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Blond & Pretty, Hot & Sexy Twin Sister Bikini Swimsuit Model Goddesses with Long Blonde Hair!
One of these may be in my LA gallery show!
While shooting stills with a Nikon D800 & video with a Sony NEX 6 with my 45surfer rig, I set another D800 up on the rocks for video! Enjoy some of the video here:
www.youtube.com/watch?v=HLIwKVQ0JOA
www.youtube.com/watch?v=DGpIJ6c7u0g
In a Malibu sea cave!
They were tall, thin, pretty, hot, beautiful and hard to tell apart! :)
Twin sister goddesses!
Shot with my rather expensive B&W CP (circular polarizer)--the B W XS-Pro Kaesemann Circular Polarizer with Multi-Resistant Nano Coating ! I love the finish it gives! Nothing in post compares! :)
Finished in Lightroom 5!
Nikon D800 Photographs of two beautiful blonde swimsuit bikini model twin sisters shot with the brand new Nikon D800 and Nikon 70-200mm f/2.8G ED VR II AF-S Nikkor Zoom Lens.
Captured in both RAW and JPEG.
Check out the amazing detail in the full resolution photos! I was running out of CF & SD cards fast, as the files are huge!
Classic California Hero's Journey Mythology Goddesses! Tall, pretty, thin, fit, with pretty blue eyes and long straw-blonde hair, blowing on the sea breeze.
On El Matador Beach in Malibu!
Enjoy the epic beauty of the mythological hero's journey, in great detail via the Nikon D800! :)
The full resolutions RAWs and JPEGs are amazing!
Enjoy!
May the goddesses inspire you along your artistic hero's journey!
The tall, golden-haired, blue-eyed twin goddesses were modeling the black & gold Braveheat Sword (Cross) simsuit and "Gold 45 Revolver" Gold'N'Virtue swimsuits with the main equation to Moving Dimensions Theory on the swimsuits: dx4/dt=ic. Yes I have a Ph.D. in physics! :) You can read more about my research and Hero's Journey Physics here:
herosjourneyphysics.wordpress.com/ MDT PROOF#2: Einstein (1912 Man. on Rel.) and Minkowski wrote x4=ict. Ergo dx4/dt=ic--the foundational equation of all time and motion which is on all the shirts and swimsuits. Every photon that hits my Nikon D800e's sensor does it by surfing the fourth expanding dimension, which is moving at c relative to the three spatial dimensions, or dx4/dt=ic!
May the Hero's Journey Mythology Goddess inspire you (as they have inspired me!) along your own artistic journey! Love, love, love the 70-200mm F/2.8 Lens! Holding it up all day, alongside the Sony NEX 6 with the 50mm F/1.8 lens for cool video bokeh which I have mounted under the Nikon D800E camera, is quite the workout! My shoulders have gotten bigger after so many days with six hour shoots in the AM and 3 hour shoots in the PM holding that rig up :). Plus I have to carry all the gear, books, and clothes a few hundred yards up and down the steep cliffs. I count my photography days as two workout days. :) But I love it! Every day presents a puzzle--how to figure out the light, and every model presents a mystery to be unlocked--what are her best angles/poses/actions? Nothing beats the challenge of capturing the natural beauty of a day out there, when the light's dynamic range can change by a factor of ten in a few minutes as the mist burns away to reveal the sun, and then the wind whips up and a fog rolls on in, making it seem like a windy December dusk in July. One must always be mindful of tide, times, and temperatures and work quickly before the cameras get too hot in the sun, or the model gets too cold in the wind, as the tide and rogue waves reach out to grab your equipment/props/clothes and claim them for Poseidon, the god of the sea . Beach photography/video is just like surfing, with the conditions always changing and every wave a bit different. Studio photography is like riding an exercise bike set at level 1 in a gym in front of a TV. And shooting stills and video @ the same time is like Jimmy Page or Slash improvising on his double-necked guitar.
