to reduce RCS (radar cross-section) became increasingly important, achieved by paying the most careful attention to achieving a smooth unbroken external surface without cracks and by covering the exterior skin with RAM (radar-absorbent material).

Mounted under the tail is a battery of 250 chaff/flare dispensers. Built into the fuselage is also a defensive avionics, with receiver antennas and jammers located in the tail bullet fairing. The VL-700 also carries a 50mm Gatling radar controlled gun, used to fire both chaff/flares or real ammunition with proximity fuses. The Valefor also carries two defensive launchers for 60 short-range Viper-II air-to-air missiles.

 

The Valefor offensive warload is carried in two (sometimes three) tandem weapons bays in the belly, with a maximum load of 50 000kg of bombs internally. These can hold a very impressive array of weapons, from anti-ship guided cruise missiles to simple conventional bombs. The bomb bay doors are designed to reduce radar signature and are only opened for a few seconds while the bombs or missiles are dropped.

Six external hardpoints for 30 000 kg of ordnance are also carried, for a total maximum load of 80 000kg (although that rarely happens). These are very useful for tactical missions which do not require high speed penetration, although a Mach 4 evade speed can always be achieve, by ejecting the hardpoints. These are never carried on high-speed missions, which means that on long-range missions, the Valefor usually carries less than 50 000kg of ordnance.

 

The Naval Aviation version:

The Naval Aviation version of the Valefor, known as VL-700N is a long-range anti-ship version, which can also perform tactical/strategic bombing as well as anti-submarine warfare. For the Anti-ship mission, the naval version carries a forward firing 90mm automatic cannon, used against small ships. It can also carry the D.D.N. and D.D.B. anti-ships missiles as well as smaller missiles. This version carries the XF-3000 forward AESA radar, designed for tracking ships and guiding missiles against them.

For the anti-submarine role, the aircraft carries a MAD pod on the fin and a large launcher for sonobuoys. The XF-3000 radar can also detect submarines near or at the surface. Anti-submarine missiles like the Subkara Mk-1 (warhead: one 460mm torpedo) and Mk-2 (warhead: one 800mm torpedo) are carried inside the bomb bay, as well as 460mm and 800mm torpedos, mines and depth charges. Air-to-surface rockets can also be carried under the wings. The naval Valefor is also used for supporting naval landfelds and attacking convoys, together with the Ofnir, Gerifalte and Firestorm bombers.

 

Variants:

VL-700E: When designing the VL-700 Valefor, consideration was given to the problem of bomber survivability in a long, lonely flight across a zone of enemy fighter activity and air defence. Therefore the VL-700E was built, an escort plane designed to protect a group of bombers beyond the range of friendly fighters. In addition to a powerful set of electronic countermeasures, the aircraft also carried a larger number of Valkyria and Empire’s Spear Air-to-Air missiles.

 

Info: Valefor is the name of my favourite Aeon from Final Fantasy X.

More images here; www.flickr.com/photos/einon/

 

General Characteristics:

Type: Long-range Heavy bomber

Crew: 6

Length: 91,1 metros (mais do dobro do B-1BLancer);

Height: 18,09meters;

Wingspan:

Spread: 85meters;

Swept: 53,02 meters;

Empty Weight: 170 000kg

Loaded Weight: 302 000kg

Max. Takeoff weight: 341 000kg

Powerplant: Eight V-5000 Ramjets; 150kN dry thrust each; 350kN with afterburner, each;

 

Performance:

Maximum Speed: Mach 4,5 at 25 000m;

Cruise Speed: Mach 1,3 (Super-cruise);

Range: Classified

Service Ceiling: 25 000m;

Rate of Climb: 180 m/s;

 

Armament:

1 × 50 mm Gatling cannon in remotely controlled tail turret;

Two defensive launchers for 60 Viper II short rangers Air-to-Air missiles;

Six external hardpoints for 30 000 kg of ordnance and two or three internal bomb bays for 50,000 kg of ordnance; options include:

Air-to-air missiles:

8 AA-2020 Valkyria medium-short range missiles for self-defence.

8 AA-2040 “Empire’s Spear” medium-long range missiles;

Air-to-ground missiles:

24 D.D.N. heavy anti-ship missiles;

60 D.D.B. medium anti-ship missiles;

120 AT-2040 “Vulcan” air-to-ground tactical missiles;

12 AT-1500 “Titan” heavy air-to-ground tactical missiles;

8 Subkara Mk-2 anti-submarine missiles;

24 Subkara Mk-1 anti-submarine missiles;

Bombs:

48 “Excalibur” Anti-runway bombs;

12 Valhalla Television-guided glide bombs;

100 Conventional 500kg bombs;

4 Thermobaric 10 000kg bombs;

Various unguided and Cluster bombs, Laser-guided bombs, Napalm, as well as tactical termo-nuclear bombs.

Others:

ECM protection pod, Pave Spike Laser designator pod, Buddy refuelling pack or 5 Drop tanks for extended range/loitering time;

 

Hope you like it!

More images here; www.flickr.com/photos/einon/

 

Eínon

 

What was the trawler ABILITY is pictured arriving in the Port of Hartlepool with 'Guard' titles and named RESILIENT on November 7th 2024.

These guys and more where hanging around the house this afternoon, So I grabbed some shots as the light faded, to test out my long lenses ability with the 1.4xTC . I had to lots of post processing on some of them, most just bring up the exposure.

BOX DATE: 2015

MANUFACTURER: Mattel

VARIATIONS: Blonde; brunette; African American

BODY TYPE: 2015; curved arms; molded bodice, tights, & slippers; straight, non-bending legs

HEAD MOLD: 2001 "Adria/Desiree"

 

***My doll is wearing a handmade tutu over her original skirt.

 

PERSONAL FUN FACT: This Barbie is absolutely stunning! I never would have taken any notice of her in stores, which is such a shame. To be honest, her molded ballerina ensemble and basic packaging doesn't do her any justice. She's the kind of doll that's easy to write off as gimmicky and cheap. However, when one of my sister's coworkers offered to give us a handful of dolls in early 2021, we were happy to accept any who were in need of a new home. This Ballerina Barbie and a few others were no longer wanted by Colleen's coworker's daughter. She was actually quite surprised that anyone would want her old, "useless" dolls. I had an idea of who were were getting, because Colleen had received an email with a picture of the dollies. I knew before they'd even arrived that I would be making some tutus by hand for some of the girls. While I do have some authentic Barbie tutus, I don't have oodles of spares, nor are they always in the color/size I need. Anyways, this was my favorite Barbie from the group (there were three altogether--most were Disney dolls). As a kid, I would have desperately wanted to rebody this Barbie so I could play with her normally. The curved arms and molded features would have hindered my ability to dress this gal however I wanted. As an adult collector, I can appreciate lady just as she is. Sadly, these Barbies are quite cheaply made--this poor lady's shoulder literally started to crack simply by me trying to remove her factory elastic that was wound around them. I'm glad she got to go into early retirement, because I don't think she would have survived rough child's play!

JOINT BASE PEARL HARBOR-HICKAM (March 17, 2022) Lt. Macklen Lethin, from Honolulu, Hawaii, assigned to the Virginia-class fast-attack submarine USS Minnesota (SSN 783) reunites with his children on the submarine piers at Joint Base Pearl Harbor-Hickam after Minnesota completed a change of homeport from Groton, Connecticut. The submarine’s ability to support a multitude of missions, including anti-submarine warfare, anti-surface warfare, strike warfare, and surveillance and reconnaissance has made Minnesota one of the most capable and advanced submarines in the world. (U.S. Navy photo by Mass Communication Specialist 1st Class Michael B. Zingaro)

Marines serving with 1st Marine Expeditionary Brigade march at Washington Square Park during the 143rd Annual Italian Heritage Parade, Oct. 9, 2011. Marines and sailors with the expeditionary brigade traveled to San Francisco in the USS Bonhomme Richard to participate in Fleet Week to showcase the Navy and Marine Corps’ amphibious nature, readiness and ability to respond to disasters. Photo Sgt. Jimmy D. Shea

A Marine Iguana posing on a sign on South Plaza Island.

 

Marine Iguana

The Marine Iguana (Amblyrhynchus cristatus) is an iguana found only on the Galapagos Islands that has the ability, unique among modern lizards, to live and forage in the sea. It has spread to all the islands in the archipelago, and is sometimes called the Galapagos Marine Iguana. It mainly lives on the rocky Galapagos shore, but can also be spotted in marshes and mangrove beaches. On his visit to the islands, Charles Darwin was revolted by the animals' appearance, writing “The black Lava rocks on the beach are frequented by large (2-3 ft), disgusting clumsy Lizards. They are as black as the porous rocks over which they crawl & seek their prey from the Sea. I call them 'imps of darkness'. They assuredly well become the land they inhabit.” In fact, Amblyrhynchus cristatus is not always black; the young have a lighter coloured dorsal stripe, and some adult specimens are grey. The reason for the sombre tones is that the species must rapidly absorb heat to minimize the period of lethargy after emerging from the water. They feed almost exclusively on marine algae, expelling the excess salt from nasal glands while basking in the sun, and the coating of salt can make their faces appear white. In adult males, coloration varies with the season. Breeding-season adult males on the southern islands are the most colorful and will acquire reddish and teal-green colors, while on Santa Cruz they are brick red and black, and on Fernandina they are brick red and dull greenish. Another difference between the iguanas is size, which is different depending on the island the individual iguana inhabits. The iguanas living on the islands of Fernandina and Isabela (named for the famous rulers of Spain) are the largest found anywhere in the Galápagos. On the other end of the spectrum, the smallest iguanas are found on the island on Genovesa. Adult males are approximately 1.3 m long, females 0.6 m, males weigh up to 1.5 kg. On land, the marine iguana is rather a clumsy animal, but in the water it is a graceful swimmer, using its powerful tail to propel itself. As an exothermic animal, the marine iguana can spend only a limited time in the cold sea, where it dives for algae. However, by swimming only in the shallow waters around the island they are able to survive single dives of up to half an hour at depths of more than 15 m. After these dives, they return to their territory to bask in the sun and warm up again. When cold, the iguana is unable to move effectively, making them vulnerable to predation, so they become highly aggressive before heating up (since they are unable to run away they try to bite attackers in this state). During the breeding season, males become highly territorial. The males assemble large groups of females to mate with, and guard them against other male iguanas. However, at other times the species is only aggressive when cold. Marine iguanas have also been found to change their size to adapt to varying food conditions. During El Niño conditions when the algae that the iguanas feed on was scarce for a period of two years, some were found to decrease their length by as much as 20%. When food conditions returned to normal, the iguanas returned to their pre-famine size. It is speculated that the bones of the iguanas actually shorten as a shrinkage of connective tissue could only account for a 10% length change. Researchers theorize that land and marine iguanas evolved from a common ancestor since arriving on the islands from South America, presumably by driftwood. It is thought that the ancestral species inhabited a part of the volcanic archipelago that is now submerged. A second school of thought holds that the Marine iguana may have evolved from a now extinct family of seagoing reptiles. Its generic name, Amblyrhynchus, is a combination of two Greek words, Ambly- from Amblus meaning "blunt" and rhynchus meaning "snout". Its specific name is the Latin word cristatus meaning "crested," and refers to the low crest of spines along the animal's back. Amblyrhynchus is a monotypic genus in that Amblyrhynchus cristatus is the only species which belongs to it at this point in time. This species is completely protected under the laws of Ecuador. El Niño effects cause periodic declines in population, with high mortality, and the marine iguana is threatened by predation by exotic species. The total population size is unknown, but is, according to IUCN, at least 50,000, and estimates from the Charles Darwin Research Station are in the hundreds of thousands. The marine iguanas have not evolved to combat newer predators. Therefore, cats and dogs eat both the young iguanas and dogs will kill adults due to the iguanas' slow reflex times and tameness. Dogs are especially common around human settlements and can cause tremendous predation. Cats are also common in towns, but they also occur in numbers in remote areas where they take a toll on iguanas.

 

South Plaza Island

South Plaza is a small island off the east coast of Santa Cruz in the Galapagos Islands. It has an area of 0.13 km˛ and a maximum altitude of 23 meters. The island south plaza was formed by lava up streaming from the bottom of the ocean. Despite its small size it is home to a large number of species and it is famous for its extraordinary flora. That is why this island is very popular with visitors. On the steep banks it is possible to see a great number of birds such as nesting Red-billed Tropicbirds and Swallow-tailed Gulls, but most of all, enjoying the beautiful view from atop the steep banks or strolling along the base of the cliff is an extremely pleasurable experience. Very attractive are the beautiful prickly pear cactus trees and of course the large colony of Galapagos Land Iguanas. Depending on the season, the Sesuvium ground vegetation changes its color from intense green in the rainy season to orange and purple in the dry season.

 

Galapagos Islands

The Galápagos Islands (official name: Archipiélago de Colón; other Spanish names: Islas de Colón or Islas Galápagos) are an archipelago of volcanic islands distributed around the equator in the Pacific Ocean, some 900 km west of Ecuador. It is a UNESCO World Heritage site: wildlife is its most notable feature. Because of the only very recent arrival of man the majority of the wildlife has no fear of humans and will allow visitors to walk right up them, often having to step over Iguanas or Sea Lions.The Galápagos islands and its surrounding waters are part of a province, a national park, and a biological marine reserve. The principal language on the islands is Spanish. The islands have a population of around 40,000, which is a 40-fold expansion in 50 years. The islands are geologically young and famed for their vast number of endemic species, which were studied by Charles Darwin during the voyage of the Beagle. His observations and collections contributed to the inception of Darwin's theory of evolution by natural selection.

Publication History

 

The Puppet Master (Philip Masters) is a supervillain appearing in American comic books published by Marvel Comics.

 

The Puppet Master uses radioactive clay to make puppets in the likenesses of real people, whom he can then control by attaching the clay puppets to strings and moving them about. Presumably he has some sort of psionic ability that enables him to do this. He has a deep hatred of the Thing, who is romantically interested in his stepdaughter, Alicia Masters. He once tried to take over the world but was thwarted in this effort by the Fantastic Four.

 

The Puppet Master's first appearance was in Fantastic Four #8 (November 1962), and he was created by Stan Lee and Jack Kirby. His last name, Masters, was revealed in the letters page of Fantastic Four #42 (Sept. 1965), as suggested by a reader, who was given a No-Prize for her service to Marvel. The Puppet Master's origin is told in Marvel Team-Up #6 (January 1973).

 

Character Biography

 

Phillip Masters was born in Transia, nearby Wundagore Mountain. He began his molding when his Uncle Andrew gave him a whittling knife and he became excellent at carving, which became his hobby as he was not a popular child. His mother died while he was very young and his father put him in an orphanage.

 

Flashbacks to his childhood have revealed neighbor girl Jessica Drew (later Spider-Woman) as a childhood friend. They played with the clay of Wundagore which Philip would use for his experiments in adult life. The clay became the only thing that gave him happiness.

 

Phillip moved to the US from the Balkan country of Transia at a young age. He found it hard to form relationships in America because of his reclusive personality and cultural differences. He became a brilliant biologist and became partners with Jacob Reiss, his only true friend. Masters soon became jealous of Reiss' success and ended up killing him when he tried robbing their lab.

 

During this robbery, he caused an explosion at the lab that caused Reiss' daughter, Alicia, to lose her sight. Masters soon married Reiss' widow, Marcia, and became Alicia's stepfather. Eventually Marcia died from the after effects of the explosion that blinded Alicia. Puppet Master swore to find a way to restore Alicia's sight, but has had no success.

 

The Puppet Master

 

Masters one day discovered some radioactive clay. With the clay, he could create sculptures and control other people. This was when the Puppet Master was born. In the beginning he used the innocent Alicia to help him try to defeat the Fantastic Four, the only ones who could stop him and his evil plans.

 

He captured Susan Storm quite easily by flooding the room with ether and with the help of the Thing. Under the Puppet Master's control, the Thing refused to help the blonde girl. He then dressed Alicia Masters up to look like the Invisible Girl and sent her, along with the Thing, to go back to the Fantastic Four headquarters, meanwhile keeping Susan Storm as his hostage.

 

When the Fantastic Four came to try and rescue their captive partner, the Puppet Master placed the bound girl on his winged horse and flew off with her. Fortunately for the Invisible Girl, Mr. Fantastic was able to stretch far enough and save her. Controlling them with his clay, Alicia eventually assisted the Four in defeating her stepfather.

 

Months later, the Puppet Master was released from a rest home where he had been biding his time and immediately began planning his revenge on the Fantastic Four.

 

Using his clay, he decided to use one of the Four's greatest foes - Namor the Sub-Mariner. He uses Namor to lure the Invisible Woman to him. Namor captures her and forces the remainder of the team to try to rescue her from Namor's undersea lair.

 

The Puppet Master decides to only control Namor, planning to use him to defeat his enemies and gain further satisfaction from it. But the mind controlled Namor is defeated. In his submarine, the Puppet Master is attacked by a giant octopus and his ship taken in it's tentacles.

 

Even with Alicia knowing that he is a terrible person and distancing herself from him, the Puppet Master is still shocked of her love for the Thing. Eventually, Masters was able to see that the feelings Alicia and the Thing shared were genuine.

 

Decent Into Insanity

 

The radioactive clay seemed to affect Phillip in the same way he used it on others. It eventually drove him mad, making him even speak with the clay. It was all that mattered to him and, in a way, made him the puppet.

 

Masters slipped deeper into to insanity when he kidnapped Alicia and had Dr. Saunders, a surgical ophthalmologist, perform a series of eye transplants. Each surgery gave Alicia sight for a number of hours of vision. Masters was able to procure these eyes by kidnapping and murdering a series of young woman.

 

Eventually, Masters decided that the superhuman nature of Invisible Woman could make for a more permanent eye transplant solution. He was stopped by his daughter who used a puppet she molded of him to break his hands, but not before Alicia provided some extremely suspenseful scenes by standing over an unconscious Susan Storm with a knife and thinking that Susan's eyes might actually give her permanent sight. He was committed to a psychiatric hospital.

 

Creations for Good

 

When he was released, he gave up his criminal ways. He was the Puppet Master no longer. He was able to stay away from the radioactive clay and make small figurines which he sold at craft fairs and through the mail. He was visited one day by Alicia and the Silver Surfer.

 

The Surfer requested that he make him a copy of himself with the psychogenic clay. Phillip refused, but when the Surfer suggested Alicia sculpt it for him, he agreed so that Alicia would not become affected by it. Being around the clay instantly brought him back to his love for the clay. He created the Clay Surfer and the Silver Surfer made a exact copy of himself with his Power Cosmic in order to get through an emotional barrier.

 

The Clay Surfer went rogue. When it exploded and took the real Surfer and Alicia through time, Phillip was left alone. It was then that he was attacked and kidnapped by Sorrentino and the Gangers, along with the inanimate body of the Clay Surfer.

 

They took him to the Satori and told him that he would help lure their 'Cosmic Messiah', the Silver Surfer. His old friend and colleague Alexei Ganger was the one behind the operation and he planned to make Earth a utopia. When the Silver Surfer arrived, he refused to take part in their worship and destroyed the Clay Surfer. But Phillip was obsessed and tried to save his creation. He was dying and the Silver Surfer helped to revive him. Phillip had to make a choice and he chose life.

 

Atonement

 

He wished to atone for his past sins. But, at the moment, Alicia was not interested in reconciling with him. He remained behind with Ganger at the Satori, Ganger planning for him to make another Cosmic Messiah from clay since the Surfer refused them. Phillip succeeded in his task and a new Cosmic Messiah was born.

 

Powers

 

Puppet Master has the ability to create sculptures of people out of radioactive clay and control their thoughts and actions. He attaches strings to his creations and controls them like marionettes.

  

⚡ Happy 🎯 Heroclix 💫 Friday! 👽

_____________________________

 

A year of the shows and performers of the Bijou Planks Theater.

 

Secret Identity: Philip Masters

 

Publisher: Marvel

 

First Appearance: Fantastic Four #8 (Nov. 1962)

 

Created by: Stan Lee (writer)

Jack Kirby (artist)

 

Covent Garden (/ˈkɒvənt/) is a district in London on the eastern fringes of the West End, between St. Martin's Lane and Drury Lane. It is associated with the former fruit and vegetable market in the central square, now a popular shopping and tourist site, and the Royal Opera House, which is also known as "Covent Garden". The district is divided by the main thoroughfare of Long Acre, north of which is given over to independent shops centred on Neal's Yard and Seven Dials, while the south contains the central square with its street performers and most of the elegant buildings, theatres and entertainment facilities, including the Theatre Royal, Drury Lane, and the London Transport Museum.

 

Though mainly fields until the 16th century, the area was briefly settled when it became the heart of the Anglo-Saxon trading town of Lundenwic. After the town was abandoned, part of the area was walled off by 1200 for use as arable land and orchards by Westminster Abbey, and was referred to as "the garden of the Abbey and Convent". The land, now called "the Covent Garden", was seized by Henry VIII, and granted to the Earls of Bedford in 1552. The 4th Earl commissioned Inigo Jones to build some fine houses to attract wealthy tenants. Jones designed the Italianate arcaded square along with the church of St Paul's. The design of the square was new to London, and had a significant influence on modern town planning, acting as the prototype for the laying-out of new estates as London grew. A small open-air fruit and vegetable market had developed on the south side of the fashionable square by 1654. Gradually, both the market and the surrounding area fell into disrepute, as taverns, theatres, coffee-houses and brothels opened up; the gentry moved away, and rakes, wits and playwrights moved in. By the 18th century it had become a well-known red-light district, attracting notable prostitutes. An Act of Parliament was drawn up to control the area, and Charles Fowler's neo-classical building was erected in 1830 to cover and help organise the market. The area declined as a pleasure-ground as the market grew and further buildings were added: the Floral Hall, Charter Market, and in 1904 the Jubilee Market. By the end of the 1960s traffic congestion was causing problems, and in 1974 the market relocated to the New Covent Garden Market about three miles (5 km) south-west at Nine Elms. The central building re-opened as a shopping centre in 1980, and is now a tourist location containing cafes, pubs, small shops, and a craft market called the Apple Market, along with another market held in the Jubilee Hall.

 

Covent Garden, with the postcode WC2, falls within the London boroughs of Westminster and Camden, and the parliamentary constituencies of Cities of London and Westminster and Holborn and St Pancras. The area has been served by the Piccadilly line at Covent Garden tube station since 1907; the journey from Leicester Square, at 300 yards, is the shortest in London.

 

Early history

 

The route of the Strand on the southern boundary of what was to become Covent Garden was used during the Roman period as part of a route to Silchester, known as "Iter VII" on the Antonine Itinerary. Excavations in 2006 at St Martin-in-the-Fields revealed a Roman grave, suggesting the site had sacred significance. The area to the north of the Strand was long thought to have remained as unsettled fields until the 16th century, but theories by Alan Vince and Martin Biddle that there had been an Anglo-Saxon settlement to the west of the old Roman town of Londinium were borne out by excavations in 1985 and 2005. These revealed Covent Garden as the centre of a trading town called Lundenwic, developed around 600 AD, which stretched from Trafalgar Square to Aldwych. Alfred the Great gradually shifted the settlement into the old Roman town of Londinium from around 886 AD onwards, leaving no mark of the old town, and the site returned to fields.

 

Around 1200 the first mention of an abbey garden appears in a document mentioning a walled garden owned by the Benedictine monks of the Abbey of St. Peter, Westminster. A later document, dated between 1250 and 1283, refers to "the garden of the Abbot and Convent of Westminster". By the 13th century this had become a 40-acre (16 ha) quadrangle of mixed orchard, meadow, pasture and arable land, lying between modern-day St. Martin's Lane and Drury Lane, and Floral Street and Maiden Lane. The use of the name "Covent"—an Anglo-French term for a religious community, equivalent to "monastery" or "convent" —appears in a document in 1515, when the Abbey, which had been letting out parcels of land along the north side of the Strand for inns and market gardens, granted a lease of the walled garden, referring to it as "a garden called Covent Garden". This is how it was recorded from then on.

 

The Bedford Estate (1552–1918)

 

After the Dissolution of the Monasteries in 1540, Henry VIII took for himself the land belonging to Westminster Abbey, including the convent garden and seven acres to the north called Long Acre; and in 1552 his son, Edward VI, granted it to John Russell, 1st Earl of Bedford. The Russell family, who in 1694 were advanced in their peerage from Earl to Duke of Bedford, held the land from 1552 to 1918.

 

Russell had Bedford House and garden built on part of the land, with an entrance on the Strand, the large garden stretching back along the south side of the old walled-off convent garden. Apart from this, and allowing several poor-quality tenements to be erected, the Russells did little with the land until the 4th Earl of Bedford, Francis Russell, an active and ambitious businessman, commissioned Inigo Jones in 1630 to design and build a church and three terraces of fine houses around a large square or piazza. The commission had been prompted by Charles I taking offence at the condition of the road and houses along Long Acre, which were the responsibility of Russell and Henry Carey, 2nd Earl of Monmouth. Russell and Carey complained that under the 1625 Proclamation concerning Buildings, which restricted building in and around London, they could not build new houses; the King then granted Russell, for a fee of £2,000, a licence to build as many new houses on his land as he "shall thinke fitt and convenient". The church of St Paul's was the first building, begun in July 1631 on the western side of the square. The last house was completed in 1637.

 

The houses initially attracted the wealthy, though when a market developed on the south side of the square around 1654, the aristocracy moved out and coffee houses, taverns, and prostitutes moved in. The Bedford Estate was expanded in 1669 to include Bloomsbury, when Lord Russell married Lady Rachel Vaughan, one of the daughters of the 4th Earl of Southampton.

 

By the 18th century, Covent Garden had become a well-known red-light district, attracting notable prostitutes such as Betty Careless and Jane Douglas. Descriptions of the prostitutes and where to find them were provided by Harris's List of Covent Garden Ladies, the "essential guide and accessory for any serious gentleman of pleasure". In 1830 a market hall was built to provide a more permanent trading centre. In 1913, Herbrand Russell, 11th Duke of Bedford agreed to sell the Covent Garden Estate for £2 million to the MP and land speculator Harry Mallaby-Deeley, who sold his option in 1918 to the Beecham family for £250,000.

 

Modern changes

 

Charles Fowler's 1830 neo-classical building restored as a retail market.

The Covent Garden Estate was part of Beecham Estates and Pills Limited from 1924 to 1928, after which time it was managed by a successor company called Covent Garden Properties Company Limited, owned by the Beechams and other private investors. This new company sold some properties at Covent Garden, while becoming active in property investment in other parts of London. In 1962 the bulk of the remaining properties in the Covent Garden area, including the market, were sold to the newly established government-owned Covent Garden Authority for £3,925,000.

 

By the end of the 1960s, traffic congestion had reached such a level that the use of the square as a modern wholesale distribution market was becoming unsustainable, and significant redevelopment was planned. Following a public outcry, buildings around the square were protected in 1973, preventing redevelopment. The following year the market moved to a new site in south-west London. The square languished until its central building re-opened as a shopping centre in 1980. An action plan was drawn up by Westminster Council in 2004 in consultation with residents and businesses to improve the area while retaining its historic character. The market buildings, along with several other properties in Covent Garden, were bought by a property company in 2006.

 

Geography

 

Historically, the Bedford Estate defined the boundary of Covent Garden, with Drury Lane to the east, the Strand to the south, St. Martin's Lane to the west, and Long Acre to the north. However, over time the area has expanded northwards past Long Acre to High Holborn, and since 1971, with the creation of the Covent Garden Conservation Area which incorporated part of the area between St Martins Lane and Charring Cross Road, the Western boundary is sometimes considered to be Charring Cross Road. Shelton Street, running parallel to the north of Long Acre, marks the London borough boundary between Camden and Westminster. Long Acre is the main thoroughfare, running north-east from St Martin's Lane to Drury Lane.

 

The area to the south of Long Acre contains the Royal Opera House, the market and central square, and most of the elegant buildings, theatres and entertainment facilities, including the Theatre Royal, Drury Lane, and the London Transport Museum; while the area to the north of Long Acre is largely given over to independent retail units centred on Neal Street, Neal's Yard and Seven Dials; though this area also contains residential buildings such as Odhams Walk, built in 1981 on the site of the Odhams print works, and is home to over 6,000 residents.

 

Governance

The Covent Garden estate was originally under the control of Westminster Abbey and lay in the parish of St Margaret. During a reorganisation in 1542 it was transferred to St Martin in the Fields, and then in 1645 a new parish was created, splitting governance of the estate between the parishes of St Paul Covent Garden and St Martin, both still within the Liberty of Westminster. St Paul Covent Garden was completely surrounded by the parish of St Martin in the Fields. It was grouped into the Strand District in 1855 when it came within the area of responsibility of the Metropolitan Board of Works.

 

In 1889 the parish became part of the County of London and in 1900 it became part of the Metropolitan Borough of Westminster. It was abolished as a civil parish in 1922. Since 1965 Covent Garden falls within the London boroughs of Westminster and Camden, and is in the Parliamentary constituencies of Cities of London and Westminster and Holborn and St Pancras. For local council elections it falls within the St James's ward for Westminster, and the Holborn and Covent Garden ward for Camden.

 

Economy

 

The area's historic association with the retail and entertainment economy continues. In 1979, Covent Garden Market reopened as a retail centre; in 2010, the largest Apple Store in the world opened in The Piazza. The central hall has shops, cafes and bars alongside the Apple Market stalls selling antiques, jewellery, clothing and gifts; there are additional casual stalls in the Jubilee Hall Market on the south side of the square. Long Acre has a range of clothes shops and boutiques, and Neal Street is noted for its large number of shoe shops. London Transport Museum and the side entrance to the Royal Opera House box office and other facilities are also located on the square. During the late 1970s and 1980s the Rock Garden music venue was popular with up and coming punk rock and New Wave artists.

 

The market halls and several other buildings in Covent Garden were bought by CapCo in partnership with GE Real Estate in August 2006 for £421 million, on a 150-year head lease. The buildings are let to the Covent Garden Area Trust, who pay an annual peppercorn rent of one red apple and a posy of flowers for each head lease, and the Trust protects the property from being redeveloped. In March 2007 CapCo also acquired the shops located under the Royal Opera House. The complete Covent Garden Estate owned by CapCo consists of 550,000 sq ft (51,000 m2), and has a market value of £650 million.

 

Landmarks

 

The Royal Opera House, often referred to as simply "Covent Garden", was constructed as the "Theatre Royal" in 1732 to a design by Edward Shepherd. During the first hundred years or so of its history, the theatre was primarily a playhouse, with the Letters Patent granted by Charles II giving Covent Garden and Theatre Royal, Drury Lane exclusive rights to present spoken drama in London. In 1734, the first ballet was presented; a year later Handel's first season of operas began. Many of his operas and oratorios were specifically written for Covent Garden and had their premières here. It has been the home of The Royal Opera since 1945, and the Royal Ballet since 1946.

 

The current building is the third theatre on the site following destructive fires in 1808 and 1857. The façade, foyer and auditorium were designed by Edward Barry, and date from 1858, but almost every other element of the present complex dates from an extensive £178 million reconstruction in the 1990s. The Royal Opera House seats 2,268 people and consists of four tiers of boxes and balconies and the amphitheatre gallery. The stage performance area is roughly 15 metres square. The main auditorium is a Grade 1 listed building. The inclusion of the adjacent old Floral Hall, previously a part of the old Covent Garden Market, created a new and extensive public gathering place. In 1779 the pavement outside the playhouse was the scene of the murder of Martha Ray, mistress of the Earl of Sandwich, by her admirer the Rev. James Hackman.

 

Covent Garden square

 

Balthazar Nebot's 1737 painting of the square before the 1830 market hall was constructed.

The central square in Covent Garden is simply called "Covent Garden", often marketed as "Covent Garden Piazza" to distinguish it from the eponymous surrounding area. Laid out in 1630, it was the first modern square in London, and was originally a flat, open space or piazza with low railings. A casual market started on the south side, and by 1830 the present market hall was built. The space is popular with street performers, who audition with the site's owners for an allocated slot. The square was originally laid out when the 4th Earl of Bedford, Francis Russell, commissioned Inigo Jones to design and build a church and three terraces of fine houses around the site of a former walled garden belonging to Westminster Abbey. Jones's design was informed by his knowledge of modern town planning in Europe, particularly Piazza d'Arme, in Leghorn, Tuscany, Piazza San Marco in Venice, Piazza Santissima Annunziata in Florence, and the Place des Vosges in Paris. The centrepiece of the project was the large square, the concept of which was new to London, and this had a significant influence on modern town planning in the city,[56] acting as the prototype for the laying-out of new estates as the metropolis grew. Isaac de Caus, the French Huguenot architect, designed the individual houses under Jones's overall design.

 

The church of St Paul's was the first building, and was begun in July 1631 on the western side of the square. The last house was completed in 1637. Seventeen of the houses had arcaded portico walks organised in groups of four and six either side of James Street on the north side, and three and four either side of Russell Street. These arcades, rather than the square itself, took the name Piazza; the group from James Street to Russell Street became known as the "Great Piazza" and that to the south of Russell Street as the "Little Piazza". None of Inigo Jones's houses remain, though part of the north group was reconstructed in 1877–79 as Bedford Chambers by William Cubitt to a design by Henry Clutton.

 

Covent Garden market

 

The first record of a "new market in Covent Garden" is in 1654 when market traders set up stalls against the garden wall of Bedford House. The Earl of Bedford acquired a private charter from Charles II in 1670 for a fruit and vegetable market, permitting him and his heirs to hold a market every day except Sundays and Christmas Day. The original market, consisting of wooden stalls and sheds, became disorganised and disorderly, and the 6th Earl requested an Act of Parliament in 1813 to regulate it, then commissioned Charles Fowler in 1830 to design the neo-classical market building that is the heart of Covent Garden today. The contractor was William Cubitt and Company. Further buildings were added—the Floral hall, Charter Market, and in 1904 the Jubilee Market for foreign flowers was built by Cubitt and Howard.

 

By the end of the 1960s, traffic congestion was causing problems for the market, which required increasingly large lorries for deliveries and distribution. Redevelopment was considered, but protests from the Covent Garden Community Association in 1973 prompted the Home Secretary, Robert Carr, to give dozens of buildings around the square listed-building status, preventing redevelopment. The following year the market relocated to its new site, New Covent Garden Market, about three miles (5 km) south-west at Nine Elms. The central building re-opened as a shopping centre in 1980, with cafes, pubs, small shops and a craft market called the Apple Market. Another market, the Jubilee Market, is held in the Jubilee Hall on the south side of the square. The market halls and several other buildings in Covent Garden have been owned by the property company Capital & Counties Properties (CapCo) since 2006.

 

Theatre Royal, Drury Lane

 

The current Theatre Royal on Drury Lane is the most recent of four incarnations, the Second of which opened in 1663, making it the oldest continuously used theatre in London. For much of its first two centuries, it was, along with the Royal Opera House, a patent theatre granted rights in London for the production of drama, and had a claim to be one of London's leading theatres. The first theatre, known as "Theatre Royal, Bridges Street", saw performances by Nell Gwyn and Charles Hart. After it was destroyed by fire in 1672, English dramatist and theatre manager Thomas Killigrew engaged Christopher Wren to build a larger theatre on the same spot, which opened in 1674. This building lasted nearly 120 years, under leadership including Colley Cibber, David Garrick, and Richard Brinsley Sheridan. In 1791, under Sheridan's management, the building was demolished to make way for a larger theatre which opened in 1794; but that survived only 15 years, burning down in 1809. The building that stands today opened in 1812. It has been home to actors as diverse as Shakespearean actor Edmund Kean, child actress Clara Fisher, comedian Dan Leno, the comedy troupe Monty Python (who recorded a concert album there), and musical composer and performer Ivor Novello. Since November 2008 the theatre has been owned by composer Andrew Lloyd Webber and generally stages popular musical theatre. It is a Grade I listed building.

 

London Transport Museum

 

The London Transport Museum is in a Victorian iron and glass building on the east side of the market square. It was designed as a dedicated flower market by William Rogers of William Cubitt and Company in 1871, and was first occupied by the museum in 1980. Previously the transport collection had been held at Syon Park and Clapham. The first parts of the collection were brought together at the beginning of the 20th century by the London General Omnibus Company (LGOC) when it began to preserve buses being retired from service. After the LGOC was taken over by the London Electric Railway (LER), the collection was expanded to include rail vehicles. It continued to expand after the LER became part of the London Passenger Transport Board in the 1930s and as the organisation passed through various successor bodies up to TfL, London's transport authority since 2000. The Covent Garden building has on display many examples of buses, trams, trolleybuses and rail vehicles from 19th and 20th centuries as well as artefacts and exhibits related to the operation and marketing of passenger services and the impact that the developing transport network has had on the city and its population.

 

St Paul's Church

 

St Paul's, commonly known as the Actors' Church, was designed by Inigo Jones as part of a commission by Francis Russell in 1631 to create "houses and buildings fitt for the habitacons of Gentlemen and men of ability". Work on the church began that year and was completed in 1633, at a cost of £4,000, with it becoming consecrated in 1638. In 1645 Covent Garden was made a separate parish and the church was dedicated to St Paul. It is uncertain how much of Jones's original building is left, as the church was damaged by fire in 1795 during restoration work by Thomas Hardwick; though it is believed that the columns are original—the rest is mostly Georgian or Victorian reconstruction.

 

Culture

 

The Covent Garden area has long been associated with both entertainment and shopping, and this continues. Covent Garden has 13 theatres, and over 60 pubs and bars, with most south of Long Acre, around the main shopping area of the old market. The Seven Dials area in the north of Covent Garden was home to the punk rock club The Roxy in 1977, and the area remains focused on young people with its trendy mid-market retail outlets.

 

Street performance

 

Street entertainment at Covent Garden was noted in Samuel Pepys's diary in May 1662, when he recorded the first mention of a Punch and Judy show in Britain. Impromptu performances of song and swimming were given by local celebrity William Cussans in the eighteenth century. Covent Garden is licensed for street entertainment, and performers audition for timetabled slots in a number of venues around the market, including the North Hall, West Piazza, and South Hall Courtyard. The courtyard space is dedicated to classical music only. There are street performances at Covent Garden Market every day of the year, except Christmas Day. Shows run throughout the day and are about 30 minutes in length. In March 2008, the market owner, CapCo, proposed to reduce street performances to one 30-minute show each hour.

 

Pubs and bars

 

The Covent Garden area has over 60 pubs and bars; several of them are listed buildings, with some also on CAMRA's National Inventory of Historic Pub Interiors; some, such as The Harp in Chandos Place, have received consumer awards. The Harp's awards include London Pub of the Year in 2008 by the Society for the Preservation of Beers from the Wood, and National Pub of the Year by CAMRA in 2011. It was at one time owned by the Charrington Brewery, when it was known as The Welsh Harp; in 1995 the name was abbreviated to just The Harp, before Charrington sold it to Punch Taverns in 1997. It has been owned by the landlady since 2010.

 

The Lamb and Flag in Rose Street has a reputation as the oldest pub in the area, though records are not clear. The first mention of a pub on the site is 1772 (when it was called the Cooper's Arms – the name changing to Lamb & Flag in 1833); the 1958 brick exterior conceals what may be an early 18th-century frame of a house replacing the original one built in 1638.[94] The pub acquired a reputation for staging bare-knuckle prize fights during the early 19th century when it earned the nickname "Bucket of Blood". The alleyway beside the pub was the scene of an attack on John Dryden in 1679 by thugs hired by John Wilmot, 2nd Earl of Rochester, with whom he had a long-standing conflict.

 

The Salisbury in St. Martin's Lane was built as part of a six-storey block around 1899 on the site of an earlier pub that had been known under several names, including the Coach & Horses and Ben Caunt's Head; it is both Grade II listed, and on CAMRA's National Inventory, due to the quality of the etched and polished glass and the carved woodwork, summed up as "good fin de siècle ensemble". The Freemasons Arms on Long Acre is linked with the founding of the Football Association in 1896; however, the meetings took place at The Freemasons Tavern on Great Queen Street, which was replaced in 1909 by the Connaught Rooms.

 

Other pubs that are Grade II listed are of minor interest, they are three 19th century rebuilds of 17th century/18th century houses, the Nell Gwynne Tavern in Bull Inn Court, the Nag's Head on James Street, and the White Swan on New Row; a Victorian pub built by lessees of the Marquis of Exeter, the Old Bell on the corner of Exeter Street and Wellington Street; and a late 18th or early 19th century pub the Angel and Crown on St. Martin's Lane.

 

Cultural connections

 

Covent Garden, and especially the market, have appeared in a number of works. Eliza Doolittle, the central character in George Bernard Shaw's play, Pygmalion, and the musical adaptation by Alan Jay Lerner, My Fair Lady, is a Covent Garden flower seller. Alfred Hitchcock's 1972 film Frenzy about a Covent Garden fruit vendor who becomes a serial sex killer, was set in the market where his father had been a wholesale greengrocer. The daily activity of the market was the topic of a 1957 Free Cinema documentary by Lindsay Anderson, Every Day Except Christmas, which won the Grand Prix at the Venice Festival of Shorts and Documentaries.

 

Transport

 

Covent Garden is served by the Piccadilly line at Covent Garden tube station on the corner of Long Acre and James Street. The station was opened by Great Northern, Piccadilly and Brompton Railway on 11 April 1907, four months after services on the rest of the line began operating on 15 December 1906. Platform access is only by lift or stairs; until improvements to the exit gates in 2007, due to high passenger numbers (16 million annually), London Underground had to advise travellers to get off at Leicester Square and walk the short distance (the tube journey at less than 300 yards is London's shortest) to avoid the congestion. Stations just outside the area include the Charing Cross tube station and Charing Cross railway station, Leicester Square tube station, and Holborn tube station. While there is only one bus route in Covent Garden itself—the RV1, which uses Catherine Street as a terminus, just to the east of Covent Garden square—there are over 30 routes which pass close by, mostly on the Strand or Kingsway.

 

en.wikipedia.org/wiki/Covent_Garden

+++ DISCLAIMER +++

Nothing you see here is real, even though the model, the conversion or the presented background story might be based on historical facts. BEWARE!

  

Some background:

After the country's independence from the United Kingdom, after its departure from the European Union in 2017, the young Republic of Scotland Air Corps (locally known as Poblachd na h-Alba Adhair an Airm) started a major procurement program to take over most basic duties the Royal Air Force formerly had taken over in Northern Britain. This procurement was preceded by a White Paper published by the Scottish National Party (SNP) in 2013, which had stated that an independent Scotland would have an air force equipped with up to 16 air defense aircraft, six tactical transports, utility rotorcraft and maritime patrol aircraft, and be capable of “contributing excellent conventional capabilities” to NATO. According to the document, “Key elements of air forces in place at independence, equipped initially from a negotiated share of current UK assets, will secure core tasks, principally the ability to police Scotland’s airspace, within NATO.” An in-country air command and control capability would be established within five years of a decision in favor of independence, it continues, with staff also to be “embedded within NATO structures”.

 

Outlining its ambition to establish an air force with an eventual 2,000 uniformed personnel and 300 reservists, the SNP stated the organization would initially be equipped with “a minimum of 12 interceptors in the Eurofighter/Typhoon class, based at Lossiemouth, a tactical air transport squadron, including around six Lockheed Martin C-130J Hercules, and a helicopter squadron”. The latter would not only have to take over transport duties for the army, there was also a dire need to quickly replace the former Royal Air Force’s Search and Rescue (SAR) capabilities and duties in the North with domestic resources, after this role was handed over to civilian contractor Bristow Helicopters and the RAF’s SAR units had been disbanded.

 

This led to the procurement of six AS365 Dauphin helicopters as an initial measure to keep up basic SAR capabilities, with the prospects of procuring more to become independent from the Bristow Helicopters contract. These aircraft were similar to the Eurocopter SA 366 MH-65 “Dolphin” for the United States Coast Guard but differed in many ways from them and also from any other navalized SA365 variant.

For the RoScAC’s SAR squadron, the SA 365 was taken as a starting point, but the helicopter was heavily modified and locally re-christened “Leumadair” (= Dolphin).

 

The most obvious new feature of the unique Scottish rescue variant was a fixed landing gear with the main wheels on short “stub wings” for a wider stance, stabilizing the helicopter during shipboard landings and in case of an emergency water landing - the helicopter was not able to perform water landings, even though inflatable emergency landing floats were typically fitted. Another obvious difference to other military Dauphin versions was the thimble radome on the nose for an RDR-1600 search and weather radar which is capable of detecting small targets at sea as far as 25 nautical miles away. This layout was chosen to provide the pilots with a better field of view directrly ahead of the helicopter. Additionally, an electro-optical sensor turret with an integrated FLIR sensor was mounted in a fully rotatable turret under the nose, giving the helicopter full all-weather capabilities. Less obvious were a digital glass cockpit and a computerized flight management system, which integrated state-of-the-art communications and navigation equipment. This system provided automatic flight control, and at the pilot's direction, the system would bring the aircraft to a stable hover 50 feet (15 m) above a selected object, an important safety feature in darkness or inclement weather. Selected search patterns could be flown automatically, freeing the pilot and copilot to concentrate on sighting & searching the object.

To improve performance and safety margin, more powerful Turbomeca Arriel 2C2-CG engines were used. Seventy-five percent of the structure—including rotor head, rotor blades and fuselage—consisted of corrosion-resistant composite materials. The rotor blades themselves were new, too, with BERP “paddles”at their tips, a new aerofoil and increased blade twist for increased lifting-capability and maximum speed, to compensate for the fixed landing gear and other external equipment that increased drag. To prevent leading edge erosion the blade used a rubber-based tape rather than the polyurethane used on earlier helicopters.

 

The “Leumadair HR.1”, so its official designation, became operational in mid-2019. Despite being owned by the government, the helicopters received civil registrations (SC-LEA - -LEF) and were dispersed along the Scottish coastline. They normally carried a crew of four: Pilot, Copilot, Flight Mechanic and Rescue Swimmer, even though regular flight patrols were only excuted with a crew of three. The Leumadair HR.1 was used by the RoScAC primarily for search and rescue missions, but also for homeland security patrols, cargo, drug interdiction, ice breaking, and pollution control. While the helicopters operated unarmed, they could be outfitted with manually operated light or medium machine guns in their doors.

However, the small fleet of only six helicopters was far from being enough to cover the Scottish coast and the many islands up north, so that the government prolonged the contract with Bristow Helicopters in late 2019 for two more years, and the procurement of further Leumadair HR.1 helicopters was decided in early 2020. Twelve more helicopters were ordered en suite and were expected to arrive in late 2021.

  

General characteristics:

Crew: 2 pilots and 2 crew

Length: 12,06 m (39 ft 2 1/2 in)

Height: 4 m (13 ft 1 in)

Main rotor diameter: 12,10 m (39 ft 7 1/2 in)

Main rotor area: 38.54 m² (414.8 sq ft)

Empty weight: 3,128 kg (6,896 lb)

Max takeoff weight: 4,300 kg (9,480 lb)

 

Powerplant:

2× Turbomeca Arriel 2C2-CG turboshaft engines, 636 kW (853 hp) each

 

Performance:

Maximum speed: 330 km/h (210 mph, 180 kn)

Cruise speed: 240 km/h (150 mph, 130 kn)

Range: 658 km (409 mi, 355 nmi)

Service ceiling: 5,486 m (17,999 ft)

 

Armament:

None installed, but provisions for a 7.62 mm M240 machine gun or a Barrett M107 0.50 in (12.7

mm) caliber precision rifle in each side door

  

The kit and its assembly:

Another chapter in my fictional alternative reality in which Scotland became an independent Republic and separated from the UK in 2017. Beyond basic aircraft for the RoScAC’s aerial defense duties I felt that maritime rescue would be another vital task for the nascent air force – and the situation that Great Britain had outsourced the SAR job to a private company called for a new solution for the independent Scotland. This led to the consideration of a relatively cheap maritime helicopter, and my choice fell on the SA365 ‘Daupin’, which has been adapted to such duties in various variants.

 

As a starting point there’s the Matchbox SA365 kit from 1983, which is a typical offer from the company: a solid kit, with mixed weak spots and nice details (e. g. the cockpit with a decent dashboard and steering columns/pedals for the crew). Revell has re-boxed this kit in 2002 as an USCG HH-65A ‘Dolphin’, but it’s technically only a painting option and the kit lacks any optional parts to actually build this type of helicopter in an authentic fashion - there are some subtle differences, and creating a convincing HH-65 from it would take a LOT of effort. Actually, it's a real scam from Revell to market the Matchbox Dauphin as a HH-65!

 

However, it was my starting basis, and for a modernized/navalized/military version of the SA365 I made some changes. For instance, I gave the helicopter a fixed landing gear, with main wheels stub wings taken from a Pavla resin upgrade/conversion set for a Lynx HAS.2, which also comes with better wheels than the Matchbox kit. The Dauphin’s landing gear wells were filled with 2C putty and in the same process took the stub wings. The front landing gear well was filled with putty, too, and a adapter to hold the front twin wheel strut was embedded. Lots of lead were hidden under the cockpit floor to ensure that this model would not becaome a tail sitter.