I'm working on a book called "Lone Cowboy Photography: A Humble Hero's Journey into the Art of Photography" about how to shoot it all on your own--stills and video for sports, portraits, and landscapes--with no assistants nor teams. Just you and the goddesses, the heroic athletes, the majestic, epic landscapes, and a copy of Homer's Iliad and Odyssey to teach you of the poetry of epic, heroic beauty. You gotta be ready, son--you gotta be ready for quick-draw showdowns at sunrise and sunset, during the magic hours and in the harsh light at high noon. Every shoot is over the second you finish packing your bags for the day with all your batteries, backup cameras, freshly-cleaned lenses, washed and folded clothes and hoodies, and props and polarizer filters. Every shoot ends the second the prep is over, and the fun, and art, and life of the live performance begins. :) "Every fighter has a plan," said boxing great Mike Tyson, "Until they get hit."
All the Best on Your Epic Hero's Journey from Johnny Ranger McCoy!
As things go crazy
She's lost herself and lost to you
And now that nothing's spoken
She's out there on the ice again
She'll take me down slowly
She's holding on to what she can...
(Cut Copy)
...taken at the ice rink in MyMall...
Limassol, Cyprus...
- my first time being in this swap!!
It was a great theme - and I ave used very different fabrics for this, mixed in some of my favourite black/white fabrics in.... everybody seems to have started a quilt with this pattern - I changed it in finished 1" squares :)
X Factor Transport Kenworth K104 Double Road-Train makes its way up the Hummocks near Lochiel on its way West to Perth.
Invercargill and the province of Southland.
The question that has always puzzled me is why does a city of 50,000 people exist on the southernmost tip of NZ which has the bleakest climate? Invercargill is the coolest, most bleak and cloudiest city in NZ. It averages just 1,600 hours of sunshine a year compared with 1,500 for London, 2,050 in Christchurch, 2,800 in Adelaide and 3,200 in Perth WA. It has around 200 mm of rain every month of the year and it is a very windy city. It is in fact one of the largest southern cities in the world only surpassed by Ushuaia and Punta Arenas in Argentina and Chile respectively. But because of its latitude it has long summer days. Even in mid-October when we visit the length of day will be around 13.5 hours with the sun setting around 8:20 pm. In high summer twilight ends around 10:30 pm with a 16 hour long day like in Scotland. At this time of the year one can often see the Aurora Australis or Southern Lights an atmospheric phenomena of subarctic regions. Like Dunedin Invercargill was settled by the Scots. Many of its streets and families have Scottish names. It developed as an offshoot of Scottish Otago. The Surveyor General of Otago selected the site for a new town in 1856 and laid out the streets in a grid pattern on this very flat city. The first land was sold in 1858 and by 1861 Invercargill was a very small but flourishing town. Why? Because it had three main riches, apart from some gold found in the hinterland in 1860: it had the largest most fertile plains of NZ; it had a coastline rich with oysters, lobsters, cod fish and abalone( paua); and it had heavily forested mountains with hardwoods which were in great demand throughout the world- rimu, totara, silver beech etc. These basic factors meant that the province of Southland when it separated from Otago in 1861 had a bright future. The land, rainfall, soils and seas would provide for the people as it had done for the Maoris before the whites arrived. Southland consequently has had a rich and varied agricultural past ranging from sheep pastoralism, grain growing especially oats for porridge and barley for illicit whisky making (how could the Scots survive in this cold climate without whisky?) ,linen flax growing and milling, dairying and milk processing, fish and seafood canning, timber cutting and timber mills, and meat freezing and butchering works. These rural industries necessitated railways and like Dunedin Invercargill become a major rail head with lines going north to Lumsden, Kingston and Queenstown in the Alps, across to Gore, and west towards Fjordland and the richly forested valleys adjacent to it. Timber in particular needed the railways. Invercargill established railway workshops and the manufacturing steam engines for the railways of NZ. Its first railway line was built in 1867 to the Bluff, the port for Southland. It was connected to Christchurch by 1878.
In the 20th century Southland has developed hydroelectricity which in turn has attracted industry to the region. Possums introduced from across the Tasman in 1858 have become a major pest but they have also spawned a new industry- possum textiles and woollens; red deer were introduced from Europe in 1901 to Fjordland and now with the advent of helicopters and helicopter farming they are “farmed” for venison and processed near Invercargill. The story of Southland and Invercargill is one generally of success and success based on the climate and the resources of the land. For example, dairying has been strong since the early 1880s and continues today with Fonterra Milk processing mainly for export to Asia; linen flax milling continued until 1956; flourmills have processed wheat and the oat mill in Gore produced porridge oats; and Chewings Fescue was found to thrive in Southland and has become a major industry producing lawns for houses around NZ. Southland introduced prohibition in 1905 which lasted until 1945 and the illegal moonshine or whisky making in the hills east of Invercargill near Gore continued whilst that was in place. But the really big success has been hydroelectricity which began with Lake Monowai Power station in 1925. It still powers Invercargill and feeds into the national power grid. More recently the enormous Manapouri Power Station 200 metres below the water level of Lake Manapouri near Te Anau in Fjordland was completed in 1971 after work commenced in 1964. It is the largest hydroelectric station in NZ and the second largest power station in NZ. It was developed for Comalco to erect an aluminium smelter and refinery at the Bluff near Invercargill which is now run by Rio Tinto and employs nearly 3,000 people from Invercargill but its financial viability is shaky and the plant has been threatened with closure. Another major industry of Invercargill is fertiliser production.
•Invercargill is a Scottish settlement. 40% of Invercargill’s suburbs and nearby towns have Scottish names and the first Presbyterian Church was the leading church of the province. The current church replaced an earlier 1863 church in 1915 when it was completed. It is built of brick with a domed roof, a 100 foot high tower and it is in the Italian Romanesque style. It is on the highway from Dunedin at 151 Tay St. Next on the right we will see St Johns Anglican Church( 108 Tay St) in red brick built in 1887; almost next door is the impressive Town Hall and Theatre ( 88 Tay St) built 1906 in classical style; next is the YMCA building of 1910 at 77 Tay St; at the roundabout (the location of the Boer War Memorial) at the end of the street is the old Bank of NSW built in 1904 on the right whilst on the left is the former Cornerstone Bank of NZ building from 1879 ; as we turn right into Dee St. you will see a plethora of brightly painted heritage buildings all in good repair – partly because the city’s young mayor from Auckland has supported and encouraged this to revitalise the city. At 136 Dee St is the Blackman building with the large black swan on the roof line and further along (178 Dee St.) is the Gothic St Pauls Presbyterian Church built in 1876 and added to in 1881. Next we turn right into Victoria Ave to visit the Information Centre, the Southland Museum and Queens Park with its rhododendron dell. After our visit here we will pass the City water Tower (a flat city needed a tower for water pressure) built in 1888 with 300,000 red, yellow and black bricks. 101 Doon St.
Other heritage buildings include:
•Anderson House built in 1828 in neo-Georgian style for a wealthy businessman Sir Robert Anderson who had links with forestry, timber selling and the Southland Building society. His estate with 30 acres and his art collection was bequeathed to the city and the house became the city art gallery. It was closed in 2013 because it did not meet earthquake building regulations.
•The three story WEA building built in 1912 as a Coffee and Spice mill at 100 Esk St which is also the main shopping street. The spice firm was established in 1872 and some parts of this remain behind the 1912 building. It is now the Southland Education Centre for adults. The beautiful Southland Times newspaper office (1908) is also in this street at number 67.
•The Catholic St Mary’s Basilica built in 1905 in neo-classical style a bit like St Peter’s in Rome but tiny. On corner of Tyne & Ninth Streets. Near there at 80 Forth St is the 1926 classical style Masonic Centre.
•The decorative and fanciful Railway Hotel built in 1886 with classical features and a few Australian Federation era features. It is at 3 Leven Street behind the City library at the end of Esk St.
Luminance HDR 2.3.1 tonemapping parameters:
Operator: Mantiuk06
Parameters:
Contrast Mapping factor: 1
Saturation Factor: 1.79
Detail Factor: 9.8
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PreGamma: 0.33
#AB_FAV_SPRING_🌷
A stunning flower a vibrant red.
So ruffled and plump.
Everyday I have the pleasure and privilege of working with beauty.
It is a voyage of discovery, working forensically on flowers, new things every day.
Nature at its very best.
I love Ranunculus, densely layered, and this bloom opened beautifully, not always evident, their stems are extremely delicate and do tend to just collapse before the bud can open into a gorgeous voluptuous bloom...
With love to you and thanK you for ALL your faves and comments, M, (* _ *)
For more: www.indigo2photography.com
IT IS STRICTLY FORBIDDEN (BY LAW!!!) TO USE ANY OF MY image or TEXT on websites, blogs or any other media without my explicit permission. © All rights reserved
Ranunculus, red, bloom, bud, lighting, flowers, design, stamens, studio, black-background, colour, square, "Nikon D7000", "Magda indigo"
Jasper tests his theory that if you enhance the user experience by making it easier for the humans to reach the ball, they're more likely to stay engaged in the game. Theory confirmed.