A thimble radome was integrated into the nose with some PSR – I opted for this layout because the fixed landing gear would block 360° radar coverage under the fuselage, and there’s not too much ground clearance or space above then cabin for a radome. Putting it on top of the rotor would have been the only other option, but I found this rather awkward. As a side benefit, the new nose changes the helicopter’s silhouette well and adds to a purposeful look.

 

The rotor blades were replaced with resin BERP blades, taken from another Pavla Lynx conversion set (for the Hobby Boss kit). Because their attachment points were very different from the Matchbox Dauphin rotor’s construction, I had to improvise a little. A rather subtle change, but the result looks very plausible and works well. Other external extras are two inflatable floating devices along the lower fuselage from a Mistercraft ASW AB 212 (UH-1) kit, the winch at port side was scratched with a piece from the aforementioned BK 117 and styrene bits. Some blade antennae were added and a sensor turret was scratched and placed in front of the front wheels. Additional air scoops for the gearbox were added, too. Inside, I added two (Matchbox) pilot figures to the cockpit, plus a third seat for a medic/observer, a storage/equipment box and a stretcher from a Revell BK 117 rescue helicopter kit. This kit also donated some small details like the rear-view mirror for the pilot and the wire-cutters - not a typical detail for a helicopter operating over the open sea, but you never know...

 

The only other adition is a technical one: I integrated a vertical styrene pipe behind the cabin as a display holder adapter for the traditional hoto shooting's in-flight scenes.

  

Painting and markings:

It took some time to settle upon a design. I wanted something bright – initially I thought about Scottish colors (white and blue), but that was not garish enough, even with some dayglo additions. The typical all-yellow RAF SAR livery was also ruled out. In the end I decided to apply a more or less uniform livery in a very bright red: Humbrol 238, which is, probably due to trademark issues, marketed as “Arrow Red (= Red Arrows)” and effectively an almost fluorescent pinkish orange-red! Only the black anti-glare panel in front of the windscreen, the radome and the white interior of the fenestron tail rotor were painted, too, the rest was created with white decal stripes and evolved gradually. Things started with a white 2mm cheatline, then came the horizontal stripes on the tail, and taking this "theme" further I added something similar to the flanks as a high contrast base for the national markings. These were improvised, too, with a 6mm blue disc and single 1.5 mm bars to create a Scottish flag. The stancils were taken from the OOB decal sheet. The interior became medium grey, the crew received bright orange jumpsuits and white "bone domes".

 

No black ink washing or post-panel-shading was done, since the Dauphin has almost no surface details to emphasize, and I wanted a new and clean look. Besides, with wll the white trim, there was already a lot going on on the hull, so that I kept things "as they were". Finally, the model was sealed with a coat of semi-gloss acrylic varnish for a light shine, except for the rotor blades and the anti-glare panel, which became matt.

  

Quite a tricky project. While the Matchbox Dauphin is not a complex kit you need patience and have to stick to the assembly order to put the hull together. PSR is needed, esp. around the engine section and for the underside. On the other side, despite being a simple model, you get a nice Dauphin from the kit - but NOT a HH-65, sorry. My fictional conversion is certainly not better, but the bright result with its modifications looks good and quite convincing, though.

flickr, note, user, ability

Beaver Lake Road near Winfield, BC.

 

"Dang! Sometimes I get sooo excited when someone's taking my picture!"

 

I'm going to name him 'Thrifty' in honour of his banking skills, you know, ability to deposit on command....

Belgian postcard by Boomerang Free Cards. Photo: Warner Bros. Val Kilmer in Batman Forever (Joel Schumacher, 1995).

 

Val Kilmer (1959) is an American actor, known for such blockbusters as Top Gun (1986), Batman Forever (1995) and Heat (1995). His chameleon-like ability to plunge fully and breathlessly into his characters catapulted him to fame in the mid-1980s but his reputation to be a troublesome actor and a series of disappointing films held him back from megastardom.

 

Val Edward Kilmer was born in Los Angeles, in 1959. He is the son of Gladys Swanette (Ekstadt) and Eugene Dorris Kilmer, who was a real estate developer and aerospace equipment distributor. Val grew up in the San Fernando Valley. His family is a textbook example of mixed blood. He has Scottish, Swedish, Irish, Mongolian, and Cherokee blood in his veins, among others. His parents divorced when he was 9 years old. His first auditions were for commercials at 13 years old. When he was 17 years old, his younger brother Wesley who was an epileptic, drowned in a jacuzzi at age 15. Kilmer learned acting at the famous Juilliard Drama School in New York. He was the youngest student in history to be admitted to Juilliard. In 1983 he played his first television role and a year later he made his film debut with the lead role as blond rock idol Nick Rivers in Top Secret! (Jim Abrahams, David Zucker, 1984), a spoof of Elvis films and WWII spy movies. Andrea LeVasseur at AllMovie: "An absurd role which Kilmer plays with complete sincerity, it reveals genuine musical talent and Kilmer achieves complete credibility as a rock star." He had his big break in the role of Tom 'Iceman' Kazanski in Top Gun (Tony Scott, 1986) starring Tom Cruise. Top Gun grossed a total of $344,700,000 worldwide and made Kilmer a major star. He gave a believable performance as Jim Morrison in Oliver Stone's The Doors (1991). He had spent close to a year before production dressing in Morrison-like clothes and had spent time at Morrison's old hangouts along the Sunset Strip. Kilmer did his own singing during the concert pieces and a number of his Doors songs were used on the soundtrack, sans dubbing. Two years later, Kilmer played two more American legends, the spirit of Elvis Presley in True Romance (Tony Scott, 1993), which was written by Quentin Tarantino, and gunslinger Doc Holliday in the Western Tombstone (George P. Cosmatos, 1993).

 

Val Kilmer took over the role of Batman/Bruce Wayne from Michael Keaton in Batman Forever (Joel Schumacher, 1995). Batman Forever was a success at the box office, despite receiving mixed reviews from critics. Although he enjoyed playing Batman his working relationship with director Joel Schumacher was poor. Kilmer openly refused to repeat the Bruce Wayne role for Batman and Robin (Joel Schumacher, 1997), and he was succeeded by George Clooney. Due to his persistent need for an on-set dialogue with his directors, Kilmer had clashed earlier with Michael Apted on the set of Thunderheart (1992) and later infuriated director John Frankenheimer on the set of The Island of Dr. Moreau (1996). However, others consider him a devoted, hard-working professional. Warwick Davis, Kilmer's co-star in Willow (Ron Howard, 1988), says he has very fond memories of working with Kilmer, stating that Kilmer had a great sense of humor and was very dedicated to the job. In addition to acting, Kilmer is also engaged in writing. In 1981 he wrote the play 'How It All Began', performed at the New York Shakespeare Festival. Later in the 1980s, he wrote a poetry collection, 'My Eden after burns'. Kilmer also acted on the stage. He played Hamlet at the 1988 Colorado Shakespeare Festival. In 2004 he played Moses in a musical and in 2005 he starred in London in David Mamet's play 'The Postman Always Rings Twice'. His other notable films include Heat (Michael Mann, 1995) with Robert De Niro and Al Pacino, the disappointing The Saint (Philip Noyce, 1997), and the action-comedy Kiss Kiss Bang Bang (Shane Black, 2005) with Robert Downey Jr. Another disappointment was the historical epic Alexander (Oliver Stone, 2004) in which he played the father of Alexander, King Philip, opposite Colin Farrell as Alexander. The Disney studios Sci-Fi-action thriller Deja Vu (Tony Scott, 2006) teamed Kilmer and Denzel Washington as feds who travel back in time to stop a terrorist's (Jim Caviezel) attempt to blow up a ferry. He also appeared in Werner Herzog's semi-sequel Bad Lieutenant: Port of Call - New Orleans (2009), and Francis Ford Coppola's horror opus Twixt (2011), with Bruce Dern and Elle Fanning. Kilmer is a longtime board member of the New Mexico State Film Commission, which tries to persuade Los Angeles - based filmmakers and studios to film on location in New Mexico. From 1988 to 1996, Val Kilmer was married to British actress Joanne Whalley, whom he met while filming Willow (Ron Howard, 1988). They have two children: a daughter, Mercedes (1992), and a son, Jack (1995). Kilmer has gone through a battle with throat cancer. A procedure on his trachea has reduced his voice to a rasp and rendered him short of breath. He underwent chemotherapy and two tracheotomies. In 2020, Kilmer reported that he had been cancer-free for four years and that he uses a feeding tube to feed himself because he can no longer eat. He continues to act in films and upcoming is the Top Gun sequel Top Gun: Maverick (Joseph Kosinski, 2021) in which Kilmer reprises his role as LT Tom 'Iceman' Kazanski.

 

Sources: Andrea LeVasseur (AllMovie), Denise P. Meyer (IMDb), Wikipedia (Dutch and English), and IMDb.

 

And, please check out our blog European Film Star Postcards.

+++ DISCLAIMER +++

Nothing you see here is real, even though the conversion or the presented background story might be based on historical facts. BEWARE!

  

Some background:

In 1948, a swept wing version of the F-84 was created with the hope of bringing performance to the level of the F-86. The last production F-84E was fitted with a swept tail, a new wing with 38.5 degrees of leading-edge sweep and 3.5 degrees of anhedral, and a J35-A-25 engine producing 5,300 pound-force (23.58 kN) of thrust. The aircraft was designated XF-96A and flew on 3 June 1950. Although the airplane was capable of 602 knots (693 mph, 1,115 km/h), the performance gain over the F-84E was considered minor. Nonetheless, it was ordered into production in July 1950 as the F-84F Thunderstreak. The F-84 designation was eventually retained because the fighter was expected to be a low-cost improvement of the straight-wing Thunderjet with over 55 percent commonality in tooling.

 

In the meantime, the USAF, hoping for improved high-altitude performance from a more powerful engine, arranged for the British Armstrong Siddeley Sapphire turbojet engine to be built in the United States as the Wright J65. To accommodate the larger engine, YF-84Fs with a British-built Sapphire as well as production F-84Fs with the J65 had a vertically stretched fuselage, with the air intake attaining an oval cross-section. Production quickly ran into problems, though. Although tooling commonality with the Thunderjet was supposed to be 55 %, but just 15 % of the tools could actually be re-used. To make matters worse, the F-84F utilized press-forged wing spars and ribs. At the time, only three presses in the United States could manufacture these, and priority was given to the Boeing B-47 Stratojet bomber over the F-84. The YJ65-W-1 engine was considered obsolete, too, and the improved J65-W-3 did not become available until 1954. When the first production F-84F flew on 22 November 1952, it was considered not ready for operational deployment due to control and stability problems. The first 275 aircraft, equipped with conventional stabilizer-elevator tailplanes, suffered from accelerated stall pitch-up and poor turning ability at combat speeds. Beginning with Block 25, the problem was improved upon by the introduction of a hydraulically powered one-piece stabilator. A number of aircraft were also retrofitted with spoilers for improved high-speed control. As a result, the F-84F was not declared operational until 12 May 1954.

 

The second YF-84F prototype was completed with wing-root air intakes. These were not adopted for the fighter due to loss of thrust, but this arrangement kept the nose section free and permitted placement of cameras, and the different design was adopted for the RF-84F Thunderflash reconnaissance version. Being largely identical to the F-84F, the Thunderflash suffered from the same production delays and engine problems, though, delaying operational service until March 1954.

 

During the F-84F’s development the Air Defense Command was looking for a replacement for the outdated F-94 ‘Starfire’ interceptor, a hasty development from the T-33 trainer airframe with an afterburner engine and an on-board radar. However, the F-94 was only armed with machine guns in its early versions or unguided missiles in its later incarnations, which were inadequate. An aircraft with better performance, ideally with supersonic speed, a better radar, and the ability to carry guided missiles (in the form if the AIR-1 and 2 ‘Falcon’ AAMs) as well as the AIR-2 ‘Genie’ missile was now requested.

 

The Douglas AIR-2 Genie followed a unique but effective concept that represented the technological state-of-the-art: it was an unguided air-to-air rocket with a 1.5 kt W25 nuclear warhead. The interception of Soviet strategic bombers was a major military preoccupation of the late 1940s and 1950s. The World War II-age fighter armament of machine guns and cannon were inadequate to stop attacks by massed bomber formations, which were expected to come in at high altitude and at high subsonic speed. Firing large volleys of unguided rockets into bomber formations was not much better, and true air-to-air missiles were in their infancy. In 1954 Douglas Aircraft began a program to investigate the possibility of a nuclear-armed air-to-air weapon. To ensure simplicity and reliability, the weapon would be unguided, since the large blast radius made precise accuracy unnecessary. Full-scale development began in 1955, with test firing of inert warhead rockets commencing in early 1956. The final design carried a 1.5-kiloton W25 nuclear warhead and was powered by a Thiokol SR49-TC-1 solid-fuel rocket engine of 162 kN (36,000 lbf) thrust, sufficient to accelerate the rocket to Mach 3.3 during its two-second burn. Total flight time was about 12 seconds, during which time the rocket covered 10 km (6.2 mi). Targeting, arming, and firing of the weapon were coordinated by the launch aircraft's fire-control system. Detonation was by time-delay fuze, although the fuzing mechanism would not arm the warhead until engine burn-out, to give the launch aircraft sufficient time to turn and escape. However, there was no mechanism for disarming the warhead after launch. Lethal radius of the blast was estimated to be about 300 meters (980 ft). Once fired, the Genie's short flight-time and large blast radius made it virtually impossible for a bomber to avoid destruction. The rocket entered service with the designation MB-1 Genie in 1957.

 

During the development phase the first carrier aircraft earmarked to carry the AIR-2 was the Northrop F-89 Scorpion, which had already been introduced in the early Fifties. While being an all-weather interceptor with on-board radar, it was a slow and large aircraft, and outdated like the F-94. Trying to keep the F-84 production lines busy, however, Republic saw the chance to design an all-weather interceptor aircraft that would surpass the F-89’s mediocre performance and meet the AIR-2 carrier requirements on the basis of the swept-wing (R)F-84F. To emphasize its dedicated interceptor role and set it apart from its fighter-bomber ancestors, the heavily modified aircraft was designated F-96B (even though it had little to do with the XF-96A that became the F-84F) and called ‘Thunderguard’.

 

The F-96B was largely based on the RF-84F’s airframe with its wing-root air intakes, what offered ample space in the aircraft’s nose for a radar system and other equipment. The radar was coupled with a state-of-the-art Hughes MC-10 fire control system. To relieve the pilot from operating the radar system one of the fuel cells behind the cockpit was deleted and a second crew member was placed behind him under an extended, strutless hood that opened to starboard. To compensate for the loss of fuel and maintain the F-84F’s range, a new tank was mounted under the cockpit floor in the aircraft’s center of gravity.

To improve performance and cope with the raised take-off weight, the F-96B was powered by an uprated Wright J65-W-18 turbojet, which generated 0.4 kN more dry thrust than the F-84F’s original J65-W-3 (7,700 lbf/34 kN). This was not too much, though, so that the J65 was additionally outfitted with an afterburner. With this upgrade the powerplant provided a maximum thrust of 10,500 lbf (47 kN), what resulted in a markedly improved rate of climb and the ability to break the sound barrier in level flight. The additional reheat section necessitated a wider and longer rear fuselage, which had to be redesigned. As an unintended side benefit, this new tail section reduced overall drag due to a slightly area-ruled coke-bottle shape behind the wings’ trailing edge, which was even emphasized through the ventral brake parachute fairing.

Armament consisted only of missiles, which were all carried externally on wing stations, all guns of the former F-84 versions were deleted to save weight. The F-96B’s weapons range included GAR-1/2/3/4 (Later re-designated as AIM-4) radar- and IR-guided Falcon air-to-air missiles and a pair of MB-1 Genie missiles. Up to four pods with nineteen unguided 2.75 in (70 mm) "Mighty Mouse" Mk 4/Mk 40 Folding-Fin Aerial Rockets each were an alternative, too, and a pair of drop tanks were typically carried under the inner wings to provide the aircraft with sufficient range, since the new afterburner significantly increased fuel consumption.

 

Even though it was only a derivative design, the F-96B introduced a lot of innovations. One of these was the use of a diverertless supersonic inlet (DSI), a novel type of jet engine air intake to control air flow into their engines. Initial research into the DSI was done by Antonio Ferri in the 1950s. It consisted of a "bump" and a forward-swept inlet cowl, which worked together to divert boundary layer airflow away from the aircraft's engine. In the case of the F-96B this was realized as an inward-turning inlet with a variable contraction ratio. However, even though they had not been deemed necessary to guarantee a clean airflow, the F-96B’s air intakes were further modified with splitter plates to adapt them to the expected higher flight speeds and direct the air flow. The initial flight tests had also revealed a directional instability at high speed, due to the longer nose, so that the tail surfaces (both fin and stabilizers) were enlarged for the serial aircraft to compensate.

 

Another novel feature was an IRST sensor in front of the windscreen which augmented the on-board radar. This sensor, developed by Hughes International and designated ‘X-1’, was still very experimental, though, highly unreliable, and difficult to handle, because it relied on pressurized coolant to keep the sensor cold enough to operate properly, and dosing it at a consistent level proved to be difficult (if not impossible). On the other side the IRST allowed to track targets even in a massively radar-jammed environment. The 7” diameter silicone sensor was, together with the on-board radar, slaved to the fire control system so that its input could be used to lock guided missiles onto targets, primarily the GAR-1 and GAR-2 AAMs. The X-1 had a field of view of 70×140°, with an angular resolution of 1°, and operated in 2.5 micron wavelength range. When it worked properly the sensor was able to detect a B-47-sized aircraft’s tails aspect from 25 nm (29 ml/46 km) and a target of similar size from directly ahead from 10 nm (12 ml/19 km). Later, better developed versions of Hughes IRST, like the X-3 that was retrofitted to the F-101B in the early Sixties, had a better range and were more reliable.

 

During the Thunderguard’s development another competitor entered the stage, the F-101B Voodoo. In the late 1940s, the Air Force had already started a research project into the future interceptor aircraft that eventually settled on an advanced specification known as the 1954 interceptor. Contracts for this specification eventually resulted in the selection of the F-102 Delta Dagger, but by 1952 it was becoming clear that none of the parts of the specification other than the airframe would be ready by 1954; the engines, weapons, and fire control systems were all going to take too long to get into service. An effort was then started to quickly produce an interim supersonic design to replace the various subsonic interceptors then in service, and the F-101 airframe was selected as a starting point. Although McDonnell proposed the designation F-109 for the new aircraft (which was to be a substantial departure from the basic Voodoo fighter bomber), the USAF assigned the designation F-101B. Its development was protracted, so that the F-96B – even though it offered less performance – was ordered into production to fill the USAF’s urgent interceptor gap.

 

F-96B production started after a brief test phase in late 1957, and the first aircraft were delivered to the 60th Fighter-Interceptor Squadron in 1958. However, when it became clear that the F-101B would finally enter service in 1959, F-96B production was quickly cut down and the initial order of 300 aircraft reduced to only 150, which were produced until early 1960 in three batches. Only sixty were directly delivered to ADC units, because these were preferably equipped with the supersonic F-102A and the new F-101B, which could also carry the nuclear Genie missile. The rest was directly handed over to Air National Guard units – and even there they were quickly joined and replaced by the early ADC aircraft.

 

Operationally, almost all F-96Bs functioned under the US–Canadian North American Air Defense Command (NORAD), which protected North American airspace from Soviet intruders, particularly the threat posed by nuclear-armed bombers. In service, the F-96Bs were soon upgraded with a data link to the Semi-Automatic Ground Environment (SAGE) system, allowing ground controllers to steer the aircraft towards its targets by making adjustments through the plane's autopilot. Furthermore, the F-96B was upgraded to allow the carrying of two GAR-11/AIM-26 Nuclear Falcon missiles instead of the Genies when they became available in 1961.

A handful F-96Bs were camouflaged during the late Sixties with the USAF’s new SEA scheme, but most aircraft retained their original bare metal finish with more or less colorful unit markings. Due to its limited capabilities and the introduction of the Mach 2 McDonnell F-4 Phantom, the last F-96B was retired from ANG service in 1971.

  

General characteristics:

Crew: 2

Length: 54t 11 1/2 in (16,77 m) incl. pitot

Wingspan: 33 ft 7.25 in (10,25 m)

Height: 16 ft 9 in (5,11 m)

Wing area: 350 sq ft (37,55 m²)

Empty weight: 13,810 lb (6.264 kg)

Gross weight: 21,035 lb (9.541 kg)

Max takeoff weight: 28,000 lb (12.701 kg)

 

Powerplant:

1× Wright J65-W-18 turbojet with 8,600 lbf (34 kN) dry thrust and 10,500 lbf (47 kN) with afterburner

 

Performance:

Maximum speed: 695 mph (1,119 km/h, 604 kn, Mach 1.1) at 35,000 ft (10,668 m)

Cruise speed: 577 mph (928 km/h, 501 kn)

Range: 810 mi (1,304 km, 704 nmi) combat radius with two droptanks

Service ceiling: 49,000 ft (15,000 m)

Rate of climb: 16,300 ft/min (83 m/s)

Wing loading: 86 lb/sq ft (423 kg/m²)

 

Armament:

No internal guns;

6× underwing hardpoints for a total ordnance load of up to 6,000lb (2,727 kg), including

a pair of 191.5 US gal (727 l) or 375 US gal (1.429 l) drop tanks on the inner stations

and a mix of AIM-4 Falcon (up to six), MB-1 Genie (up to two) and/or pods with

nineteen 2.75”/70 mm FFAR unguided missiles each (up to four) on the outer stations

  

The kit and its assembly:

This fictional missing link between the RF-84F and the F-105 was conceived for the Fifties Group Build at whatifmodellers.com, an era when the USAF used a wide variety of interceptor aircraft types and technical advancements were quick and significant – in just a decade the interceptor evolved from a subsonic machine gun-toting aircraft to a guided weapons carrier platform, capable of Mach 2.

 

The F-96B (I re-used Republic’s dropped designation for the swept-wing F-84F) was to display one of the many “in between” designs, and the (R)F-84F was just a suitable basis for a conversion similar to the T-33-derived F-94, just more capable and big enough to carry the nuclear Genie missile.

The basis became Italeri’s vintage RF-84F kit, a rather simple affair with raised panel lines and a mediocre fit, plus some sinkholes. This was, however, heavily modified!

 

Work started with the implantation of a new tandem cockpit, taken wholesale from a Heller T-33. Fitting the cockpit tub into the wider Thunderflash hull was a bit tricky, putty blobs held the implant in place. The canopy was taken from the T-33, too, just the RF-84F’s original rear side windows were cut away to offer sufficient length for the longer clear part and the cockpit side walls had to be raised to an even level with the smaller windscreen with the help of styrene strips. With these adapters the T-33 canopy fitted surprisingly well over the opening and blended well into the spine.

 

The camera nose section lost its tip, which was replaced with the tail cone from a Matchbox H.S. Buccaneer (actually its air brake), and the camera windows as well as the slant surfaces that held them were PSRed away for a conical shape that extended the new pointed radome. Lots of weight in the nose and under the cockpit floor ensured a safe stance on the OOB landing gear.

The rear section behind the air brakes became all-new; for an afterburner I extended and widened the tail section and implanted the rear part from a B-66 (Italeri kit, too) engine nacelle, which received a wider nozzle (left over from a Nakotne MiG-29, a featureless thing) and an interior.

To balance the longer nose I also decided to enlarge the tail surfaces and replaced the OOB fin and stabilizers with leftover parts from a Trumpeter Il-28 bomber – the fin was shortened and the stabilizers reduced in span to match the rest of the aircraft. Despite the exotic source the parts blend well into the F-84’s overall design!

 

To add supersonic credibility and to connect the design further with the later F-105 I modified the air intakes and cut them into a raked shape – quite easy to realize. Once the wings were in place, I also added small splitter plates, left over from an Airfix BAC Strikemaster.

 

As an interceptor the armament had to be adapted accordingly, and I procured the quartet of IR-guided Falcons as well as the Genie duo from an Academy F-89. The large drop tanks were taken OOB from the Italeri kit. The Genies were mounted onto their massive Scorpion pylons under the outer wings of the F-96B, while the Falcons, due to relatively little space left under the wings, required a scratched solution. I eventually settled for dual launchers on small pylons, mounted in front of the landing gear wells. The pylons originally belong to an ESCI Ka-34 “Hokum” helicopter kit (they were just short enough!), the launch rails are a halved pair of F-4 Sidewinder rails from a Hasegawa air-to-air weapons set. With everything on place the F-96B looks quite crowded.

  

Painting and markings:

The machine would represent a late Fifties USAF type, so that the paint options were rather limited if I wanted to be authentic. ADC Grey was introduced in the early Sixties, SEA camouflage even later, so that bare metal became a natural choice – but this can be quite attractive! The model received an overall coat with acrylic “White Aluminum” from the rattle can, plus some darked panels all over the hull (Humbrol 56 for good contrast) and an afterburner section in Revell 91 (Iron Metallic) and Humbrol’s Steel Metallizer. The radome became deep black, the anti-glare panel in front of the windscreen olive drab (Revell 46). Light grey (Revell 75) was used for some small di-electric fairings.

Interior surfaces (cockpit and landing gear wells) were painted with Zinc Chromate primer (I used Humbrol 80), while the landing gear struts became silver-grey (Humbrol 56) and the inside of the covers as well as the air brakes were painted in bright red (Humbrol 19).

Once basic painting was done the model received a black ink washing and was rubbed with grinded graphite to emphasize the raised panel lines, and the material adds a nice dark metallic shine to the silver base coat.

 

Another challenge was to find suitable unit markings for the Fifties era in the decal vault, which would also fit onto the model. After a long search I eventually settled for rather simple markings from a 325th FIS F-102 from an Xtradecal sheet, which only features a rather timid fin decoration.

Finding other suitable standard markings remained demanding, though. Stars-And-Bars as well as the USAF taglines were taken from the Academy F-89 that also provided the ordnance, most stencils were taken from the OOB Italeri sheet and complemented by small markings from the scrap box. The biggest problem was the creation of a matching serial number. The “FF” code was originally used for P/F-51D Mustangs during the Korea War, but after the type had been phased out it might have been re-used? The letters as well as the serial number digits were created from various markings for USAF F-100s, also from an Xtradecal sheet.

 

Once the decals had been applied the model was sealed with semi-gloss acrylic varnish, except for the radome, the anti-glare panel as well as the walking areas on the wings as well as parts of the afterburner section, which were coated with matt varnish.

  

A rather straightforward conversion, even though finishing the project took longer than expected. But the result looks surprisingly natural and plausible. Lots of PSR was needed to modify the fuselage, though, especially the tail section was not easy to integrate into the Thunderflash’s hull. Sticking to the simple NMF livery paid IMHO out, too: the livery looks very natural and believable on the fictional aircraft, and it suits the F-84’s bulbous shape well.

I understand that skulls and skeletons are a little passé but there is something really rather enjoyable about painting them. Its probably to do with the fact that they are so easily recognisable yet still rather alien to us at the same time. As you can tell by the pose of this skeleton he was in life a bit of a dick always thinking he's better than everyone else. Just look how even now he stares off into the middle distance like he's pondering something incredibly important - which he isn't. What a self important fool...

 

That said, this particular skull has been imbued with special powers . And I don't mean anything like the crystal skulls in the latest Indians Jones movie either. This bugger's special ability is to change the colour tone of his skull whilst your painting him. Which can be quite annoying let me tell you. One minute your using azure blue the next process red, what a shit indeed. Anyway i solved the problem surrounding him - you just make the colours up as you go along. Job done.

 

Cheers

 

id-iom

 

Title: Skele-tone

Materials: Paint pen, acrylic, ink, pastel, spray paint and charcoal

Size: A2

Please email if interested

Re-branded by Adorama as "Flashpoint".

 

I believe that I've finally found a camera-mounted flash unit with enough brightness to allow correct exposures at the higher magnifications and smaller apertures which I enjoy using. In the past I've far too often been left with strongly underexposed images, and pushing the RAW files that much left too much noise and posterizing.

 

This strobe unit is rated at 360Ws, which compares to about 60-70Ws of the brightest speedlights. It's about twice as powerful as the AlienBees B400 studio strobe which I've been using at home.

 

The ability of the bulb to shine laterally into whatever light modifier is fitted to it has the effect of greatly reducing the "hot spot" of the bulb itself.

 

There is also far less tendency to shut down due to thermal protection circuitry as air is able to flow fairly freely all around the bulb. (The outer glass tube is simply for protection.)

  

(Taken through crossed polarizing filters to lower the light level of the strobe.)

  

This garden has an aggregate of different buildings which were designed and constructed during the time of Mohammad Taqi Khan in the Zandieh era. It was the residence of Khan and his government and officials. The wind trapper of this garden is 33 meters high and is considered an architectural masterpiece and a symbol of the Yazdi architects' genius, mental ability, talent and art. The most significant characteristics of the design of this building is believed to be the attempt of the architect in selecting tactful angles for providing the best views and landscape internally. The Dowlat Abad garden is regarded as one of the sites worth visiting due to verdant gardening skill in landscape architecture, irrigation method, and in the richness of architectural design. It is for this reason that the same has been recorded as a historic building.

 

Windcatcher

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A windcatcher (Persian: بادگیر Bâdgir, Arabic: ملقف Malqaf or بارجيل "Barjeel" in Eastern Arabia) is a traditional Persian architectural device used for many centuries to create natural ventilation in buildings. It is not known who first invented the windcatcher, but it still can be seen in many countries today. Windcatchers come in various designs: uni-directional, bi-directional, and multi-directional. Examples of windcatchers can be found in traditional Persian-influenced architecture throughout the Middle East, Pakistan and Afghanistan... ‌more

 

See also: Iran, Yazd

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باغ دولت آباد از باغ‌های قدیمی شهر یزد در کشور ایران است.

 

بنای این مجموعه به سال ۱۱۶۰ توسط محمدتقی خان بافقی که به خان بزرگ معروف بوده ساخته شده و در حدود ۲۶۰ سال قدمت داشته و محل اقامت حاکم وقت و معاصر با شاهرخ میرزا و کریم خان زند بوده‌است. این بنا که میبایست در اختیار نوادگان محمد تقی خان (بزرگ خاندان رحیمی)باشد، توسط میراث فرهنگی تملک شد و در حال حاضر زیر نظر محمد علی معزالدینی (داماد نماینده ولی فقیه) اداره می‌شود.(شجره نامه در کتاب جامع جعفری به چاپ رسیده‌است)

 

این مجموعه یادگاری است از دوره‌های افشاریه و زندیه که شامل عمارت سردر، ساختمان هشتی و بادگیر، عمارت بهشت آئین و تالار آینه، عمارت تهرانی، آب انبار دو دهانه و باغ ناصر است. فضای سبز باغ درختان میوه مانند انگور و سرو و کاج داشته و همچنین گل‌های محمدی و سرخ نیز در باغ دیده می‌شوند...بیشتر

Name: Jade

Type: Speed

Pilot: Grace Blitz

Special Ability: Burst Jump

Description: Every now and then, a racer enters a mecha into the Mecha Racing League that is just flat out unusual. Grace Blitz's Jade is one of those. Grace Blitz has a doctorate in both mecha engineering and entomology, so when she decided to design a mecha for the MRL, she modeled it after some of her favorite things: beetles and grasshoppers. Jade's six legged frame is incredibly stable and can handle numerous different types of terrain with ease. Unfortunately, it is not very agile on the ground. Thankfully, Grace designed her mecha with the Burst Jump ability. With Burst Jump, Jade fires the twelve boosters on its undercarriage to leap into the air. This allows it to get extreme air time and vault over the much taller competition. When the Jade isn't scurrying over the finish line in the speed division, it is often teemed up with Grace's brother Grit's Jasper in the MIX division of MRL.

 

- Build Notes -

This one was weird. I built this in under twenty-four hours, and it started out as a quadrupedal mech. I ended up changing it to be a beetle when I realized that the proportions were off. I am pretty happy with how this turned out, but it definitely isn't my best work.

 

The Indigenous Peoples in Canada are an inspirational example of resilience due to their ability to withstand adversity and persevere through generations of oppressive colonial policies. Historic injustices persist, including the effects of cultural genocide from the residential school system of Canada. Here we symbolize bridging the gap between Indigenous and non-Indigenous Peoples through gathering. Accomplished through the support of the seven grandfather teachings, represented by the seven rings of the installation, that originated with the Anishnabae Peoples, passed down through generations that ensures the survival of all Indigenous Peoples: Wisdom, Love, Respect, Bravery, Honesty, Humility, and Truth. Orange represents the National Day of Truth and Reconciliation, and the reality that the support of non-Indigenous Peoples, as Indigenous Peoples assert rights to self-determination, will strengthen relations and begin to redress the historic wrongs. Orange is displayed in the ropes where the pattern pays homage to the creation of drums, where the ropes were weaved to honour culture. The installations flow towards the lifeguard stand reinforces the strengthening of the relationship and that the protection of Canada hinges on the unity between peoples. We aim to symbolize movement to a new relationship, one based on mutual respect that honours Indigenous treaties and rights. The road forward is long and nonlinear, but we commit to take the journey together. - from www.winterstations.com

Design Team: University of Guelph, School of Environmental Design & Rural Development – Alex Feenstra, Megan Haralovich, Zhengyang Hua, Noah Tran, Haley White & Connor Winrow, Lead by Assistant Professor Afshin Ashari and Associate Professor Sean Kelly (Canada)

Head pressure, medically referred to as intracranial pressure, is pressure between the skull and the brain. Too much pressure in the head can restrict blood flow to the brain and press on structures in the brain. It is a serious medical condition that has the potential to cause severe damage to the brain or spinal cord. Contact your doctor if you experience pressure in the head. Symptoms of abnormal head pressure include lethargy, behavior changes, headache, seizures and vomiting.Even though it is tempting to think of our energy body as a sort of plumbing system with tubes and vents, the reality is completely different. Our energy system is more like clouds of gases that merge and mingle and sometimes cramp up. Or even better, you can imagine it as different coloured streams of water that weave and intermingle and sometimes freeze into ice. These different coloured water streams are our thoughts and emotions and when we try to suppress these thoughts and emotions they “freeze“ and we experience them as “blocks“ in our mind and body.he head chakras (forehead and crown) have to do with the mental part of our being which consists of our thoughts, concepts and beliefs on the intellectual and spiritual levels. When we experience head pressure we are literally suppressing certain thoughts that we do not want to think. It is this suppression that we experience as the head pressure and it happens completely unconsciously. People without kundalini also often unconsciously suppress certain thoughts but due to their greater unawareness they do not feel the pain of this suppression – they are more numb.In the kundalini process, a thirst awakens in us for expanded consciousness and more spirituality. However, there may be still parts of our old ego alive that do not want to have certain spiritual insights and defend themselves by rigorously suppressing ideas that challenge the old ego. So, this is the inner conflict that plays itself out in our head chakras – the fight for spiritual insights and authenticity on the one hand and the resistance of our old ego that is not yet ready to accept some humbling insights on the other.

Before I tell you what kind of thoughts people typically suppress, I need to give you a little warning. If you are a person with head pressure you will probably not like what I am about to tell you for the very reason that you have repressed these kinds of insights in the first place. But everything in this article is based on my work with hundreds of clients who had kundalini syndrome. All the clients who could take the following advice on board now have much less head pressure or none at all.

 

In my experience, most people with head pressure suppress self-critical thoughts. These people describe themselves as laid-back, easy going and even loving towards themselves. They do not criticise themselves and when others criticise them, they either completely ignore it or they get angry. However, in order to be a spiritually mature person, it is important that we clearly see our many flaws (without beating ourselves up about them) and then get to work to eliminate these flaws.

 

For people with low self-esteem, this is not difficult to do as they are usually too self-critical to start with. But it is those people who like themselves and have a high opinion of themselves who are most prone to pressure in the head chakras during the kundalini process. (If you do not like this insight, remember that I warned you!

Before I tell you what kind of thoughts people typically suppress, I need to give you a little warning. If you are a person with head pressure you will probably not like what I am about to tell you for the very reason that you have repressed these kinds of insights in the first place. But everything in this article is based on my work with hundreds of clients who had kundalini syndrome. All the clients who could take the following advice on board now have much less head pressure or none at all.

 

In my experience, most people with head pressure suppress self-critical thoughts. These people describe themselves as laid-back, easy going and even loving towards themselves. They do not criticise themselves and when others criticise them, they either completely ignore it or they get angry. However, in order to be a spiritually mature person, it is important that we clearly see our many flaws (without beating ourselves up about them) and then get to work to eliminate these flaws.

 

For people with low self-esteem, this is not difficult to do as they are usually too self-critical to start with. But it is those people who like themselves and have a high opinion of themselves who are most prone to pressure in the head chakras during the kundalini process. (If you do not like this insight, remember that I warned you!

 

Kundalini awakening symptoms include strange body sensations like shaking, tingling or the feeling of moving energy. On the psychologically level we often experience greatly intensified emotions and a general over-sensitivity to ‘everything’. And on the spiritual level we may experience a great increase of spiritual interest but also a lot of confusion.

 

The first thing that I explain to all my kundalini clients is that a kundalini awakening and its symptoms can be compared with the awakening of our sexual drive during puberty. Both processes have a lot in common.

 

First of all, both processes are irreversible. No matter, how much we yearn to go back to the carefree innocence of our childhood, puberty endows us with strong sexual urges that cannot be ignored. In the same way there is no going back once kundalini has made its presence known in our body and mind.

 

In both processes, puberty as well as kundalini awakening, we are endowed with a lot more power than we previously had. In puberty we develop the awesome power to create a new human being and during a kundalini awakening we receive powers like clairvoyance, supernatural abilities and ultimately the ability to manifest ourselves as a divine being.

 

But until we are able to harvest the full rewards of these newly awakened powers we have to change radically. As we all know, the transition from being a child to a happy parent usually entails many years of difficulties until we learn to channel our sex drive into loving relationships. Everything has to change during these years – our self-image, our relationships, our ability to take responsibility for our actions and generally our entire outlook on life.

In order to manage this process it is paramount to live as peacefully, lovingly and healthily as possible. Anything that could upset ourselves further like taking drugs, having promiscuous sex or experimenting on our mind with meditation without the help of an experienced kundalini teacher should be avoided.

 

It is good to have a spiritual outlook on life and develop trust in a divine power. But it is important not to overdo spiritual practices as they make the kundalini stronger. If you feel inclined to meditate daily it is paramount only to do this under the guidance of an experienced meditation teacher who has gone through a kundalini experience themselves.

 

Do ask your local meditation teacher if they have gone through this but do not be surprised if they haven’t because real kundalini awakenings are still very rare. Luckily, in the age of the internet you can also try to find a teacher online and build a trusting relationship in order to get guidance about how to meditate.

It is particularly important to avoid any form of energy healing like reiki or acupuncture. These forms of healing are devised for people who are not in a kundalini process and often do a very good job. But once we have become over-sensitive during a kundalini process these healing modalities can aggravate us severely.

 

A comparison with puberty can explain why this is. Imagine being upset about your emerging sexual needs and you go to an energy healer to get rid of them. It is obvious that this is doomed to fail. Our libido, as well as the kundalini, is far stronger than these approaches and we will only end up in even more suffering if we try to remove of either of them.

 

Another thing to avoid is breathing exercises like re-birthing or yogic breathing. Both are powerful ways to alter our body and brain chemistry and can have disastrous consequences if used even slightly in the wrong way. Breathing exercises can be compared with prescription drugs. They should only be used when administered by a skilful physician and certainly not to someone who is seriously challenged by a kundalini process.

I have had many kundalini clients who read all sorts of horror stories on the internet and were very afraid. It is this fear that makes kundalini symptoms far worse than they need be. Just think of how a teenage girl would feel who is repeatedly told that there is the risk of being murdered by her own husband. While this may be true in extremely rare cases, it is not helpful to frighten young people in this way.

 

The same can be said about kundalini. In rare cases people may deal with it so badly that they end up in a very painful place. But in order for this to happen a lot of negative factors have come together and it is not useful to frighten yourself with these ideas on top of the challenges that kundalini entails anyway. So I strongly advise people to stay away from reading any frightening material about kundalini.

A kundalini awakening is a very individual and personal process, just like the development of a satisfying sexuality after puberty is a very personal process. People usually benefit a great deal from personal guidance in both processes.

 

For a kundalini awakening, you need an experienced spiritual teacher who has gone through this process themselves – just like all youths need guidance about sexuality and relationships from someone who has mastered these areas themselves.

 

People also benefit from guidance about how to deal with their budding clairvoyance, which can be very confusing and frightening for the unprepared mind. However, the biggest challenge is always the very personal material that emerges from one’s unconscious mind during this process, requiring personal advice.

 

Finally, it is paramount to adjust your spiritual practices to accommodate the kundalini so that it flows calmly and steadily and does not erupt in fits and starts. In order to do this, you need a personal relationship to a kundalini teacher who can guide you in this way.

 

kundalinisymptoms.com/info/help-kundalini-awakening/

By OneERA .vn

朱家角之 -東方威尼斯 。

  

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Technical Details:

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Basic Standard Gears I rely for Landscape

Canon EOS 5D Mark2 (a full frame ideal for interpolating landscape image).

Tokina 16-28 F2.8 ultra wide lens.

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VHR - springthorpe

Statement of Significance

 

What is significant?

 

The Springthorpe Memorial within the Boroondara Cemetery (VHR0049)commemorates Annie Springthorpe, and was erected in 1897 by her husband Dr John Springthorpe. It was designed by Harold Desbrowe Annear and includes Bertram Mackennal sculptures. It contains twelve columns of deep green granite from Scotland supporting a Harcourt granite superstructure, and a glass dome roof of lead lighting.

 

How is it significant?

 

The Springthorpe Memorial is of historic and architectural significance to the State of Victoria

 

Why is it significant?

 

The Springthorpe Memorial is historically important in demonstrating nineteenth century social and cultural attitudes to death, and for reflecting the ideals of the Victorian Garden Cemetery movement which aimed at providing comfort for mourners. The memorial is important in demonstrating uniqueness, no other example being known of such aesthetic composition, architectural design and execution, or scale. It is important in exhibiting good design and aesthetic characteristics and for the richness and unusual integration of features. The Springthorpe Memorial is also important in illustrating the principal characteristics of the work of a number of artists including Desbrowe Annear, Mackennal, the glass manufacturers Auguste Fischer and the bronze work of Marriots.

 

VHR Statement of Significance

 

What is significant?

 

Boroondara Cemetery, established in 1858, is within an unusual triangular reserve bounded by High Street, Park Hill Road and Victoria Park, Kew. The caretaker's lodge and administrative office (1860 designed by Charles Vickers, additions, 1866-1899 by Albert Purchas) form a picturesque two-storey brick structure with a slate roof and clock tower. A rotunda or shelter (1890, Albert Purchas) is located in the centre of the cemetery: this has an octagonal hipped roof with fish scale slates and a decorative brick base with a tessellated floor and timber seating. The cemetery is surrounded by a 2.7 metre high ornamental red brick wall (1895-96, Albert Purchas) with some sections of vertical iron palisades between brick pillars. Albert Purchas was a prominent Melbourne architect who was the Secretary of the Melbourne General Cemetery from 1852 to 1907 and Chairman of the Boroondara Cemetery Board of Trustees from 1867 to 1909. He made a significant contribution to the design of the Boroondara Cemetery

 

Boroondara Cemetery is an outstanding example of the Victorian Garden Cemetery movement in Victoria, retaining key elements of the style, despite overdevelopment which has obscured some of the paths and driveways. Elements of the style represented at Boroondara include an ornamental boundary fence, a system of curving paths which are kerbed and follow the site's natural contours, defined views, recreational facilities such as the rotunda, a landscaped park like setting, sectarian divisions for burials, impressive monuments, wrought and cast iron grave surrounds and exotic symbolic plantings. In the 1850s cemeteries were located on the periphery of populated areas because of concerns about diseases like cholera. They were designed to be attractive places for mourners and visitors to walk and contemplate. Typically cemeteries were arranged to keep religions separated and this tended to maintain links to places of origin, reflecting a migrant society.

 

Other developments included cast iron entrance gates, built in 1889 to a design by Albert Purchas; a cemetery shelter or rotunda, built in 1890, which is a replica of one constructed in the Melbourne General Cemetery in the same year; an ornamental brick fence erected in 1896-99(?); the construction and operation of a terminus for a horse tram at the cemetery gates during 1887-1915; and the Springthorpe Memorial built between 1897 and 1907. A brick cremation wall and a memorial rose garden were constructed near the entrance in the mid- twentieth century(c.1955-57) and a mausoleum completed in 2001.The maintenance shed/depot close to High Strett was constructed in 1987. The original entrance was altered in 2000 and the original cast iron gates moved to the eastern entrance of the Mausoleum.

 

The Springthorpe Memorial (VHR 522) set at the entrance to the burial ground commemorates Annie Springthorpe, and was erected between 1897 and 1907 by her husband Dr John Springthorpe. It was the work of the sculptor Bertram Mackennal, architect Harold Desbrowe Annear, landscape designer and Director of the Melbourne Bortanic Gardens, W.R. Guilfoyle, with considerable input from Dr Springthorpe The memorial is in the form of a small temple in a primitive Doric style. It was designed by Harold Desbrowe Annear and includes Bertram Mackennal sculptures in Carrara marble. Twelve columns of deep green granite from Scotland support a Harcourt granite superstructure. The roof by Brooks Robinson is a coloured glass dome, which sits within the rectangular form and behind the pediments. The sculptural group raised on a dais, consists of the deceased woman lying on a sarcophagus with an attending angel and mourner. The figure of Grief crouches at the foot of the bier and an angel places a wreath over Annie's head, symbolising the triumph of immortal life over death. The body of the deceased was placed in a vault below. The bronze work is by Marriots of Melbourne. Professor Tucker of the University of Melbourne composed appropriate inscriptions in English and archaic Greek lettering.. The floor is a geometric mosaic and the glass dome roof is of Tiffany style lead lighting in hues of reds and pinks in a radiating pattern. The memorial originally stood in a landscape triangular garden of about one acre near the entrance to the cemetery. However, after Dr Springthorpe's death in 1933 it was found that transactions for the land had not been fully completed so most of it was regained by the cemetery. A sundial and seat remain. The building is almost completely intact. The only alteration has been the removal of a glass canopy over the statuary and missing chains between posts. The Argus (26 March 1933) considered the memorial to be the most beautiful work of its kind in Australia. No comparable buildings are known.

 

The Syme Memorial (1908) is a memorial to David Syme, political economist and publisher of the Melbourne Age newspaper. The Egyptian memorial designed by architect Arthur Peck is one of the most finely designed and executed pieces of monumental design in Melbourne. It has a temple like form with each column having a different capital detail. These support a cornice that curves both inwards and outwards. The tomb also has balustradings set between granite piers which create porch spaces leading to the entrance ways. Two variegated Port Jackson Figs are planted at either end.

 

The Cussen Memorial (VHR 2036) was constructed in 1912-13 by Sir Leo Cussen in memory of his young son Hubert. Sir Leo Finn Bernard Cussen (1859-1933), judge and member of the Victorian Supreme Court in 1906. was buried here. The family memorial is one of the larger and more impressive memorials in the cemetery and is an interesting example of the 1930s Gothic Revival style architecture. It takes the form of a small chapel with carvings, diamond shaped roof tiles and decorated ridge embellishing the exterior.

 

By the 1890s, the Boroondara Cemetery was a popular destination for visitors and locals admiring the beauty of the grounds and the splendid monuments. The edge of suburban settlement had reached the cemetery in the previous decade. Its Victorian garden design with sweeping curved drives, hill top views and high maintenance made it attractive. In its Victorian Garden Cemetery design, Boroondara was following an international trend. The picturesque Romanticism of the Pere la Chaise garden cemetery established in Paris in 1804 provided a prototype for great metropolitan cemeteries such as Kensal Green (1883) and Highgate (1839) in London and the Glasgow Necropolis (1831). Boroondara Cemetery was important in establishing this trend in Australia.

 

The cemetery's beauty peaked with the progressive completion of the spectacular Springthorpe Memorial between 1899 and 1907. From about the turn of the century, the trustees encroached on the original design, having repeatedly failed in attempts to gain more land. The wide plantations around road boundaries, grassy verges around clusters of graves in each denomination, and most of the landscaped surround to the Springthorpe memorial are now gone. Some of the original road and path space were resumed for burial purposes. The post war period saw an increased use of the Cemetery by newer migrant groups. The mid- to late- twentieth century monuments were often placed on the grassed edges of the various sections and encroached on the roadways as the cemetery had reached the potential foreseen by its design. These were well tended in comparison with Victorian monuments which have generally been left to fall into a state of neglect.

 

The Boroondara Cemetery features many plants, mostly conifers and shrubs of funerary symbolism, which line the boundaries, road and pathways, and frame the cemetery monuments or are planted on graves. The major plantings include an impressive row of Bhutan Cypress (Cupressus torulosa), interplanted with Sweet Pittosporum (Pittosporum undulatum), and a few Pittosporum crassifolium, along the High Street and Parkhill Street, where the planting is dominated by Sweet Pittosporum.