“The orgasm has replaced the Cross as the focus of longing and the image of fulfillment.”
― Malcolm Muggeridge
Lego X-Factor. Based on the classic Peter David '90s line-up.
From l to r: Multiple Man, Quicksilver, Forge, Polaris, Strong Guy, Havok, Wolfsbane, Random, Val Cooper.
All are my own designs aside from:
Forge - Torso idea from thewatchman on Eurobricks.
Quicksilver - Adapted from CthulhuFX's design on Flickr
Mallard Duck (Disambiguation) (ˈmælɑːrd, ˈmælərd) or Wild Duck (Anas platyrhynchos)
The mallard (/ˈmælɑːrd, ˈmælərd/) or wild duck (Anas platyrhynchos) is a dabbling duck that breeds throughout the temperate and subtropical Americas, Eurasia, and North Africa, and has been introduced to New Zealand, Australia, Peru, Brazil, Uruguay, Argentina, Chile, Colombia, the Falkland Islands, and South Africa. This duck belongs to the subfamily Anatinae of the waterfowl family Anatidae. The male birds (drakes) have a glossy green head and are grey on their wings and belly, while the females (hens or ducks) have mainly brown-speckled plumage. Both sexes have an area of white-bordered black or iridescent blue feathers called a speculum on their wings; males especially tend to have blue speculum feathers. The mallard is 50–65 cm (20–26 in) long, of which the body makes up around two-thirds the length. The wingspan is 81–98 cm (32–39 in) and the bill is 4.4 to 6.1 cm (1.7 to 2.4 in) long. It is often slightly heavier than most other dabbling ducks, weighing 0.7–1.6 kg (1.5–3.5 lb). Mallards live in wetlands, eat water plants and small animals, and are social animals preferring to congregate in groups or flocks of varying sizes. This species is the main ancestor of most breeds of domestic ducks.
The female lays eight to 13 creamy white to greenish-buff spotless eggs, on alternate days. Incubation takes 27 to 28 days and fledging takes 50 to 60 days. The ducklings are precocial and fully capable of swimming as soon as they hatch.
The mallard is considered to be a species of least concern by the International Union for Conservation of Nature (IUCN). Unlike many waterfowl, mallards are considered an invasive species in some regions. It is a very adaptable species, being able to live and even thrive in urban areas which may have supported more localised, sensitive species of waterfowl before development. The non-migratory mallard interbreeds with indigenous wild ducks of closely related species through genetic pollution by producing fertile offspring. Complete hybridisation of various species of wild duck gene pools could result in the extinction of many indigenous waterfowl. The wild mallard is the ancestor of most domestic ducks, and its naturally evolved wild gene pool gets genetically polluted by the domestic and feral mallard populations.
Taxonomy and evolutionary history
The mallard was one of the many bird species originally described in the 1758 10th edition of Systema Naturae by Carl Linnaeus. He gave it two binomial names: Anas platyrhynchos and Anas boschas. The latter was generally preferred until 1906 when Einar Lönnberg established that A. platyrhynchos had priority, as it appeared on an earlier page in the text. The scientific name comes from Latin Anas, "duck" and Ancient Greek πλατυρυγχος, platyrhynchus, "broad-billed" (from πλατύς, platys, "broad" and ρυγχός, rhunkhos, "bill"). The genome of Anas platyrhynchos was sequenced in 2013.
The name mallard originally referred to any wild drake, and it is sometimes still used this way. It was derived from the Old French malart or mallart for "wild drake" although its true derivation is unclear. It may be related to, or at least influenced by, an Old High German masculine proper name Madelhart, clues lying in the alternative English forms "maudelard" and "mawdelard". Masle (male) has also been proposed as an influence.
Mallards frequently interbreed with their closest relatives in the genus Anas, such as the American black duck, and also with species more distantly related, such as the northern pintail, leading to various hybrids that may be fully fertile. This is quite unusual among such different species, and is apparently because the mallard evolved very rapidly and recently, during the Late Pleistocene. The distinct lineages of this radiation are usually kept separate due to non-overlapping ranges and behavioural cues, but have not yet reached the point where they are fully genetically incompatible. Mallards and their domestic conspecifics are also fully interfertile.
Genetic analysis has shown that certain mallards appear to be closer to their Indo-Pacific relatives, while others are related to their American relatives. Mitochondrial DNA data for the D-loop sequence suggest that mallards may have evolved in the general area of Siberia. Mallard bones rather abruptly appear in food remains of ancient humans and other deposits of fossil bones in Europe, without a good candidate for a local predecessor species. The large Ice Age palaeosubspecies that made up at least the European and West Asian populations during the Pleistocene has been named Anas platyrhynchos palaeoboschas.
Mallards are differentiated in their mitochondrial DNA between North American and Eurasian populations, but the nuclear genome displays a notable lack of genetic structure. Haplotypes typical of American mallard relatives and eastern spot-billed ducks can be found in mallards around the Bering Sea. The Aleutian Islands hold a population of mallards that appear to be evolving towards becoming a subspecies, as gene flow with other populations is very limited.
Also, the paucity of morphological differences between the Old World mallards and the New World mallard demonstrates the extent to which the genome is shared among them such that birds like the Chinese spot-billed duck are highly similar to the Old World mallard, and birds such as the Hawaiian duck are highly similar to the New World mallard.
The size of the mallard varies clinally; for example, birds from Greenland, though larger, have smaller bills, paler plumage, and stockier bodies than birds further south and are sometimes classified as a separate subspecies, the Greenland mallard (A. p. conboschas).
Description
The mallard is a medium-sized waterfowl species that is often slightly heavier than most other dabbling ducks. It is 50–65 cm (20–26 in) long – of which the body makes up around two-thirds – has a wingspan of 81–98 cm (32–39 in) and weighs 0.7–1.6 kg (1.5–3.5 lb). Among standard measurements, the wing chord is 25.7 to 30.6 cm (10.1 to 12.0 in), the bill is 4.4 to 6.1 cm (1.7 to 2.4 in), and the tarsus is 4.1 to 4.8 cm (1.6 to 1.9 in).
The breeding male mallard is unmistakable, with a glossy bottle-green head and a white collar that demarcates the head from the purple-tinged brown breast, grey-brown wings, and a pale grey belly. The rear of the male is black, with white-bordered dark tail feathers. The bill of the male is a yellowish-orange tipped with black, with that of the female generally darker and ranging from black to mottled orange and brown. The female mallard is predominantly mottled, with each individual feather showing sharp contrast from buff to very dark brown, a coloration shared by most female dabbling ducks, and has buff cheeks, eyebrow, throat, and neck, with a darker crown and eye-stripe.
Both male and female mallards have distinct iridescent purple-blue speculum feathers edged with white, which are prominent in flight or at rest but temporarily shed during the annual summer moult. Upon hatching, the plumage of the duckling is yellow on the underside and face (with streaks by the eyes) and black on the back (with some yellow spots) all the way to the top and back of the head. Its legs and bill are also black. As it nears a month in age, the duckling's plumage starts becoming drab, looking more like the female, though more streaked, and its legs lose their dark grey colouring. Two months after hatching, the fledgling period has ended, and the duckling is now a juvenile. Between three and four months of age, the juvenile can finally begin flying, as its wings are fully developed for flight (which can be confirmed by the sight of purple speculum feathers). Its bill soon loses its dark grey colouring, and its sex can finally be distinguished visually by three factors:
1) the bill is yellow in males, but black and orange in females;
2) the breast feathers are reddish-brown in males, but brown in females; and
3) in males, the centre tail feather (drake feather) is curled, but in females, the centre tail feather is straight.
During the final period of maturity leading up to adulthood (6–10 months of age), the plumage of female juveniles remains the same while the plumage of male juveniles gradually changes to its characteristic colours. This change in plumage also applies to adult mallard males when they transition in and out of their non-breeding eclipse plumage at the beginning and the end of the summer moulting period. The adulthood age for mallards is fourteen months, and the average life expectancy is three years, but they can live to twenty.
Several species of duck have brown-plumaged females that can be confused with the female mallard. The female gadwall (Mareca strepera) has an orange-lined bill, white belly, black and white speculum that is seen as a white square on the wings in flight, and is a smaller bird. More similar to the female mallard in North America are the American black duck (A. rubripes), which is notably darker-hued in both sexes than the mallard, and the mottled duck (A. fulvigula), which is somewhat darker than the female mallard, and with slightly different bare-part colouration and no white edge on the speculum.