 

Planting within the cemetery includes rows and specimen trees of Bhutan Cypress and Italian Cypress (Cupressus sempervirens), including a row with alternate plantings of both species. The planting includes an unusual "squat" form of an Italian Cypress. More of these trees probably lined the cemetery roads and paths. Also dominating the cemetery landscape near the Rotunda is a stand of 3 Canary Island Pines (Pinus canariensis), a Bunya Bunya Pine (Araucaria bidwillii) and a Weeping Elm (Ulmus glabra 'Camperdownii')

 

Amongst the planting are the following notable conifers: a towering Bunya Bunya Pine (Araucaria bidwillii), a Coast Redwood (Sequoia sempervirens), a rare Golden Funeral Cypress (Chamaecyparis funebris 'Aurea'), two large Funeral Cypress (Chamaecyparis funebris), and the only known Queensland Kauri (Agathis robusta) in a cemetery in Victoria.

 

The Cemetery records, including historical plans of the cemetery from 1859, are held by the administration and their retention enhances the historical significance of the Cemetery.

 

How is it significant?

 

Boroondara Cemetery is of aesthetic, architectural, scientific (botanical) and historical significance to the State of Victoria.

 

Why is it significant?

 

The Boroondara Cemetery is of historical and aesthetic significance as an outstanding example of a Victorian garden cemetery.

 

The Boroondara Cemetery is of historical significance as a record of Victorian life from the 1850s, and the early settlement of Kew. It is also significant for its ability to demonstrate, through the design and location of the cemetery, attitudes towards burial, health concerns and the importance placed on religion, at the time of its establishment.

 

The Boroondara Cemetery is of architectural significance for the design of the gatehouse or sexton's lodge and cemetery office (built in stages from 1860 to 1899), the ornamental brick perimeter fence and elegant cemetery shelter to the design of prominent Melbourne architects, Charles Vickers (for the original 1860 cottage) and Albert Purchas, cemetery architect and secretary from 1864 to his death in 1907.

 

The Boroondara Cemetery has considerable aesthetic significance which is principally derived from its tranquil, picturesque setting; its impressive memorials and monuments; its landmark features such as the prominent clocktower of the sexton's lodge and office, the mature exotic plantings, the decorative brick fence and the entrance gates; its defined views; and its curving paths. The Springthorpe Memorial (VHR 522), the Syme Memorial and the Cussen Memorial (VHR 2036), all contained within the Boroondara Cemetery, are of aesthetic and architectural significance for their creative and artistic achievement.

 

The Boroondara Cemetery is of scientific (botanical) significance for its collection of rare mature exotic plantings. The Golden Funeral Cypress, (chamaecyparis funebris 'aurea') is the only known example in Victoria.

 

The Boroondara Cemetery is of historical significance for the graves, monuments and epitaphs of a number of individuals whose activities have played a major part in Australia's history. They include the Henty family, artists Louis Buvelot and Charles Nuttall, businessmen John Halfey and publisher David Syme, artist and diarist Georgiana McCrae, actress Nellie Stewart and architect and designer of the Boroondara and Melbourne General Cemeteries, Albert Purchas.

"Patience - the ability to put our desires on hold for a time - is a precious and rare virtue "

 

IMO number 9327504

Vessel Name IVER ABILITY

Ship Type Bitumen Tanker

Flag Gibraltar

Year of Build 2006

Length Overall (m) 129.00

Beam (m) 22.00

 

www.vesselfinder.com/vessels/details/9327504

MB75.

Ferrari Testarossa (1984-1991).

Escala 1/59.

Matchbox Superfast.

Matchbox Int´l Ltd.

© 1985.

Made in Macau.

Año 1986.

 

All versions in:

www.mbxforum.com/11-Catalogs/00-Software/jnmb75nda.php?uS...

www.cfalkensteiner.com/Matchbox/Catalog/MI/MI001-200/MI17...

---------------------------------------------------------------------------------------------------

 

Ferrari Testarossa

 

From Wikipedia, the free encyclopedia

 

"The Ferrari Testarossa (Type F110) is a 12-cylinder mid-engine sports car manufactured by Ferrari, which went into production in 1984 as the successor to the Ferrari Berlinetta Boxer.

The Pininfarina-designed car was originally produced from 1984 to 1991, with two model revisions following the ending of Testarossa production and the introduction of the 512 TR and F512 M which were produced from 1992 to 1996.

Almost 10,000 Testarossas, 512 TRs, and F512 Ms were produced, making it one of the most-produced Ferrari models, despite its high price and exotic design.

In 1995, the F512 M retailed for $220,000 (£136,500)."

 

"The Testarossa is a two-door coupé that premiered at the 1984 Paris Auto Show.

All versions of the Testarossa had the power fed through the wheels from a rear-mounted, five-speed manual transmission. The rear mid-engine, rear-wheel drive layout (engine between the axles but behind the cabin) keeps the centre of gravity in the middle of the car, which increases stability and improves the car's cornering ability, and thus results in a standing weight distribution of 40% front: 60% rear.

The original Testarossa was re-engineered for 1992 and released as the 512 TR, at the Los Angeles Auto Show, effectively as a completely new car, and an improved weight distribution of 41% front: 59% rear.

The F512 M was introduced at the 1994 Paris Auto Show."

(...)

 

"The Testarossa sports a 4.9 litre (4,943 cc or 301.6 cu in) Ferrari flat-12 engine mid mounted."

(...)

 

"The Ferrari Testarossa can accelerate from 0–100 kilometres per hour (62 mph) in 5.3 seconds and from 0–60 miles per hour (97 km/h) in 5.2 seconds and on to 100 mph (161 km/h) in 11.40 seconds."

(...)

"The maximum speed of the Testarossa is 290 kilometres per hour (180 mph)."

(...)

 

----------------

Testarossa

 

Production

1984–1991 (7,177 produced)

 

Engine

4.9 L F12 291 kW (390 hp)

 

Wheelbase

2,550 mm (100.4 in)

Length

4,485 mm (176.6 in)

Width

1,976 mm (77.8 in)

Height

1,130 mm (44.5 in)

Curb weigh

t1,708.2 kg (3,766 lb)

 

Predecessor

Ferrari BB 512i

 

Successor

512TR

 

-------------------------------------------------------

Ferrari Testarossa, 512 TR and F512 M

 

Manufacturer

Ferrari

 

Production

1984–1996

 

Assembly

Maranello, Italy

 

Designer

Leonardo Fioravanti, Ian Cameron, Guido Campoli, Emmanuele Nicosia, Diego Ottina

at Pininfarina

 

Class

Sports car (S)

 

Body style

2-door berlinetta

 

Layout

Rear mid-engine, rear-wheel drive

 

Transmission

5-speed manual

 

Predecessor

Ferrari BB 512i

 

Successor

Ferrari 550 Maranello

 

Source: en.wikipedia.org/wiki/Ferrari_Testarossa

 

The former 'Aquitania' digs in on the 1 in 100 climb to Ais Gill Summit - a route their ability to keep on slogging was ideal suited to. The BR flat topped box is only 5 years old in this scene but almost 40 years later it still at work.

A straining wire has been digitally removed!

 

Before I made the acquaintance of George Anastaplo I saw him walking down the street in Chicago's Hyde Park neighborhood.

 

There was something about him that caught my eye... something about the way that he walked and the way that he smiled... there was something about his spirit... there was something that I wanted to capture.

 

George has what I like to call 'The Magic Mojo.'

 

I wanted to pop him right there on the street but I was late in getting to a very special dinner with some great friends.

 

I had to let the urge go.

 

I regretted my artistic inaction the moment I passed him on the street there.

 

Fortunately the regret would be short lived.

 

In one of those funny little twists of fate that life seems to lay on me... when we got to the dinner George ended up being seated right next to me.

 

He's a fascinating guy.

 

A great storyteller, I really enjoyed the conversation that we shared as we sat there at the table.

 

'While most lawyers go through an entire career without getting the opportunity to argue before the U.S. Supreme Court, George Anastaplo did so without entering the legal profession—and then, he likes to say, he retired.' ~ Maria Kantzavelos, Chicago Daily Law Bulletin, April 25, 2011, page 1

 

George completed his undergraduate degree in only one year at the University of Chicago.

 

It took me longer than that to pay my overdue library fines from freshman year.

 

In 1951 he graduated at the top of his law school class.

 

I would have liked to have sat next to him.

 

In 1964 George completed his doctorate at the University of Chicago’s Committee on Social Thought.

 

Since then he's written more than 20 books on a multitude of subjects.

 

"A longtime Loyola University Chicago School of Law professor who today teaches courses in constitutional law and jurisprudence, Anastaplo became an eclectic scholar and teacher" ~ Maria Kantzavelos

 

'Fifty years ago Sunday, on April 24, 1961, the U.S. Supreme Court rendered a decision that affirmed the decision of the Illinois Supreme Court to deny Anastaplo admission to the Illinois bar because he refused to answer questions asked by the bar’s character committee about political associations.' ~ Maria Kantzavelos

 

When George graduated from law school and he interviewed for admission into the Illinois Bar Association he had to be questioned in front of the 'character committee' they asked 'do you think a communist should be admitted into the bar of this state?'

 

George's answer?

 

‘Well, why not?’

 

Then they asked George if he was now or was ever a member of the Communist Party.

 

George didn't feel that he should answer that question and because of that conviction they wouldn't give him admission into the Illinois Bar and he couldn't practice law even though the dude graduated at the top of his class. Hmmmmph.

 

'Had he gone along with the process, things could have turned out differently for Anastaplo, who was being considered for a position at one of the big law firms in town.' ~ Maria Kantzavelos

 

But that didn't stop the fiesty twenty five year old.

 

He fought over the next ten years, ultimately laying out his case in front of the United States Supreme Court.

 

He argued there as a lawyer without a license!

 

'In 1954 petitioner, George Anastaplo, an instructor and research assistant at the University of Chicago, having previously passed his Illinois bar examinations, was denied admission to the bar of that State by the Illinois Supreme Court. The denial was based upon his refusal to answer questions of the Committee on Character and Fitness as to whether he was a member of the Communist Party.' ~ 366 U.S. 82 IN RE ANASTAPLO

 

'The ensuing lengthy proceedings before the Committee, at which Anastaplo was the only witness, are perhaps best described as a wide-ranging exchange between the Committee and Anastaplo in which the Committee sought to explore Anastaplo's ability conscientiously to swear support of the Federal and State Constitutions, as required by the Illinois attorneys' oath, and Anastaplo undertook to expound and defend, on historical and ideological premises, his abstract belief in the 'right of revolution,' and to resist, on grounds of asserted constitutional right and scruple, Committee questions which he deemed improper. The Committee already had before it uncontroverted evidence as to Anastaplo's 'good moral character,' in the form of written statements or affidavits furnished by persons of standing acquainted with him, and the record on rehearing contains nothing which could properly be considered as reflecting adversely upon his character or reputation or on the sincerity of the beliefs he espoused before the Committee. Anastaplo persisted, however, in refusing to answer, among other inquiries, the Committee's questions as to his possible membership in the Communist Party or in other allegedly related organizations. ~ 366 U.S. 82 IN RE ANASTAPLO

 

Thereafter the Committee, by a vote of 11 to 6, again declined to certify Anastaplo because of his refusal to answer such questions, the majority stating in its report to the Illinois Supreme Court:

 

'his (Anastaplo's) failure to reply, in our view, obstructs the lawful processes of the Committee, prevents inquiry into subjects which bear intimately upon the issue of character and fitness, such as loyalty to our basic institutions, belief in representative government and bona fides of the attorney's oath and results in his failure to meet the burden of establishing that he possesses the good moral character and fitness to practice law, which are conditions to the granting of a license to practice law.

 

'We draw no inference of disloyalty or subversion from applicant's continued refusal to answer questions concerning Communist or other subversive affiliations. We do, however, hold that there is a strong public interest in our being free to question applicants for admission to the bar on their adherence to our basic institutions and form of government and that such public interest in the character of its attorneys overrides an applicant's private interest in keeping such views to himself. By failing to respond to this higher public interest we hold that the applicant has obstructed the proper functions of the Committee. We cannot certify the applicant as worthy of the trust and confidence of the public when we do not know that he is so worthy and when he has prevented us from finding out.'

 

At the same time the full Committee acknowledged that Anastaplo 'is well regarded by his academic associates, by professors who had taught him in school and by members of the Bar who know him personally'; that it had 'not been supplied with any information by any third party which is derogatory to Anastaplo's character or general reputation. ~ ~ 366 U.S. 82 IN RE ANASTAPLO

 

THE DISSENTING OPINION

 

'United States Supreme Court

 

366 U.S. 82

 

IN RE ANASTAPLO

 

No. 58. Argued: December 14, 1960. --- Decided: April 24, 1961.

 

CERTIORARI TO THE SUPREME COURT OF ILLINOIS.

 

Mr. Justice BLACK, with whom THE CHIEF JUSTICE, Mr. Justice DOUGLAS and Mr. Justice BRENNAN concur, dissenting.

 

The petitioner George Anastaplo has been denied the right to practice law in the State of Illinois for refusing to answer questions about his views and associations. I think this action by the State violated rights guaranteed to him by the First and Fourteenth Amendments. The reasons which lead me to this conclusion are largely the same as those expressed in my dissenting opinion in Konigsberg v. State Bar of California, 366 U.S. at page 56, 81 S.Ct. at page 1010. But this case provides such a striking illustration of the destruction that can be inflicted upon individual liberty when this Court fails to enforce the First Amendment to the full extent of its express and unequivocal terms that I think it deserves separate treatment.

 

The controversy began in November 1950, when Anastaplo, a student at the University of Chicago Law School, having two months previously successfully passed the Illinos Bar examination, appeared before the State's Committee on Character and Fitness for the usual interview preliminary to admission to the Bar. The personal history form required by state law had been filled out and filed with the Committee prior to his appearance and showed that Anastaplo was an unusually worthy applicant for admission. His early life had been spent in a small town in southern Illinois where his parents, who had immigrated to this country from Greece before his birth, still resided. After having received his precollege education in the public schools of his home town, he had discontinued his education, at the age of eighteen, and joined the Air Force during the middle of World War II-flying as a navigator in every major theater of the military operations of that war. Upon receiving an honorable discharge in 1947, he had come to Chicago and resumed his education, obtaining his undergraduate degree at the University of Chicago and entering immediately into the study of law at the University of Chicago Law School. His record throughout his life, both as a student and as a citizen, was unblemished.

 

The personal history form thus did not contain so much as one statement of fact about Anastaplo's past life or conduct that could have, in any way, cast doubt upon his fitness for admission to the Bar. It did, however, contain a statement of opinion which, in the minds of some of the members of the Committee at least, did cast such doubt and in that way served to touch off this controversy. This was a statement made by Anastaplo in response to the command of the personal history form: 'State what you consider to be the principles underlying the Constitution of the United States.' Anastaplo's response to that command was as follows:

 

'One principle consists of the doctrine of the separation of powers; thus, among the Executive, Legislative, and Judiciary are distributed various functions and powers in a manner designed to provide for a balance of power, thereby intending to prevent totally unrestrained action by any one branch of government. Another basic principle (and the most important) is that such government is constituted so as to secure certain inalienable rights, those rights to Life, Liberty and the Pursuit of Happiness (and elements of these rights are explicitly set forth in such parts of the Constitution as the Bill of Rights.). And, of course, whenever the particular government in power becomes destructive of these ends, it is the right of the people to alter or to abolish it and thereupon to establish a new government. This is how I view the Constitution.'

 

When Anastaplo appeared before a two-man Subcommittee of the Committee on Character and Fitness, one of its members almost immediately engaged him in a discussion relating to the meaning of these italicized words which were substantially taken from that part of the Declaration of Independence set out below. This discussion soon developed into an argument as Anastaplo stood by his statement and insisted that if a government gets bad enough, the people have a 'right of revolution.' It was at this juncture in the proceedings that the other member of the Subcommittee interrupted with the question: 'Are you a member of any organization that is listed on the Attorney General's list, to your knowledge?' And this question was followed up a few moments later with the question: 'Are you a member of the Communist Party?' A colloquy then ensued between Anastaplo and the two members of the Subcommittee as to the legitimacy of the questions being asked, Anastaplo insisting that these questions were not reasonably related to the Committee's functions and that they violated his rights under the Constitution, and the members of the Subcommittee insisting that the questions were entirely legitimate.

 

The Subcommittee then refused to certify Anastaplo for admission to the Bar but, instead, set a further hearing on the matter before the full Committee. That next hearing, as well as all of the hearings that followed, have been little more than repetitions of the first. The rift between Anastaplo and the Committee has grown ever wider with each successive hearing. Anastaplo has stead-fastly refused to answer any questions put by the Committee which inquired into his political associations or religious beliefs. A majority of the members of the Committee, faced with this refusal, has grown more and more insistent that it has the right to force him to answer any question it sees fit to ask. The result has been a series of hearings in which questions have been put to Anastaplo with regard to his 'possible' association with scores of organizations, including the Ku Klux Klan, the Silver Shirts (an allegedly Fascist organization), every organization on the so-called Attorney General's list, the Democratic Party, the Republican Party, and the Communist Party. At one point in the proceedings, at least two of the members of the Committee insisted that he tell the Committee whether he believes in a Supreme Being and one of these members stated that, as far as his vote was concerned, a man's 'belief in the Deity * * * has a substantial bearing upon his fitness to practice law.'

 

It is true, as the majority points out, that the Committee did not expressly rest its refusal to certify Anastaplo for admission to the Bar either upon his views on the 'right of revolution,' as that 'right' is defined in the Declaration of Independence, or upon his refusal to disclose his beliefs with regard to the existence of God, [4] or upon his refusals to disclose any of his political associations other than his 'possible' association with the Communist Party. But it certainly cannot be denied that the other questions were asked and, since we should not presume that these members of the Committee did not want answers to their questions, it seems certain that Anastaplo's refusal to answer them must have had some influence upon the final outcome of the hearings. In any case, when the Committee did vote, 11-6, not to certify Anastaplo for admission, not one member who asked any question Anastaplo had refused to answer voted in his favor.

 

The reasons for Anastaplo's position have been stated by him time and again-first, to the Committee and, later, in the briefs and oral arguments he presented in his own behalf, both before this Court and before the Supreme Court of Illinois. From a legal standpoint, his position throughout has been that the First Amendment gave him a right not to disclose his political associations or his religious beliefs to the Committee. But his decision to refuse to disclose these associations and beliefs went much deeper than a bare reliance upon what he considered to be his legal rights. The record shows that his refusal to answer the Committee's question stemmed primarily from his belief that he had a duty, both to society and to the legal profession, not to submit to the demands of the Committee because he believed that the questions had been asked solely for the purpose of harassing him because he had expressed agreement with the assertion of the right of revolution against an evil government set out in the Declaration of Independence. His position was perhaps best stated before the Committee in his closing remarks at the final session:

 

'It is time now to close. Differences between us remain. I leave to others the sometimes necessary but relatively easy task of praising Athens to Athenians. Besides, you should want no higher praise than what I have said about the contribution the bar can make to republican government. The bar deserves no higher praise until it makes that contribution. You should be grateful that I have not made a complete submission to you, even though I have cooperated as fully as good conscience permits. To the extent I have not submitted, to that extent have I contributed to the solution of one of the most pressing problems that you, as men devoted to character and fitness, must face. This is the problem of selecting the standards and methods the bar must employ if it is to help preserve and nourish that idealism, that vital interest in the problem of justice, that so often lies at the heart of the intelligent and sensitive law student's choice of career. This is an idealism which so many things about the bar, and even about bar admission practices, discourage and make unfashionable to defend or retain. The worthiest men live where the rewards of virtue are greatest.

 

'I leave with you men of Illinois the suggestion that you do yourselves and the bar the honor, as well as the service, of anticipating what I trust will be the judgment of our most thoughtful judges. I move therefore that you recommend to the Supreme Court of Illinois that I be admitted to the bar of this State. And I suggest that this recommendation be made retroactive to November 10, 1950 when a young Air Force veteran first was so foolish as to continue to serve his country by daring to defend against a committee on character and fitness the teaching of the Declaration of Independence on the right of revolution.'

 

The reasons for the Committee's position are also clear. Its job, throughout these proceedings, has been to determine whether Anastaplo is possessed of the necessary good moral character to justify his admission to the Bar of Illinois. In that regard, the Committee has been given the benefit of voluminous affidavits from men of standing in their professions and in the community that Anastaplo is possessed of an unusually fine character. Dr. Alexander Meiklejohn, Professor of Philosophy, Emeritus, at the University of Wisconsin, for example, described Anastaplo as 'intellectually able, a hard, thorough student and moved by high devotion to the principles of freedom and justice.' Professor Malcolm P. Sharp of the University of Chicago Law School stated: 'No question has ever been raised about his honesty or his integrity, and his general conduct, characterized by friendliness, quiet independence, industry and courage, is reflected in his reputation.' Professor Roscoe T. Steffen of the University of Chicago Law School said: 'I know of no one who doubts his honesty and integrity.' Yves R. Simon, Professor of Philosophy at the University of Chicago, said: 'I consider Anastaplo as a young man of the most distinguished and lofty moral character. Everybody respects him and likes him.' Angelo G. Geocaris, a practicing attorney in the City of Chicago, said of Anastaplo: 'His personal code of ethics is unexcelled by any practicing attorney I have met in the state of Illinois.' Robert J. Coughlan, Division Director of a research project at the University of Chicago, said: 'His honesty and integrity are, in my opinion, beyond question. I would highly recommend him without the slightest reservation for any position involving the highest or most sacred trust. The applicant is a rare man among us today: he has an inviolable sense of Honor in the great traditions of Greek culture and thought. If admitted to the American Bar, he could do nothing that would not reflect glory on that institution.'

 

These affidavits and many more like them were presented to the Committee. Most of the statements came from men who knew Anastaplo intimately on the University of Chicago campus where Anastaplo has remained throughout the proceedings here involved, working as a research assistant and as a lecturer in Liberal Arts and studying for an advanced degree in History and Social Sciences. Even at the present time, he is still there preparing his doctoral dissertation which, understandably enough, is tentatively entitled 'The Historical and Philosophical Background of the First Amendment of the Constitution of the United States.'

 

The record also shows that the Committee supplemented the information it had obtained about Anastaplo from these affidavits by conducting informal independent investigations into his character and reputation. It sent agents to Anastaplo's home town in southern Illinois and they questioned the people who knew him there. Similar inquiries were made among those who knew him in Chicago. But these intensive investigations apparently failed to produce so much as one man in Chicago or in the whole State of Illinois who could say or would say, directly, indirectly or even by hearsay, one thing derogatory to the character, loyalty or reputation of George Anastaplo, and not one man could be found who would in any way link him with the Communist Party. This fact is particularly significant in view of the evidence in the record that the Committee had become acquainted with a person who apparently had been a member of a Communist Party cell on the University of Chicago campus and that this person was asked to and did identify for the Committee every member of the Party whom he knew.

 

In addition to the information it had obtained from the affidavits and from its independent investigations, the Committee had one more important source of information about Anastaplo's character. It had the opportunity to observe the manner in which he conducted himself during the many hours of hearings before it. That manner, as revealed by the record before us and undenied by any findings of the Committee to the contrary, left absolutely nothing to be desired. Faced with a barrage of sometimes highly provocative and totally irrelevant questions from men openly hostile to his position, Anastaplo invariably responded with all the dignity and restraint attributed to him in the affidavits of his friends. Moreover, it is not amiss to say that he conducted himself in precisely the same manner during the oral argument he presented before this Court.

 

Thus, it is against the background of a mountain of evidence so favorable to Anastaplo that the word 'overwhelming' seems inadequate to describe it that the action of the Committee in refusing to certify Anastaplo as fit for admission to the Bar must be considered. The majority of the Committee rationalized its position on the ground that without answers to some of the questions it had asked, it could not conscientiously perform its duty of determining Anastaplo's character and fitness to be a lawyer. A minority of the Committee described this explanation as 'pure sophistry.' And it is simply impossible to read this record without agreeing with the minority. For, it is difficult to see what possible relevancy answers to the questions could have had in the minds of these members of the Committee after they had received such completely overwhelming proof beyond a reasonable doubt of Anastaplo's good character and staunch patriotism. I can think of no sound reason for further insistence upon these answers other than the very questionable, but very human, feeling that this young man should not be permitted to resist the Committee's demands without being compelled to suffer for it in some way.

 

It is intimated that the Committee's feeling of resentment might be assuaged and that Anastaplo might even be admitted to the Bar if he would only give in to the demands of the Committee and add the requested test oath to the already overwhelming proof he has submitted to establish his good character and patriotism. In this connection, the Court says: 'We find nothing to suggest that he would not be admitted now if he decides to answer, assuming of course that no grounds justifying his exclusion from practice resulted. In short, petitioner holds the key to admission in his own hands.' However well this familiar phrase may fit other cases, it does not fit this one. For the attitude of the Committee, as revealed by the transcript of its hearings, does not support a belief that Anastaplo can gain admission to the Illinois Bar merely by answering the Committee's questions, whatever answers he should give. Indeed, the Committee's own majority report discloses that Anastaplo's belief in the 'right of revolution' was regarded as raising 'a serious question' in the minds of a majority of the Committee with regard to his fitness to practice law and that 'certain' members of that majority (how many, we cannot know) have already stated categorically that they will not vote to admit an applicant who expresses such views. Nor does the opinion of the Illinois Supreme Court indicate that Anastaplo 'holds the key to admission in his own hands.' Quite the contrary, that court's opinion evidences an almost insuperable reluctance to upset the findings of the Committee. Certainly, that opinion contains nothing that even vaguely resembles the sort of implicit promise that would justify the belief asserted by the majority here. And, finally, I see nothing in the majority opinion of this Court, nor in the majority opinions in the companion cases decided today, that would justify a belief that this Court would unlock the door that blocks his admission to the Illinois Bar if Anastaplo produced the 'key' and the state authorities refused to use it.

 

The opinion of the majority already recognizes that there is not one scrap of evidence in the record before us 'which could properly be considered as reflecting adversely upon his (Anastaplo's) character or reputation or on the sincerity of the beliefs he espoused before the Committee,' and that the Committee had not received any "information from any outside source which would cast any doubt on applicant's loyalty or which would tend to connect him in any manner with any subversive group." The majority opinion even concedes that Anastaplo was correct in urging that the questions asked by the Committee impinged upon the freedoms of speech and association guaranteed by the First and Fourteenth Amendments. But, the opinion then goes on to hold that Anastaplo can nonetheless be excluded from the Bar pursuant to 'the State's interest in having lawyers who are devoted to the law in its broadest sense .' I cannot regard that holding, as applied to a man like Anastaplo, as in any way justified. Consider it, for example, in the context of the following remarks of Anastaplo to the Committee-remarks the sincerity of which the majority does not deny:

 

'I speak of a need to remind the bar of its traditions and to keep alive the spirit of dignified but determined advocacy and opposition. This is not only for the good of the bar, of course, but also because of what the bar means to American republican government. The bar when it exercises self-control is in a peculiar position to mediate between popular passions and informed and principled men, thereby upholding republican government. Unless there is this mediation, intelligent and responsible government is unlikely. The bar, furthermore, is in a peculiar position to apply to our daily lives the constitutional principles which nourish for this country its inner life. Unless there is this nourishment, a just and humane people is impossible. The bar is, in short, in a position to train and lead by precept and example the American people.'

 

These are not the words of a man who lacks devotion to 'the law in its broadest sense.'

 

The majority, apparently considering this fact irrelevant because the State might possibly have an interest in learning more about its Bar applicants, decides that Anastaplo can properly be denied admission to the Bar by purporting to 'balance' the interest of the State of Illinois in 'having lawyers who are devoted to the law in its broadest sense' against the interest of Anastaplo and the public in protecting the freedoms of the First Amendment, concluding, as it usually does when it engages in this process, that 'on balance' the interest of Illinois must prevail. If I had ever doubted that the 'balancing test' comes close to being a doctrine of governmental absolutism-that to 'balance' an interest in individual liberty means almost inevitably to destroy that liberty-those doubts would have been dissipated by this case. For this so-called 'balancing test'-which, as applied to the First Amendment, means that the freedoms of speech, press, assembly, religion and petition can be repressed whenever there is a sufficient governmental interest in doing so-here proves pitifully and pathetically inadequate to cope with an invasion of individual liberty so plainly unjustified that even the majority apparently feels compelled expressly to disclaim 'any view upon the wisdom of the State's action.'

 

I, of course, wholeheartedly agree with the statement of the majority that this Court should not, merely on the ground that such action is unwise, interfere with governmental action that is within the constitutional powers of that government. But I am no less certain that this Court should not permit governmental action that plainly abridges constitutionally protected rights of the People merely because a majority believes that on 'balance' it is better, or 'wiser,' to abridge those rights than to leave them free. The inherent vice of the 'balancing test' is that it purports to do just that. In the context of its reliance upon the 'balancing test,' the Court's disclaimer of 'any view upon the wisdom of the State's action' here thus seems to me to be wholly inconsistent with the only ground upon which it has decided this case.

 

Nor can the majority escape from this inconsistency on the ground that the 'balancing test' deals only with the question of the importance of the existence of governmental power as a general matter without regard to the importance of its exercise in a particular case. For in Barenblatt v. United States the same majority made it clear that the 'balancing test' is to be applied to the facts of each particular case (360 U.S. 109, 79 S.Ct. 1093): 'Where First Amendment rights are asserted to bar governmental interrogation resolution of the issue always involves a balancing by the courts of the competing private and public interests at stake in the particular circumstances shown.' Thus the Court not only 'balances' the respective values of two competing policies as a general matter, but also 'balances' the wisdom of those policies in 'the particular circumstances shown.' Thus, the Court has reserved to itself the power to permit or deny abridgement of First Amendment freedoms according to its own view of whether repression or freedom is the wiser governmental policy under the circumstances of each case.

 

The effect of the Court's 'balancing' here is that any State may now reject an applicant for admission to the Bar if he believes in the Declaration of Independence as strongly as Anastaplo and if he is willing to sacrifice his career and his means of livelihood in defense of the freedoms of the First Amendment. But the men who founded this country and wrote our Bill of Rights were strangers neither to a belief in the 'right of revolution' nor to the urgency of the need to be free from the control of government with regard to political beliefs and associations. Thomas Jefferson was not disclaiming a belief in the 'right of revolution' when he wrote the Declaration of Independence. And Patrick Henry was certainly not disclaiming such a belief when he declared in impassioned words that have come on down through the years: 'Give me liberty or give me death.' This country's freedom was won by men who, whether they believed in it or not, certainly practiced revolution in the Revolutionary War.

 

Since the beginning of history there have been governments that have engaged in practices against the people so bad, so cruel, so unjust and so destructive of the individual dignity of men and women that the 'right of revolution' was all the people had left to free themselves. As simple illustrations, one government almost 2,000 years ago burned Christians upon fiery crosses and another government, during this very century, burned Jews in crematories. I venture the suggestion that there are countless multitudes in this country, and all over the world, who would join Anastaplo's belief in the right of the people to resist by force tyrranical governments like those.

 

In saying what I have, it is to be borne in mind that Anastaplo has not indicated, even remotely, a belief that this country is an oppressive one in which the 'right of revolution' should be exercised. Quite the contrary, the entire course of his life, as disclosed by the record, has been one of devotion and service to his country-first, in his willingness to defend its security at the risk of his own life in time of war and, later, in his willingness to defend its freedoms at the risk of his professional career in time of peace. The one and only time in which he has come into conflict with the Government is when he refused to answer the questions put to him by the Committee about his beliefs and associations. And I think the record clearly shows that conflict resulted, not from any fear on Anastaplo's part to divulge his own political activities, but from a sincere, and in my judgment correct, conviction that the preservation of this country's freedom depends upon adherence to our Bill of Rights. The very most that can fairly be said against Anastaplo's position in this entire matter is that he took too much of the responsibility of preserving that freedom upon himself.

 

This case illustrates to me the serious consequences to the Bar itself of not affording the full protections of the First Amendment to its applicants for admission. For this record shows that Anastaplo has many of the qualities that are needed in the American Bar. It shows, not only that Anastaplo has followed a high moral, ethical and patriotic course in all of the activities of his life, but also that he combines these more common virtues with the uncommon virtue of courage to stand by his principles at any cost. It is such men as these who have most greatly honored the profession of the law-men like Malsherbes, who, at the cost of his own life and the lives of his family, sprang unafraid to the defense of Louis XVI against the fanatical leaders of the Revolutionary government of France -men like Charles Evans Hughes, Sr., later Mr. Chief Justice Hughes, who stood up for the constitutional rights of socialists to be socialists and public officials despite the threats and clamorous protests of self-proclaimed superpatriots -men like Charles Evans Hughes, Jr., and John W. Davis, who, while against everything for which the Communists stood, strongly advised the Congress in 1948 that it would be unconstitutional to pass the law then proposed to outlaw the Communist Party -men like Lord Erskine, James Otis, Clarence Darrow, and the multitude of others who have dared to speak in defense of causes and clients without regard to personal danger to themselves. The legal profession will lose much of its nobility and its glory if it is not constantly replenished with lawyers like these. To force the Bar to become a group of thoroughly orthodox, time-serving, government-fearing individuals is to humiliate and degrade it.

 

But that is the present trend, not only in the legal profession but in almost every walk of life. Too many men are being driven to become government-fearing and time-serving because the Government is being permitted to strike out at those who are fearless enough to think as they please and say what they think. This trend must be halted if we are to keep faith with the Founders of our Nation and pass on to future generations of Americans the great heritage of freedom which they sacrificed so much to leave to us. The choice is clear to me. If we are to pass on that great heritage of freedom, we must return to the original language of the Bill of Rights. We must not be afraid to be free'

  

' if a government gets bad enough, the people have a 'right of revolution.' ~ George Anastaplo

 

That's why I like you George... what you just said right up there... you're a principled man and a patriot... you're a fiesty guy indeed as the following exchange points out...

 

This is from the transcript of the committee questioning George...

 

'Commissioner Mitchell: When you say 'believe in revolution,' you don't limit that revolution to an overthrow of a particular political party or a political government by means of an election process or other political means?

 

'Mr. Anastaplo: I mean actual use of force.

 

'Commissioner Mitchell: You mean to go as far as necessary?

 

'Mr. Anastaplo: As far as Washington did, for instance.

 

'Commissioner Mitchell: So that would it be fair to say that you believe the end result would justify any means that were used?

 

'Mr. Anastaplo: No, the means proportionate to the particular end in sight.

 

'Commissioner Mitchell: Well, is there any difference from your answer and my question?

 

'Mr. Anastaplo: Did you ask-

 

'Commissioner Mitchell: I asked you whether you thought that you believe that if a change, or overthrow of the government were justified, that any means could be used to accomplish that end.

  

'Mr. Anastaplo: Now, let's say in this positive concrete situation-I am not quite sure what it means in abstract.

 

'Commissioner Mitchell: I will ask you in detail. You believe that assuming the government should be overthrown, in your opinion, that you and others of like mind would be justified in raising a company of men with military equipment and proceed to take over the government of the United States, of the State of Illinois?

 

'By shaking your head do you mean yes?

 

'Mr. Anastaplo: If you get to the point where overthrow is necessary, then overthrow is justified. It just means that you overthrow the government by force.

 

'Commissioner Mitchell: And would that also include in your mind justification for putting a spy into the administrative department, one or another of the administrative departments of the United States or the government of the State of Illinois?

 

'Mr. Anastaplo: If you got to the point you think the government should be overthrown, I think that would be a legitimate means.

 

'Commissioner Mitchell: There isn't any difference in your mind in the propriety of using a gun or using a spy?

 

'Mr. Anastaplo: I think spies have been used in quite honorable causes.

 

'Commissioner Mitchell: Your answer is, you do think so?

 

'Mr. Anastaplo: Yes.

  

'Commissioner Baker: Let me ask you a question. Are you aware of the fact that the Department of Justice has a list of what are described as subversive organizations?

 

'Mr. Anastaplo: Yes.

 

'Commissioner Baker: Have you ever seen that list?

 

'Mr. Anastaplo: Yes.

 

'Commissioner Baker: Are you a member of any organization that is listed on the Attorney General's list, to your knowledge? (No answer.) Just to keep you from having to work so hard mentally on it, what organizations-give me all the organizations you are affiliated with or are a member of. (No answer.) That oughtn't to be too hard.

 

'Mr. Anastaplo: Do you believe that is a legitimate question?

 

'Commissioner Baker: Yes, I do. We are inquiring into not only your character, but your fitness, under Rule 58. We don't compel you to answer it. Are you a member of the Communist Party?'

  

George lost the case at the US Supreme Court but it was his principled approach to not answering the question in the first place and his ten year battle to overcome the ramifications of that refusal that earned him the respect of many who respect a person who lives a principle centered life.

 

He never would practice law, but he would become a passionate and inspiring teacher according to many.

 

He's been nominated for the Nobel Peace Prize twelve times.

 

And they sat him down for dinner next to 'Viewminder' a street photographer... who was only nominated for the Peace Prize once... by himself.

 

Crowned 'The Socrates of Chicago' George has written more books than some of the people I know have read...

 

"He has written books and articles analyzing the influence of Greek literature on American politics, on the Thinker as Artist, and the Artist as Thinker, on the O. J. Simpson trial, on lights at Wrigley Field, on McCarthyism, on hate speech, on lawyers, on judges, on the Bible, on ethics, on Abraham Lincoln, on the remodeling of Soldier field, and I have only touched the surface of his eclecticism. ~ 'George Anastaplo' by Abner Mikva

 

George Anastaplo I admire you.

 

You saw something that was wrong and you refused to be a part of it...

 

Even if that meant it would create difficulty in your life and in your pursuit of the career that you studied so long and hard for.

 

You stood true to your convictions.

 

You stood up for what you believe in.

 

You never backed down.

 

You're an inspiring man and a patriot George Anastaplo.

 

They outta give out a prize for that.

 

Faces on the street

Chicago 7.9.11

35mm 1.8 SOOC with a ping of contrast

 

7.20.11

"grace and elegance personified, toa kenhgaal is far from a fighter, choosing more to use her given ability to create abstract sculptures than combat any form of evil. she doesn't even wear the mask of creation unless absolutely necessary, deeming it to be 'kinda ugly.' the fans are mostly decorative, though the edges are bladed in case she needs to engage an enemy."

 

a lot of firsts for me in this one, including a base and hand fans (plus first toa in a while, I don't make them very often, not sure why). creation was picked as the color scheme didn't match up with any canon toa's SOMEHOW (green and white isn't one? really?), and it fit with there being a canon toa of life and one of my oldest characters being a toa of time. might make a new toa of life to go with them, complete the trio, I dunno.

Day 1 of "Ability Week"

 

Deep down, we are all very delicate, and life will throw things to break us down. But it's the ability and willingness to get back up that matters. (You might notice that this is the same 'flower pot' from this (www.flickr.com/photos/59152532@N05/9564600258/) - interesting what I named it then too)

Scanned image. Ability berthed Hull 29th December 2003.

 

Have you ever seen the Man on the Moon? This common question plays on the ability of humans to see pareidolia -- imagining familiar icons where they don't actually exist. The textured surface of Earth's full Moon is home to numerous identifications of iconic objects, not only in modern western culture but in world folklore throughout history. Examples, typically dependent on the Moon's perceived orientation, include the Woman in the Moon and the Rabbit in the Moon. One facial outline commonly identified as the Man in the Moon starts by imagining the two dark circular areas -- lunar maria -- here just above the Moon's center, to be the eyes. Surprisingly, there actually is a man in this Moon image -- a close look will reveal a real person -- with a telescope -- silhouetted against the Moon. This featured well-planned image was taken in mid-January in Cadalso de los Vidrios in Madrid, Spain. Do you have a favorite object that you see in the Moon? via NASA

The cat (Felis catus), commonly referred to as the domestic cat or house cat, is the only domesticated species in the family Felidae. Recent advances in archaeology and genetics have shown that the domestication of the cat occurred in the Near East around 7500 BC. It is commonly kept as a house pet and farm cat, but also ranges freely as a feral cat avoiding human contact. It is valued by humans for companionship and its ability to kill vermin. Because of its retractable claws it is adapted to killing small prey like mice and rats. It has a strong flexible body, quick reflexes, sharp teeth, and its night vision and sense of smell are well developed. It is a social species, but a solitary hunter and a crepuscular predator. Cat communication includes vocalizations like meowing, purring, trilling, hissing, growling, and grunting as well as cat body language. It can hear sounds too faint or too high in frequency for human ears, such as those made by small mammals. It also secretes and perceives pheromones.

 

Female domestic cats can have kittens from spring to late autumn in temperate zones and throughout the year in equatorial regions, with litter sizes often ranging from two to five kittens. Domestic cats are bred and shown at events as registered pedigreed cats, a hobby known as cat fancy. Animal population control of cats may be achieved by spaying and neutering, but their proliferation and the abandonment of pets has resulted in large numbers of feral cats worldwide, contributing to the extinction of bird, mammal and reptile species.

 

As of 2017, the domestic cat was the second most popular pet in the United States, with 95.6 million cats owned and around 42 million households owning at least one cat. In the United Kingdom, 26% of adults have a cat, with an estimated population of 10.9 million pet cats as of 2020. As of 2021, there were an estimated 220 million owned and 480 million stray cats in the world.

 

Etymology and naming

The origin of the English word cat, Old English catt, is thought to be the Late Latin word cattus, which was first used at the beginning of the 6th century. The Late Latin word may be derived from an unidentified African language. The Nubian word kaddîska 'wildcat' and Nobiin kadīs are possible sources or cognates. The Nubian word may be a loan from Arabic قَطّ‎ qaṭṭ ~ قِطّ qiṭṭ.

 

The forms might also have derived from an ancient Germanic word that was imported into Latin and then into Greek, Syriac, and Arabic. The word may be derived from Germanic and Northern European languages, and ultimately be borrowed from Uralic, cf. Northern Sámi gáđfi, 'female stoat', and Hungarian hölgy, 'lady, female stoat'; from Proto-Uralic *käďwä, 'female (of a furred animal)'.

 

The English puss, extended as pussy and pussycat, is attested from the 16th century and may have been introduced from Dutch poes or from Low German puuskatte, related to Swedish kattepus, or Norwegian pus, pusekatt. Similar forms exist in Lithuanian puižė and Irish puisín or puiscín. The etymology of this word is unknown, but it may have arisen from a sound used to attract a cat.

 

A male cat is called a tom or tomcat (or a gib, if neutered). A female is called a queen or a molly, if spayed, especially in a cat-breeding context. A juvenile cat is referred to as a kitten. In Early Modern English, the word kitten was interchangeable with the now-obsolete word catling.

 

A group of cats can be referred to as a clowder or a glaring.

 

Taxonomy

The scientific name Felis catus was proposed by Carl Linnaeus in 1758 for a domestic cat. Felis catus domesticus was proposed by Johann Christian Polycarp Erxleben in 1777. Felis daemon proposed by Konstantin Satunin in 1904 was a black cat from the Transcaucasus, later identified as a domestic cat.

 

In 2003, the International Commission on Zoological Nomenclature ruled that the domestic cat is a distinct species, namely Felis catus. In 2007, it was considered a subspecies, F. silvestris catus, of the European wildcat (F. silvestris) following results of phylogenetic research. In 2017, the IUCN Cat Classification Taskforce followed the recommendation of the ICZN in regarding the domestic cat as a distinct species, Felis catus.

 

Evolution

Main article: Cat evolution

The domestic cat is a member of the Felidae, a family that had a common ancestor about 10 to 15 million years ago. The evolutionary radiation of the Felidae began in Asia during the Miocene around 8.38 to 14.45 million years ago. Analysis of mitochondrial DNA of all Felidae species indicates a radiation at 6.46 to 16.76 million years ago. The genus Felis genetically diverged from other Felidae around 6 to 7 million years ago. Results of phylogenetic research shows that the wild members of this genus evolved through sympatric or parapatric speciation, whereas the domestic cat evolved through artificial selection. The domestic cat and its closest wild ancestor are diploid and both possess 38 chromosomes and roughly 20,000 genes.

 

Domestication

See also: Domestication of the cat and Cats in ancient Egypt

It was long thought that the domestication of the cat began in ancient Egypt, where cats were venerated from around 3100 BC, However, the earliest known indication for the taming of an African wildcat was excavated close by a human Neolithic grave in Shillourokambos, southern Cyprus, dating to about 7500–7200 BC. Since there is no evidence of native mammalian fauna on Cyprus, the inhabitants of this Neolithic village most likely brought the cat and other wild mammals to the island from the Middle Eastern mainland. Scientists therefore assume that African wildcats were attracted to early human settlements in the Fertile Crescent by rodents, in particular the house mouse (Mus musculus), and were tamed by Neolithic farmers. This mutual relationship between early farmers and tamed cats lasted thousands of years. As agricultural practices spread, so did tame and domesticated cats. Wildcats of Egypt contributed to the maternal gene pool of the domestic cat at a later time.

The earliest known evidence for the occurrence of the domestic cat in Greece dates to around 1200 BC. Greek, Phoenician, Carthaginian and Etruscan traders introduced domestic cats to southern Europe. During the Roman Empire they were introduced to Corsica and Sardinia before the beginning of the 1st millennium. By the 5th century BC, they were familiar animals around settlements in Magna Graecia and Etruria. By the end of the Western Roman Empire in the 5th century, the Egyptian domestic cat lineage had arrived in a Baltic Sea port in northern Germany.

 

The leopard cat (Prionailurus bengalensis) was tamed independently in China around 5500 BC. This line of partially domesticated cats leaves no trace in the domestic cat populations of today.

 

During domestication, cats have undergone only minor changes in anatomy and behavior, and they are still capable of surviving in the wild. Several natural behaviors and characteristics of wildcats may have pre-adapted them for domestication as pets. These traits include their small size, social nature, obvious body language, love of play, and high intelligence. Captive Leopardus cats may also display affectionate behavior toward humans but were not domesticated. House cats often mate with feral cats. Hybridisation between domestic and other Felinae species is also possible, producing hybrids such as the Kellas cat in Scotland.

 

Development of cat breeds started in the mid 19th century. An analysis of the domestic cat genome revealed that the ancestral wildcat genome was significantly altered in the process of domestication, as specific mutations were selected to develop cat breeds. Most breeds are founded on random-bred domestic cats. Genetic diversity of these breeds varies between regions, and is lowest in purebred populations, which show more than 20 deleterious genetic disorders.

 

Characteristics

Main article: Cat anatomy

Size

The domestic cat has a smaller skull and shorter bones than the European wildcat. It averages about 46 cm (18 in) in head-to-body length and 23–25 cm (9.1–9.8 in) in height, with about 30 cm (12 in) long tails. Males are larger than females. Adult domestic cats typically weigh 4–5 kg (8.8–11.0 lb).

 

Skeleton

Cats have seven cervical vertebrae (as do most mammals); 13 thoracic vertebrae (humans have 12); seven lumbar vertebrae (humans have five); three sacral vertebrae (as do most mammals, but humans have five); and a variable number of caudal vertebrae in the tail (humans have only three to five vestigial caudal vertebrae, fused into an internal coccyx).  The extra lumbar and thoracic vertebrae account for the cat's spinal mobility and flexibility. Attached to the spine are 13 ribs, the shoulder, and the pelvis.  Unlike human arms, cat forelimbs are attached to the shoulder by free-floating clavicle bones which allow them to pass their body through any space into which they can fit their head.

 

Skull

The cat skull is unusual among mammals in having very large eye sockets and a powerful specialized jaw.  Within the jaw, cats have teeth adapted for killing prey and tearing meat. When it overpowers its prey, a cat delivers a lethal neck bite with its two long canine teeth, inserting them between two of the prey's vertebrae and severing its spinal cord, causing irreversible paralysis and death. Compared to other felines, domestic cats have narrowly spaced canine teeth relative to the size of their jaw, which is an adaptation to their preferred prey of small rodents, which have small vertebrae.

 

The premolar and first molar together compose the carnassial pair on each side of the mouth, which efficiently shears meat into small pieces, like a pair of scissors. These are vital in feeding, since cats' small molars cannot chew food effectively, and cats are largely incapable of mastication.:  Cats tend to have better teeth than most humans, with decay generally less likely because of a thicker protective layer of enamel, a less damaging saliva, less retention of food particles between teeth, and a diet mostly devoid of sugar. Nonetheless, they are subject to occasional tooth loss and infection.

 

Claws

Cats have protractible and retractable claws. In their normal, relaxed position, the claws are sheathed with the skin and fur around the paw's toe pads. This keeps the claws sharp by preventing wear from contact with the ground and allows for the silent stalking of prey. The claws on the forefeet are typically sharper than those on the hindfeet. Cats can voluntarily extend their claws on one or more paws. They may extend their claws in hunting or self-defense, climbing, kneading, or for extra traction on soft surfaces. Cats shed the outside layer of their claw sheaths when scratching rough surfaces.

 

Most cats have five claws on their front paws and four on their rear paws. The dewclaw is proximal to the other claws. More proximally is a protrusion which appears to be a sixth "finger". This special feature of the front paws on the inside of the wrists has no function in normal walking but is thought to be an antiskidding device used while jumping. Some cat breeds are prone to having extra digits ("polydactyly"). Polydactylous cats occur along North America's northeast coast and in Great Britain.

 

Ambulation

The cat is digitigrade. It walks on the toes, with the bones of the feet making up the lower part of the visible leg. Unlike most mammals, it uses a "pacing" gait and moves both legs on one side of the body before the legs on the other side. It registers directly by placing each hind paw close to the track of the corresponding fore paw, minimizing noise and visible tracks. This also provides sure footing for hind paws when navigating rough terrain. As it speeds up from walking to trotting, its gait changes to a "diagonal" gait: The diagonally opposite hind and fore legs move simultaneously.

 

Balance

Cats are generally fond of sitting in high places or perching. A higher place may serve as a concealed site from which to hunt; domestic cats strike prey by pouncing from a perch such as a tree branch. Another possible explanation is that height gives the cat a better observation point, allowing it to survey its territory. A cat falling from heights of up to 3 m (9.8 ft) can right itself and land on its paws.

 

During a fall from a high place, a cat reflexively twists its body and rights itself to land on its feet using its acute sense of balance and flexibility. This reflex is known as the cat righting reflex. A cat always rights itself in the same way during a fall, if it has enough time to do so, which is the case in falls of 90 cm (3.0 ft) or more. How cats are able to right themselves when falling has been investigated as the "falling cat problem".

 

Coats

Main article: Cat coat genetics

The cat family (Felidae) can pass down many colors and patterns to their offspring. The domestic cat genes MC1R and ASIP allow for the variety of color in coats. The feline ASIP gene consists of three coding exons. Three novel microsatellite markers linked to ASIP were isolated from a domestic cat BAC clone containing this gene and were used to perform linkage analysis in a pedigree of 89 domestic cats that segregated for melanism.[citation needed]

 

Senses

Main article: Cat senses

Vision

A cat's nictitating membrane shown as it blinks

Cats have excellent night vision and can see at only one-sixth the light level required for human vision.  This is partly the result of cat eyes having a tapetum lucidum, which reflects any light that passes through the retina back into the eye, thereby increasing the eye's sensitivity to dim light. Large pupils are an adaptation to dim light. The domestic cat has slit pupils, which allow it to focus bright light without chromatic aberration. At low light, a cat's pupils expand to cover most of the exposed surface of its eyes. The domestic cat has rather poor color vision and only two types of cone cells, optimized for sensitivity to blue and yellowish green; its ability to distinguish between red and green is limited. A response to middle wavelengths from a system other than the rod cells might be due to a third type of cone. This appears to be an adaptation to low light levels rather than representing true trichromatic vision. Cats also have a nictitating membrane, allowing them to blink without hindering their vision.

 

Hearing

The domestic cat's hearing is most acute in the range of 500 Hz to 32 kHz. It can detect an extremely broad range of frequencies ranging from 55 Hz to 79 kHz, whereas humans can only detect frequencies between 20 Hz and 20 kHz. It can hear a range of 10.5 octaves, while humans and dogs can hear ranges of about 9 octaves. Its hearing sensitivity is enhanced by its large movable outer ears, the pinnae, which amplify sounds and help detect the location of a noise. It can detect ultrasound, which enables it to detect ultrasonic calls made by rodent prey. Recent research has shown that cats have socio-spatial cognitive abilities to create mental maps of owners' locations based on hearing owners' voices.

 

Smell

Cats have an acute sense of smell, due in part to their well-developed olfactory bulb and a large surface of olfactory mucosa, about 5.8 cm2 (0.90 in2) in area, which is about twice that of humans. Cats and many other animals have a Jacobson's organ in their mouths that is used in the behavioral process of flehmening. It allows them to sense certain aromas in a way that humans cannot. Cats are sensitive to pheromones such as 3-mercapto-3-methylbutan-1-ol, which they use to communicate through urine spraying and marking with scent glands. Many cats also respond strongly to plants that contain nepetalactone, especially catnip, as they can detect that substance at less than one part per billion. About 70–80% of cats are affected by nepetalactone. This response is also produced by other plants, such as silver vine (Actinidia polygama) and the herb valerian; it may be caused by the smell of these plants mimicking a pheromone and stimulating cats' social or sexual behaviors.

 

Taste

Cats have relatively few taste buds compared to humans (470 or so versus more than 9,000 on the human tongue). Domestic and wild cats share a taste receptor gene mutation that keeps their sweet taste buds from binding to sugary molecules, leaving them with no ability to taste sweetness. They, however, possess taste bud receptors specialized for acids, amino acids like protein, and bitter tastes. Their taste buds possess the receptors needed to detect umami. However, these receptors contain molecular changes that make the cat taste of umami different from that of humans. In humans, they detect the amino acids of glutamic acid and aspartic acid, but in cats they instead detect nucleotides, in this case inosine monophosphate and l-Histidine. These nucleotides are particularly enriched in tuna. This has been argued is why cats find tuna so palatable: as put by researchers into cat taste, "the specific combination of the high IMP and free l-Histidine contents of tuna" .. "produces a strong umami taste synergy that is highly preferred by cats". One of the researchers involved in this research has further claimed, "I think umami is as important for cats as sweet is for humans".[87]

 

Cats also have a distinct temperature preference for their food, preferring food with a temperature around 38 °C (100 °F) which is similar to that of a fresh kill; some cats reject cold food (which would signal to the cat that the "prey" item is long dead and therefore possibly toxic or decomposing).

 

Whiskers

To aid with navigation and sensation, cats have dozens of movable whiskers (vibrissae) over their body, especially their faces. These provide information on the width of gaps and on the location of objects in the dark, both by touching objects directly and by sensing air currents; they also trigger protective blink reflexes to protect the eyes from damage.: 47 

 

Behavior

See also: Cat behavior

Outdoor cats are active both day and night, although they tend to be slightly more active at night.[88] Domestic cats spend the majority of their time in the vicinity of their homes but can range many hundreds of meters from this central point. They establish territories that vary considerably in size, in one study ranging 7–28 ha (17–69 acres). The timing of cats' activity is quite flexible and varied but being low-light predators, they are generally crepuscular, which means they tend to be more active near dawn and dusk. However, house cats' behavior is also influenced by human activity and they may adapt to their owners' sleeping patterns to some extent.

 

Cats conserve energy by sleeping more than most animals, especially as they grow older. The daily duration of sleep varies, usually between 12 and 16 hours, with 13 and 14 being the average. Some cats can sleep as much as 20 hours. The term "cat nap" for a short rest refers to the cat's tendency to fall asleep (lightly) for a brief period. While asleep, cats experience short periods of rapid eye movement sleep often accompanied by muscle twitches, which suggests they are dreaming.

 

Sociability

The social behavior of the domestic cat ranges from widely dispersed individuals to feral cat colonies that gather around a food source, based on groups of co-operating females. Within such groups, one cat is usually dominant over the others. Each cat in a colony holds a distinct territory, with sexually active males having the largest territories, which are about 10 times larger than those of female cats and may overlap with several females' territories. These territories are marked by urine spraying, by rubbing objects at head height with secretions from facial glands, and by defecation. Between these territories are neutral areas where cats watch and greet one another without territorial conflicts. Outside these neutral areas, territory holders usually chase away stranger cats, at first by staring, hissing, and growling and, if that does not work, by short but noisy and violent attacks. Despite this colonial organization, cats do not have a social survival strategy or a herd behavior, and always hunt alone.

 

Life in proximity to humans and other domestic animals has led to a symbiotic social adaptation in cats, and cats may express great affection toward humans or other animals. Ethologically, a cat's human keeper functions as if a mother surrogate. Adult cats live their lives in a kind of extended kittenhood, a form of behavioral neoteny. Their high-pitched sounds may mimic the cries of a hungry human infant, making them particularly difficult for humans to ignore. Some pet cats are poorly socialized. In particular, older cats show aggressiveness toward newly arrived kittens, which include biting and scratching; this type of behavior is known as feline asocial aggression.

 

Redirected aggression is a common form of aggression which can occur in multiple cat households. In redirected aggression there is usually something that agitates the cat: this could be a sight, sound, or another source of stimuli which causes a heightened level of anxiety or arousal. If the cat cannot attack the stimuli, it may direct anger elsewhere by attacking or directing aggression to the nearest cat, dog, human or other being.

 

Domestic cats' scent rubbing behavior toward humans or other cats is thought to be a feline means for social bonding.

 

Communication

Main article: Cat communication

Domestic cats use many vocalizations for communication, including purring, trilling, hissing, growling/snarling, grunting, and several different forms of meowing. Their body language, including position of ears and tail, relaxation of the whole body, and kneading of the paws, are all indicators of mood. The tail and ears are particularly important social signal mechanisms in cats. A raised tail indicates a friendly greeting, and flattened ears indicate hostility. Tail-raising also indicates the cat's position in the group's social hierarchy, with dominant individuals raising their tails less often than subordinate ones. Feral cats are generally silent.: 208  Nose-to-nose touching is also a common greeting and may be followed by social grooming, which is solicited by one of the cats raising and tilting its head.

 

Purring may have developed as an evolutionary advantage as a signaling mechanism of reassurance between mother cats and nursing kittens, who are thought to use it as a care-soliciting signal. Post-nursing cats also often purr as a sign of contentment: when being petted, becoming relaxed, or eating. Even though purring is popularly interpreted as indicative of pleasure, it has been recorded in a wide variety of circumstances, most of which involve physical contact between the cat and another, presumably trusted individual. Some cats have been observed to purr continuously when chronically ill or in apparent pain.

 

The exact mechanism by which cats purr has long been elusive, but it has been proposed that purring is generated via a series of sudden build-ups and releases of pressure as the glottis is opened and closed, which causes the vocal folds to separate forcefully. The laryngeal muscles in control of the glottis are thought to be driven by a neural oscillator which generates a cycle of contraction and release every 30–40 milliseconds (giving a frequency of 33 to 25 Hz).

 

Domestic cats observed in a rescue facility have total of 276 distinct facial expressions based on 26 different facial movements; each facial expression corresponds to different social functions that are likely influenced by domestication.

 

Grooming

Cats are known for spending considerable amounts of time licking their coats to keep them clean. The cat's tongue has backward-facing spines about 500 μm long, which are called papillae. These contain keratin which makes them rigid so the papillae act like a hairbrush. Some cats, particularly longhaired cats, occasionally regurgitate hairballs of fur that have collected in their stomachs from grooming. These clumps of fur are usually sausage-shaped and about 2–3 cm (0.79–1.18 in) long. Hairballs can be prevented with remedies that ease elimination of the hair through the gut, as well as regular grooming of the coat with a comb or stiff brush.

 

Fighting

Among domestic cats, males are more likely to fight than females. Among feral cats, the most common reason for cat fighting is competition between two males to mate with a female. In such cases, most fights are won by the heavier male. Another common reason for fighting in domestic cats is the difficulty of establishing territories within a small home. Female cats also fight over territory or to defend their kittens. Neutering will decrease or eliminate this behavior in many cases, suggesting that the behavior is linked to sex hormones.

 

When cats become aggressive, they try to make themselves appear larger and more threatening by raising their fur, arching their backs, turning sideways and hissing or spitting. Often, the ears are pointed down and back to avoid damage to the inner ear and potentially listen for any changes behind them while focused forward. Cats may also vocalize loudly and bare their teeth in an effort to further intimidate their opponents. Fights usually consist of grappling and delivering powerful slaps to the face and body with the forepaws as well as bites. Cats also throw themselves to the ground in a defensive posture to rake their opponent's belly with their powerful hind legs.

 

Serious damage is rare, as the fights are usually short in duration, with the loser running away with little more than a few scratches to the face and ears. Fights for mating rights are typically more severe and injuries may include deep puncture wounds and lacerations. Normally, serious injuries from fighting are limited to infections of scratches and bites, though these can occasionally kill cats if untreated. In addition, bites are probably the main route of transmission of feline immunodeficiency virus. Sexually active males are usually involved in many fights during their lives, and often have decidedly battered faces with obvious scars and cuts to their ears and nose. Cats are willing to threaten animals larger than them to defend their territory, such as dogs and foxes.

 

Hunting and feeding

See also: Cat food

The shape and structure of cats' cheeks is insufficient to allow them to take in liquids using suction. Therefore, when drinking they lap with the tongue to draw liquid upward into their mouths. Lapping at a rate of four times a second, the cat touches the smooth tip of its tongue to the surface of the water, and quickly retracts it like a corkscrew, drawing water upward.

 

Feral cats and free-fed house cats consume several small meals in a day. The frequency and size of meals varies between individuals. They select food based on its temperature, smell and texture; they dislike chilled foods and respond most strongly to moist foods rich in amino acids, which are similar to meat. Cats reject novel flavors (a response termed neophobia) and learn quickly to avoid foods that have tasted unpleasant in the past. It is also a common misconception that cats like milk/cream, as they tend to avoid sweet food and milk. Most adult cats are lactose intolerant; the sugar in milk is not easily digested and may cause soft stools or diarrhea. Some also develop odd eating habits and like to eat or chew on things like wool, plastic, cables, paper, string, aluminum foil, or even coal. This condition, pica, can threaten their health, depending on the amount and toxicity of the items eaten.

 

Cats hunt small prey, primarily birds and rodents, and are often used as a form of pest control. Other common small creatures such as lizards and snakes may also become prey. Cats use two hunting strategies, either stalking prey actively, or waiting in ambush until an animal comes close enough to be captured. The strategy used depends on the prey species in the area, with cats waiting in ambush outside burrows, but tending to actively stalk birds.: 153  Domestic cats are a major predator of wildlife in the United States, killing an estimated 1.3 to 4.0 billion birds and 6.3 to 22.3 billion mammals annually.

 

Certain species appear more susceptible than others; in one English village, for example, 30% of house sparrow mortality was linked to the domestic cat. In the recovery of ringed robins (Erithacus rubecula) and dunnocks (Prunella modularis) in Britain, 31% of deaths were a result of cat predation. In parts of North America, the presence of larger carnivores such as coyotes which prey on cats and other small predators reduces the effect of predation by cats and other small predators such as opossums and raccoons on bird numbers and variety.

 

Perhaps the best-known element of cats' hunting behavior, which is commonly misunderstood and often appalls cat owners because it looks like torture, is that cats often appear to "play" with prey by releasing and recapturing it. This cat and mouse behavior is due to an instinctive imperative to ensure that the prey is weak enough to be killed without endangering the cat.

 

Another poorly understood element of cat hunting behavior is the presentation of prey to human guardians. One explanation is that cats adopt humans into their social group and share excess kill with others in the group according to the dominance hierarchy, in which humans are reacted to as if they are at or near the top. Another explanation is that they attempt to teach their guardians to hunt or to help their human as if feeding "an elderly cat, or an inept kitten". This hypothesis is inconsistent with the fact that male cats also bring home prey, despite males having negligible involvement in raising kittens.:

 

Play

Main article: Cat play and toys

Domestic cats, especially young kittens, are known for their love of play. This behavior mimics hunting and is important in helping kittens learn to stalk, capture, and kill prey. Cats also engage in play fighting, with each other and with humans. This behavior may be a way for cats to practice the skills needed for real combat, and might also reduce any fear they associate with launching attacks on other animals.

 

Cats also tend to play with toys more when they are hungry. Owing to the close similarity between play and hunting, cats prefer to play with objects that resemble prey, such as small furry toys that move rapidly, but rapidly lose interest. They become habituated to a toy they have played with before. String is often used as a toy, but if it is eaten, it can become caught at the base of the cat's tongue and then move into the intestines, a medical emergency which can cause serious illness, even death. Owing to the risks posed by cats eating string, it is sometimes replaced with a laser pointer's dot, which cats may chase.

 

Reproduction

See also: Kitten

The cat secretes and perceives pheromones. Female cats, called queens, are polyestrous with several estrus cycles during a year, lasting usually 21 days. They are usually ready to mate between early February and August in northern temperate zones and throughout the year in equatorial regions.

 

Several males, called tomcats, are attracted to a female in heat. They fight over her, and the victor wins the right to mate. At first, the female rejects the male, but eventually, the female allows the male to mate. The female utters a loud yowl as the male pulls out of her because a male cat's penis has a band of about 120–150 backward-pointing penile spines, which are about 1 mm (0.039 in) long; upon withdrawal of the penis, the spines may provide the female with increased sexual stimulation, which acts to induce ovulation.

 

After mating, the female cleans her vulva thoroughly. If a male attempts to mate with her at this point, the female attacks him. After about 20 to 30 minutes, once the female is finished grooming, the cycle will repeat. Because ovulation is not always triggered by a single mating, females may not be impregnated by the first male with which they mate. Furthermore, cats are superfecund; that is, a female may mate with more than one male when she is in heat, with the result that different kittens in a litter may have different fathers.

 

The morula forms 124 hours after conception. At 148 hours, early blastocysts form. At 10–12 days, implantation occurs. The gestation of queens lasts between 64 and 67 days, with an average of 65 days.

 

Data on the reproductive capacity of more than 2,300 free-ranging queens were collected during a study between May 1998 and October 2000. They had one to six kittens per litter, with an average of three kittens. They produced a mean of 1.4 litters per year, but a maximum of three litters in a year. Of 169 kittens, 127 died before they were six months old due to a trauma caused in most cases by dog attacks and road accidents. The first litter is usually smaller than subsequent litters. Kittens are weaned between six and seven weeks of age. Queens normally reach sexual maturity at 5–10 months, and males at 5–7 months. This varies depending on breed. Kittens reach puberty at the age of 9–10 months.

 

Cats are ready to go to new homes at about 12 weeks of age, when they are ready to leave their mother. They can be surgically sterilized (spayed or castrated) as early as seven weeks to limit unwanted reproduction. This surgery also prevents undesirable sex-related behavior, such as aggression, territory marking (spraying urine) in males and yowling (calling) in females. Traditionally, this surgery was performed at around six to nine months of age, but it is increasingly being performed before puberty, at about three to six months. In the United States, about 80% of household cats are neutered.

 

Lifespan and health

Main articles: Cat health and Aging in cats

The average lifespan of pet cats has risen in recent decades. In the early 1980s, it was about seven years,: 33  rising to 9.4 years in 1995: 33  and an average of about 13 years as of 2014 and 2023. Some cats have been reported as surviving into their 30s, with the oldest known cat dying at a verified age of 38.

 

Neutering increases life expectancy: one study found castrated male cats live twice as long as intact males, while spayed female cats live 62% longer than intact females.: 35  Having a cat neutered confers health benefits, because castrated males cannot develop testicular cancer, spayed females cannot develop uterine or ovarian cancer, and both have a reduced risk of mammary cancer.

 

Disease

Main article: List of feline diseases

About 250 heritable genetic disorders have been identified in cats, many similar to human inborn errors of metabolism. The high level of similarity among the metabolism of mammals allows many of these feline diseases to be diagnosed using genetic tests that were originally developed for use in humans, as well as the use of cats as animal models in the study of the human diseases. Diseases affecting domestic cats include acute infections, parasitic infestations, injuries, and chronic diseases such as kidney disease, thyroid disease, and arthritis. Vaccinations are available for many infectious diseases, as are treatments to eliminate parasites such as worms, ticks, and fleas.

 

Ecology

Habitats

The domestic cat is a cosmopolitan species and occurs across much of the world. It is adaptable and now present on all continents except Antarctica, and on 118 of the 131 main groups of islands, even on the isolated Kerguelen Islands. Due to its ability to thrive in almost any terrestrial habitat, it is among the world's most invasive species. It lives on small islands with no human inhabitants. Feral cats can live in forests, grasslands, tundra, coastal areas, agricultural land, scrublands, urban areas, and wetlands.

 

The unwantedness that leads to the domestic cat being treated as an invasive species is twofold. On one hand, as it is little altered from the wildcat, it can readily interbreed with the wildcat. This hybridization poses a danger to the genetic distinctiveness of some wildcat populations, particularly in Scotland and Hungary, possibly also the Iberian Peninsula, and where protected natural areas are close to human-dominated landscapes, such as Kruger National Park in South Africa. However, its introduction to places where no native felines are present also contributes to the decline of native species.

 

Ferality

Main article: Feral cat

Feral cats are domestic cats that were born in or have reverted to a wild state. They are unfamiliar with and wary of humans and roam freely in urban and rural areas. The numbers of feral cats is not known, but estimates of the United States feral population range from 25 to 60 million. Feral cats may live alone, but most are found in large colonies, which occupy a specific territory and are usually associated with a source of food. Famous feral cat colonies are found in Rome around the Colosseum and Forum Romanum, with cats at some of these sites being fed and given medical attention by volunteers.

 

Public attitudes toward feral cats vary widely, from seeing them as free-ranging pets to regarding them as vermin.

 

Some feral cats can be successfully socialized and 're-tamed' for adoption; young cats, especially kittens and cats that have had prior experience and contact with humans are the most receptive to these efforts.

 

Impact on wildlife

Main article: Cat predation on wildlife

On islands, birds can contribute as much as 60% of a cat's diet. In nearly all cases, the cat cannot be identified as the sole cause for reducing the numbers of island birds, and in some instances, eradication of cats has caused a "mesopredator release" effect; where the suppression of top carnivores creates an abundance of smaller predators that cause a severe decline in their shared prey. Domestic cats are a contributing factor to the decline of many species, a factor that has ultimately led, in some cases, to extinction. The South Island piopio, Chatham rail, and the New Zealand merganser are a few from a long list, with the most extreme case being the flightless Lyall's wren, which was driven to extinction only a few years after its discovery. One feral cat in New Zealand killed 102 New Zealand lesser short-tailed bats in seven days. In the US, feral and free-ranging domestic cats kill an estimated 6.3 – 22.3 billion mammals annually.

 

In Australia, the impact of cats on mammal populations is even greater than the impact of habitat loss. More than one million reptiles are killed by feral cats each day, representing 258 species. Cats have contributed to the extinction of the Navassa curly-tailed lizard and Chioninia coctei.

 

Interaction with humans

Main article: Human interaction with cats

Cats are common pets throughout the world, and their worldwide population as of 2007 exceeded 500 million. As of 2017, the domestic cat was the second most popular pet in the United States, with 95.6 million cats owned and around 42 million households owning at least one cat. In the United Kingdom, 26% of adults have a cat, with an estimated population of 10.9 million pet cats as of 2020. As of 2021, there were an estimated 220 million owned and 480 million stray cats in the world.

 

Cats have been used for millennia to control rodents, notably around grain stores and aboard ships, and both uses extend to the present day.

 

As well as being kept as pets, cats are also used in the international fur trade and leather industries for making coats, hats, blankets, stuffed toys, shoes, gloves, and musical instruments. About 24 cats are needed to make a cat-fur coat. This use has been outlawed in the United States since 2000 and in the European Union (as well as the United Kingdom) since 2007.

 

Cat pelts have been used for superstitious purposes as part of the practice of witchcraft, and are still made into blankets in Switzerland as traditional medicine thought to cure rheumatism.

 

A few attempts to build a cat census have been made over the years, both through associations or national and international organizations (such as that of the Canadian Federation of Humane Societies) and over the Internet, but such a task does not seem simple to achieve. General estimates for the global population of domestic cats range widely from anywhere between 200 million to 600 million. Walter Chandoha made his career photographing cats after his 1949 images of Loco, an especially charming stray taken in, were published around the world. He is reported to have photographed 90,000 cats during his career and maintained an archive of 225,000 images that he drew from for publications during his lifetime.

 

Shows

Main article: Cat show

A cat show is a judged event in which the owners of cats compete to win titles in various cat-registering organizations by entering their cats to be judged after a breed standard. It is often required that a cat must be healthy and vaccinated in order to participate in a cat show. Both pedigreed and non-purebred companion ("moggy") cats are admissible, although the rules differ depending on the organization. Competing cats are compared to the applicable breed standard, and assessed for temperament.

 

Infection

Main article: Feline zoonosis

Cats can be infected or infested with viruses, bacteria, fungus, protozoans, arthropods or worms that can transmit diseases to humans. In some cases, the cat exhibits no symptoms of the disease. The same disease can then become evident in a human. The likelihood that a person will become diseased depends on the age and immune status of the person. Humans who have cats living in their home or in close association are more likely to become infected. Others might also acquire infections from cat feces and parasites exiting the cat's body. Some of the infections of most concern include salmonella, cat-scratch disease and toxoplasmosis.

 

History and mythology

Main articles: Cultural depictions of cats and Cats in ancient Egypt

In ancient Egypt, cats were worshipped, and the goddess Bastet often depicted in cat form, sometimes taking on the war-like aspect of a lioness. The Greek historian Herodotus reported that killing a cat was forbidden, and when a household cat died, the entire family mourned and shaved their eyebrows. Families took their dead cats to the sacred city of Bubastis, where they were embalmed and buried in sacred repositories. Herodotus expressed astonishment at the domestic cats in Egypt, because he had only ever seen wildcats.

 

Ancient Greeks and Romans kept weasels as pets, which were seen as the ideal rodent-killers. The earliest unmistakable evidence of the Greeks having domestic cats comes from two coins from Magna Graecia dating to the mid-fifth century BC showing Iokastos and Phalanthos, the legendary founders of Rhegion and Taras respectively, playing with their pet cats. The usual ancient Greek word for 'cat' was ailouros, meaning 'thing with the waving tail'. Cats are rarely mentioned in ancient Greek literature. Aristotle remarked in his History of Animals that "female cats are naturally lecherous." The Greeks later syncretized their own goddess Artemis with the Egyptian goddess Bastet, adopting Bastet's associations with cats and ascribing them to Artemis. In Ovid's Metamorphoses, when the deities flee to Egypt and take animal forms, the goddess Diana turns into a cat.

 

Cats eventually displaced weasels as the pest control of choice because they were more pleasant to have around the house and were more enthusiastic hunters of mice. During the Middle Ages, many of Artemis's associations with cats were grafted onto the Virgin Mary. Cats are often shown in icons of Annunciation and of the Holy Family and, according to Italian folklore, on the same night that Mary gave birth to Jesus, a cat in Bethlehem gave birth to a kitten. Domestic cats were spread throughout much of the rest of the world during the Age of Discovery, as ships' cats were carried on sailing ships to control shipboard rodents and as good-luck charms.

 

Several ancient religions believed cats are exalted souls, companions or guides for humans, that are all-knowing but mute so they cannot influence decisions made by humans. In Japan, the maneki neko cat is a symbol of good fortune. In Norse mythology, Freyja, the goddess of love, beauty, and fertility, is depicted as riding a chariot drawn by cats. In Jewish legend, the first cat was living in the house of the first man Adam as a pet that got rid of mice. The cat was once partnering with the first dog before the latter broke an oath they had made which resulted in enmity between the descendants of these two animals. It is also written that neither cats nor foxes are represented in the water, while every other animal has an incarnation species in the water. Although no species are sacred in Islam, cats are revered by Muslims. Some Western writers have stated Muhammad had a favorite cat, Muezza. He is reported to have loved cats so much, "he would do without his cloak rather than disturb one that was sleeping on it". The story has no origin in early Muslim writers, and seems to confuse a story of a later Sufi saint, Ahmed ar-Rifa'i, centuries after Muhammad. One of the companions of Muhammad was known as Abu Hurayrah ("father of the kitten"), in reference to his documented affection to cats.

 

Superstitions and rituals

Many cultures have negative superstitions about cats. An example would be the belief that encountering a black cat ("crossing one's path") leads to bad luck, or that cats are witches' familiars used to augment a witch's powers and skills. The killing of cats in Medieval Ypres, Belgium, is commemorated in the innocuous present-day Kattenstoet (cat parade). In mid-16th century France, cats would be burnt alive as a form of entertainment, particularly during midsummer festivals. According to Norman Davies, the assembled people "shrieked with laughter as the animals, howling with pain, were singed, roasted, and finally carbonized". The remaining ashes were sometimes taken back home by the people for good luck.

 

According to a myth in many cultures, cats have multiple lives. In many countries, they are believed to have nine lives, but in Italy, Germany, Greece, Brazil and some Spanish-speaking regions, they are said to have seven lives, while in Arabic traditions, the number of lives is six. An early mention of the myth can be found in John Heywood's The Proverbs of John Heywood (1546)

 

Husband, (quoth she), ye studie, be merrie now,

And even as ye thinke now, so come to yow.

Nay not so, (quoth he), for my thought to tell right,

I thinke how you lay groning, wife, all last night.

Husband, a groning horse and a groning wife

Never faile their master, (quoth she), for my life.

No wife, a woman hath nine lives like a cat.

 

The myth is attributed to the natural suppleness and swiftness cats exhibit to escape life-threatening situations. Also lending credence to this myth is the fact that falling cats often land on their feet, using an instinctive righting reflex to twist their bodies around. Nonetheless, cats can still be injured or killed by a high fall.

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.

  

Paul's fortune.

Sail-fin lizard (Hydrosaurus amboinensis).

This baby may grow to over one metre in length.The name comes from his ability to run across water in short distance.

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The ability of the Boner Bridge to transition from horse and wagon traffic to today's automobiles is a true testament of it's strength.

German postcard by Photochemie, Berlin, no. 251. Photo: Zander und Labisch. Geraldine Farrar as Angela in 'Le Domino Noir' (1905).

 

American soprano opera singer and film actress Geraldine Farrar (1882-1967) was noted for her glamorous beauty, acting ability, and the timbre of her voice. Barely 20, she was already the toast of Berlin. Later at the Met in New York, she had a large following among young women, who were nicknamed ‘Gerry-flappers’. Farrar also starred in more than a dozen silent films from 1915 to 1920. She was married to and co-starred with Dutch matinee idol Lou Tellegen.

 

Alice Geraldine Farrar was born in Melrose, Massachusetts, in 1882. She was the daughter of baseball player Sidney Farrar, and his wife, Henrietta Barnes. At 5 she began studying music in Boston and by 14 was giving recitals. Later she studied voice with the American soprano Emma Thursby in New York City, in Paris, and finally with the Italian baritone Francesco Graziani in Berlin. In 1901, Farrar created a sensation at the Berlin Hofoper with her debut as Marguerite in Charles Gounod's Faust. She remained with the company for three years, during which time she continued her studies with legendary Wagnerian soprano Lilli Lehmann. She appeared in the title roles of Ambroise Thomas' Mignon and Jules Massenet's Manon, as well as Juliette in Gounod's Roméo et Juliette. Her admirers in Berlin included Crown Prince Wilhelm of Germany, with whom she is believed to have had a relationship beginning in 1903. This Berlin period was interspersed with three seasons with the Monte Carlo Opera. Highlights were Pietro Mascagni's Amica (1905), and Giuseppe Verdi's Rigoletto (1906) in which she appeared with Enrico Caruso. In 1906, she also made her debut at the New York Metropolitan Opera in Romeo et Juliette. The success placed her on a plateau with Caruso as a box-office magnet. The next year, she got raves for her performance as Cio-Cio-San in the Metropolitan premiere of Giacomo Puccini's Madama Butterfly in 1907. Farrar remained a member of the company until her retirement in 1922, singing 29 roles there in 672 performances. She developed a great popular following, especially among New York's young female opera-goers, who were known as Gerry-flappers. Farrar created the title roles in Puccini's Suor Angelica (1918), Umberto Giordano's Madame Sans-Gêne (1915), as well as the Goosegirl in Engelbert Humperdinck's Königskinder 1910), for which Farrar trained her own flock of geese. According to a New York Tribune review of the first performance, "at the close of the opera Miss Farrar caused 'much amusement' by appearing before the curtain with a live goose under her arm." Her biographer Elizabeth Nash: “Unlike most of the famous bel canto singers of the past who sacrificed dramatic action to tonal perfection, she was more interested in the emotional than in the purely lyrical aspects of her roles.”

 

Geraldine Farrar recorded extensively for the Victor Talking Machine Company and was often featured prominently in that firm's advertisements. She was one of the first performers to make a radio broadcast, in a 1907 publicity event singing over Lee De Forest's experimental AM radio transmitter in New York City. She also starred in more than a dozen silent films from 1915 to 1920, which were filmed between opera seasons. Farrar made her debut with the title role in Cecil B. De Mille's Carmen (1915), based on the novella Carmen by Prosper Mérimée. For her role as the seductive gypsy girl, she was extensively praised. For her performance, she came in fourth place in the 1916 Screen Masterpiece contest held by Motion Picture Magazine, ahead of any other actress. DeMille directed her next in the silent romantic drama Temptation (Cecil B. DeMille, 1915), also with Theodore Roberts, and in the drama Maria Rosa (Cecil B. DeMille, 1916) with Wallace Reid. Another notable screen role was as Joan of Arc in Joan the Woman (1917). This was Cecil DeMille's first historical drama. The screenplay is based on Friedrich Schiller's 1801 play Die Jungfrau von Orleans (The Maid of Orleans). She next played the daughter of an Aztec king in the silent romance The Woman God Forgot (Cecil B. DeMille, 1917). In the film, she falls in love with a Spanish captain (Wallace Reid) whose army has come to convert the Aztecs to Christianity. Her last film for Paramount Pictures was the romance The Devil-Stone (Cecil B. DeMille, 1917), again with Wallace Reid. The film had sequences filmed in the Handschiegl Color Process, but only two of six reels are known to survive. For Goldwyn Pictures she appeared in such films as The Turn of the Wheel (Reginald Barker, 1918) with Herbert Rawlinson and Percy Marmont, the Western The Hell Cat (Reginald Barker, 1918), Shadows (Reginald Barker, 1918) and the melodrama The Stronger Vow (Reginald Barker, 1919), the latter three with Milton Sills. All four films are considered lost. She co-starred with her husband Lou Tellegen in the dramas The World and Its Woman (Frank Lloyd, 1919), Flame of the Desert (Reginald Barker, 1919), and The Woman and the Puppet (Reginald Barker, 1920). Her final film was the silent drama The Riddle: Woman (Edward José, 1920), in which her co-star was Montagu Love.

 

Geraldine Farrar had a seven-year love affair with the Italian conductor Arturo Toscanini. It was rumored that she gave him an ultimatum that he must choose either her or his wife and children in Italy. It resulted in Toscanini's abrupt resignation as principal conductor of the Metropolitan Opera in 1915. Farrar was close friends with the star tenor Enrico Caruso and there has been speculation that they too had a love affair, but no conclusive evidence of this has surfaced. In 1916, she married Dutch film actor Lou Tellegen. Their marriage was the source of considerable scandal, and it ended, as a result of her husband's numerous affairs, in a messy and very public divorce in 1923. The circumstances of the divorce were brought again to public recollection by Tellegen's bizarre 1934 suicide in Hollywood. When told of her ex-husband's death, she replied "Why should that interest me?" Farrar retired from opera in 1922 at the age of 40. Her final performance was as Leoncavallo's Zazà. By this stage, her voice was in premature decline due to overwork. Farrar quickly transitioned into concert recitals and was signed (within several weeks of announcing her opera retirement) to an appearance at Hershey Park on Memorial Day 1922. She continued to make recordings and give recitals throughout the 1920s and was briefly the intermission commentator for the Metropolitan Opera radio broadcasts during the 1934–1935 season. Her rather bizarre autobiography, Such Sweet Compulsion (1938), was written in alternating chapters purporting to be her own words and those of her mother, with Mrs. Farrar rather floridly recounting her daughter's many accomplishments. In 1967, Geraldine Farrar died in Ridgefield, Connecticut of heart disease aged 85, and was buried in Kensico Cemetery in Valhalla, New York. She had no children.

 

Sources: Andrea Suhm-Binder (Cantabile subito), Bob Hufford (Find A Grave), Wikipedia, and IMDb.

 

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Character Creation

 

Garth Ranzz, also known as Live Wire and Lightning Lad, is a superhero appearing in media published by DC Comics, usually those featuring the Legion of Superheroes, a 30th and 31st century group of which he is a founding member.[1] He has the superhuman ability to generate electricity, usually in the form of lightning bolts.

 

Garth Ranzz as Lightning Lad has appeared in various media outside comics, primarily those featuring the Legion of Super-Heroes. He is voiced by Andy Milder in Legion of Super Heroes (2006) and portrayed by Calum Worthy in Smallville.

 

The character first appeared in Adventure Comics #247 (April 1958), and was created by Otto Binder and Al Plastino.

 

Character History

 

Garth Ranzz was born on the agricultural world of Winath with his twin, Ayla. Garth, Ayla, and their older brother Mekt were joy riding when their ship lost power and came down on the world of Korbal. They devised a scheme to recharge their ship's energy cells using the electrical energy of Korbal's lightning beasts. They underestimated the beasts' power and were all bathed in bio-electric energy. After their return with new found powers, Mekt disappeared.

 

Garth left home to look for his brother. On his journey he helped two other super powered teenagers foil the assassination of philanthropist R.J. Brande. Brande suggested they form a team - the Legion of Super-Heroes. Garth assumed the name Lightning Boy initially, but switched to Lightning Lad.

 

Original Continuity: New Earth

 

He was one of the first Legionnaires to be killed when he sacrificed his life to save Saturn Girl, taking a blast from Zaryan the Conqueror's ship. He was resurrected by Proty, the shape shifting pet of Chameleon Boy, who sacrificed his life to revive Garth in a lightning ceremony. Later, Garth lost his right arm to a giant space whale, and had to get a cybernetic replacement. Years later, his parents were killed in a space cruiser accident. His years on the Legion weren't all bad.

 

He formed close friendships with Cosmic Boy** and Sun Boy and he and Saturn Girl became one of the Legion's earliest couples following his resurrection. His sister joined the Legion as well. Though Garth lost his arm, it was eventually restored. After several years of dating, Lightning Lad proposed to Saturn Girl and she accepted.*

 

Reboot: Earth-247

 

In his search for his brother Mekt he had been branded a runaway due to only being 14, which was a minor on Winath. When his sister arrived to join the Legion as Winath's official representative, Garth quit in shame. He went on to work for the industrialist Leland McCauley on his Workforce team. Garth had hoped to make some money to look for his brother, but quit the team soon after due to McCauley's lack of morals.

 

Despite aiding the Legion against Daxamite terrorists, Garth was still not allowed to rejoin, so he went off again to find his brother. When he found Mekt, his mind had snapped, and he was a deadly criminal. Mekt abducted Garth and shot his right arm off. After recovering from his battle with Mekt and gaining a cybernetic arm, Garth worked with a newly formed Espionage Squad to uncover the corruption of President Chu.

 

She was impeached, and Brande was made president in her place. His first act as President was to eliminate the membership restrictions on the Legion, finally allowing Garth to rejoin.

 

Threeboot: Earth-Prime

 

On Earth-Prime, Garth Ranzz was Lightning Lad once more and one of the founders of the Legion of Super-Heroes. They were now a teen youth movement and Garth coined their first battle cry: "Eat it, Grandpa!" He was dating Saturn Girl, and said that the only way to successfully date a telepath was to be "way honest." He was instrumental in gaining legal status for the Legion, but forgot to read the fine print in the agreement - the U.P. now had the right to use the Legion's image in any way they wished.

 

When Cosmic Boy disappeared after the Dominators attempted to take over Earth, a public election was held for Legion leadership. Supergirl was elected with Lightning Lad her deputy. She soon left for the 21st century and Garth became the team leader. Garth was quickly overwhelmed with the responsibilities of leadership, especially dealing with the various organizations of the United Planets.

 

This put a strain in he and Saturn Girl's relationship which led her to have a psychic affair. She confessed the indiscretion and Garth broke up with her.

 

Retroboot: New Earth

 

Infinite Crisis restored the original Legion continuity from before Five Years Later. Garth was once again married to Saturn Girl and a father to twin sons, though he ultimately rejoined the Legion when Earth-Man began an anti-alien campaign on Earth.

 

The Legion founders went to the Batcave to find proof that Superman was actually a Kryptonian and not an Earthling like Earth-Man was leading the people to believe, but Garth and the others were captured. Eventually he was freed and Earth-Man was defeated. After Saturn Girl's homeworld of Titan was destroyed and their twin boys were kidnapped but recovered from a servant of Darkseid, Garth and Imra decide to take a leave of absence from the Legion to spend time with their boys.

 

Post-Flashpoint: Earth-0

 

Following the conclusion of Flashpoint, the various timelines were united and rebooted once again. The Legion's timeline changed slightly where they still reached out to a young Clark Kent long before he became Superman, but they Legion grew up along with Clark and have changed their names to reflect their age.

 

Imra changed her name to Saturn Woman and her along with Saturn Girl (Now Saturn Woman) and Cosmic Boy (Now Cosmic Man) reunited with an adult Clark Kent in an effort to stop the Anti-Superman army from destroying the original rocket that took Clark to Earth. They succeeded in saving the rocket and keeping he timeline intact.

 

During the battle, Garth's right arm was apparently destroyed off-panel. The wires seen in its place indicate that he had already replaced it with a cybernetic arm akin to the Earth-247 version.

 

DC Rebirth

 

Lightning Lad reappears once again as a founding member of the Legion Of Superheroes

 

Major Story Arcs

 

Original Continuity: New Earth - Married Life

 

Garth and Imra were married and were forced to leave the Legion by its own by-laws, but this was shortly thereafter vetoed and the couple returned to active duty. Garth was even elected leader at one point, but the stress became too much and he resigned before the end of his term. Imra became pregnant and gave birth to a healthy baby boy, Graym Ranzz.

 

Wanting to spend more time with his young family, Garth resigned with his fellow Legion founders from the team. Though it was a horror to learn that the villainous Validus was actually his son's twin, thrust through time and manipulated by Darkseid, the boy was eventually restored and returned to the Ranzzes. Even after Saturn Girl returned to active duty, Garth remained at home with his sons.

 

Five Years Later

 

Following the five years later after the Magic Wars, Garth had relocated his family to Winath. There they established the Lightning Plantation and became a successful farming and shipping collective. Tragedy struck when Garth's son Garridan, the former Validus, began infecting Winathians with a deadly plague.

 

His son had to be taken off-world to the planet Quarantine and could only visit wearing a special suit. The disease also caused Garth to walk with a limp. However, good news soon followed.

 

Imra became pregnant again with twins and the Legion of Super-Heroes was reforming. Though the Ranzzes didn't join back up, they did assist their old teammates from time to time and Garth even gave them an old storage facility on Talus to use as a headquarters.

 

Who is Garth?

 

Shortly after his daughters Dacey and Dorritt were born, his sister Ayla stumbled upon a secret that Garth had been keeping: he wasn't Garth at all, but Proty. Proty's consciousness had been transferred into Garth's body and was the cause of Lightning Lad's resurrection. Being a former telepath as Proty, Garth was able to protect his thoughts from his telepathic wife about the matter.

 

Garth assisted Legionnaires past and present in hunting down Glorith and Mordru to save Cosmic Boy. Zero Hour then happened and Garth and the other Legionnaires sacrificed themselves to save the timestream and create a new reality.

 

Reboot: Earth-247 - The Death of Garth

 

When half the Legion was stuck in the 20th century, Brande personally asked Garth to become Legion leader. Live Wire wasn't comfortable with the idea and shortly thereafter hosted a leadership election for a replacement. Once the team was reunited, he began a relationship with Saturn Girl and ultimately proposed. Garth and Imra were one of several Legionnaires lost in a spatial rift. Saturn Girl's manipulation of the team put a strain on their relationship. Live Wire sacrificed himself fighting their former teammate, Element Lad, who had spent billions of years becoming a mad god.

 

Garth's Body Restored

 

Garth's spirit, however, was stored in the living crystals of Element Lad's corpse, and he was able to return to the Legion - but in Element Lad's body. This caused a lot of anxiety among the Legion, but eventually his friends came to accept Garth. When Earth-247 was destroyed in Infinite Crisis, Garth and his team survived because they had been lost in the timestream. Garth's original body was eventually restored when the Brainiac 5 of New Earth used a special lightning rod to help Garth transmute himself to normal. He then rejoined his team as they pushed into the multiverse as the new Wanderers.

 

Powers & Abilities - Electricity Control

 

Lightning Lad has the ability to generate electricity and direct bolts of electricity accurately. Lightning Lad can use his power destructively, such as to short-circuit electrical items, split boulders, burn objects with precision or shatter walls. He can also reduce the force of his bolts so that they will only stun. He can send his electricity through conductive metals. He has a degree of immunity to electrical charge; in fact, they give him more strength to use his power. In some instances he has a robotic right arm that is powered by his lightning power.

 

Equipment

 

As a member of the Legion of Super-Heroes, Lightning Lad possesses a Legion Flight Ring. The ring gives its wearer the ability to fly, the speed and range of which is determined by the wearer's willpower. It also acts as a long-range communicator (enabling constant vocal contact with other Legionnaires, even across vast distances of space), a signal device, and a navigational compass, all powered by a micro-computer built inside the ring.

 

⚡ Happy 🎯 Heroclix 💫 Friday! 👽

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A year of the shows and performers of the Bijou Planks Theater.

 

Secret Identity: Garth Ranzz

 

Publisher: DC

 

First Appearance: Adventure Comics #247 (April 1958)

 

Created by: Otto Binder (Writer)

Al Plastino (Artist)

 

* Saturn Girl seen in BP 2021 Day 239!

www.flickr.com/photos/paprihaven/51406326508/

 

** Cosmic Boy seen in BP 2022 Day 364!

www.flickr.com/photos/paprihaven/52597081315/

There is a value to human error: the ability to self destruct.

 

If you haven't noticed, I have a mild fascination with technophobia.

 

We live in a time where society is constantly creating ways to eliminate work; each update means another way of living, and these are increasing rapidly. People grow to fear technology due this vision of the future of society; where people not only become less significant to each other, but also become less significant to their devices.

 

Which brings up one of the central themes in futuristic sci-fi: we'll all be reduced to numbers as opposed to individuals. Serial codes belong on pieces of technology, however our dependency on progress could eventually switch around so that humans become the puppets that are programed.

 

In contrast to this idea is the fact that machine's only purpose is to be utilized. Without the humans, progress would barely continue and gradually cease to exist.

 

It comes down to the only power humans would have left -- human error: the ability to make mistakes and to self destruct.

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Additional information from source:

 

Atmospheric gases scatter blue wavelengths of visible light more than other wavelengths, giving the Earth’s visible edge a blue halo. At higher and higher altitudes, the atmosphere becomes so thin that it essentially ceases to exist. Gradually, the atmospheric halo fades into the blackness of space. This astronaut photograph captured on July 20, 2006, shows a nearly translucent moon emerging from behind the halo.

 

Technically, there is no absolute dividing line between the Earth’s atmosphere and space, but for scientists studying the balance of incoming and outgoing energy on the Earth, it is conceptually useful to think of the altitude at about 100 kilometers above the Earth as the “top of the atmosphere.” The top of the atmosphere is the bottom line of Earth’s energy budget, the Grand Central Station of radiation. It is the place where solar energy (mostly visible light) enters the Earth system and where both reflected light and invisible, thermal radiation from the Sun-warmed Earth exit. The balance between incoming and outgoing energy at the top of the atmosphere determines the Earth’s average temperature. The ability of greenhouses gases to change the balance by reducing how much thermal energy exits is what global warming is all about.

 

Greenhouse gases aren’t the only part of the Earth system that influence the energy balance. The percent of incoming sunlight the Earth system reflects (the Earth’s albedo) is a key climate factor since whatever is reflected can’t go on to warm the planet. Clouds, such as those blanketed the earth int he image above, snow, and ice have the biggest influence on how reflective Earth is. When any of these factors change, Earth’albedo can change. Since the late 1990s, NASA satellites have been observing the top of the atmosphere with sensors known as CERES, short for “Clouds and the Earth’s Radiant Energy System,” and scientists have been using the data to look for signs of change in the amount of energy the Earth reflects or emits.

 

Because snow and ice are so reflective, scientists have long expected that melting of snow and ice in the polar regions will accelerate climate warming by reducing the Earth’ albedo. Atmospheric scientist Seiji Kato of NASA’s Langley Research Center and several teammates have used a suite of NASA and NOAA (National Oceanic and Atmospheric Administration) satellite observations to investigate whether this feedback is already underway. The team compared reflected sunlight, clouds, and sea ice and snow cover at polar latitudes from 2000-2004. What they found was a bit of a surprise: while snow and ice in the Arctic declined, the albedo didn’t change. To read more about the team’s investigation, read the Earth Observatory feature story Arctic Reflection: Clouds Replace Snow and Ice as Solar Reflector.

  

Astronaut photograph ISS013-E-54329 was acquired July 20, 2006, with a Kodak 760C digital camera using a 400 mm lens, and is provided by the ISS Crew Earth Observations experiment and the Image Science & Analysis Laboratory, Johnson Space Center. The image in this article has been cropped and enhanced to improve contrast. The International Space Station Program supports the laboratory to help astronauts take pictures of Earth that will be of the greatest value to scientists and the public, and to make those images freely available on the Internet. Additional images taken by astronauts and cosmonauts can be viewed at the NASA/JSC Gateway to Astronaut Photography of Earth.