In captivity, domestic ducks come in wild-type plumages, white, and other colours. Most of these colour variants are also known in domestic mallards not bred as livestock, but kept as pets, aviary birds, etc., where they are rare but increasing in availability.
A noisy species, the female has the deep quack stereotypically associated with ducks. Male mallards make a sound phonetically similar to that of the female, a typical quack, but it is deeper and quieter compared to that of the female. When incubating a nest, or when offspring are present, females vocalise differently, making a call that sounds like a truncated version of the usual quack. This maternal vocalisation is highly attractive to their young. The repetition and frequency modulation of these quacks form the auditory basis for species identification in offspring, a process known as acoustic conspecific identification. In addition, females hiss if the nest or offspring are threatened or interfered with. When taking off, the wings of a mallard produce a characteristic faint whistling noise.
The mallard is a rare example of both Allen's Rule and Bergmann's Rule in birds. Bergmann's Rule, which states that polar forms tend to be larger than related ones from warmer climates, has numerous examples in birds, as in case of the Greenland mallard which is larger than the mallards further south. Allen's Rule says that appendages like ears tend to be smaller in polar forms to minimise heat loss, and larger in tropical and desert equivalents to facilitate heat diffusion, and that the polar taxa are stockier overall. Examples of this rule in birds are rare as they lack external ears, but the bill of ducks is supplied with a few blood vessels to prevent heat loss, and, as in the Greenland mallard, the bill is smaller than that of birds farther south, illustrating the rule.
Due to the variability of the mallard's genetic code, which gives it its vast interbreeding capability, mutations in the genes that decide plumage colour are very common and have resulted in a wide variety of hybrids, such as Brewer's duck (mallard × gadwall, Mareca strepera).
Distribution and habitat
The mallard is widely distributed across the Northern and Southern Hemispheres; in North America its range extends from southern and central Alaska to Mexico, the Hawaiian Islands, across the Palearctic, from Iceland and southern Greenland and parts of Morocco (North Africa) in the west, Scandinavia and Britain to the north, and to Siberia Japan and South Korea. Also in the east, it ranges to south-eastern and south-western Australia and New Zealand in the Southern hemisphere. It is strongly migratory in the northern parts of its breeding range, and winters farther south. For example, in North America, it winters south to the southern United States and northern Mexico, but also regularly strays into Central America and the Caribbean between September and May. A drake later named "Trevor" attracted media attention in 2018 when it turned up on the island of Niue, an atypical location for mallards.
The mallard inhabits a wide range of habitats and climates, from the Arctic tundra to subtropical regions. It is found in both fresh- and salt-water wetlands, including parks, small ponds, rivers, lakes and estuaries, as well as shallow inlets and open sea within sight of the coastline. Water depths of less than 0.9 metres (3.0 ft) are preferred, with birds avoiding areas more than a few metres deep They are attracted to bodies of water with aquatic vegetation.
Behaviour
Feeding
The mallard is omnivorous and very flexible in its choice of food. Its diet may vary based on several factors, including the stage of the breeding cycle, short-term variations in available food, nutrient availability, and interspecific and intraspecific competition The majority of the mallard's diet seems to be made up of gastropods, insects (including beetles, flies, lepidopterans, dragonflies, and caddisflies), crustaceans, worms, many varieties of seeds and plant matter, and roots and tubers. During the breeding season, male birds were recorded to have eaten 37.6% animal matter and 62.4% plant matter, most notably the grass Echinochloa crus-galli, and nonlaying females ate 37.0% animal matter and 63.0% plant matter, while laying females ate 71.9% animal matter and only 28.1% plant matter. Plants generally make up the larger part of a bird's diet, especially during autumn migration and in the winter.
The mallard usually feeds by dabbling for plant food or grazing; there are reports of it eating frogs. However, in 2017 a flock of mallards in Romania were observed hunting small migratory birds, including grey wagtails and black redstarts, the first documented occasion they had been seen attacking and consuming large vertebrates. It usually nests on a river bank, but not always near water. It is highly gregarious outside of the breeding season and forms large flocks, which are known as "sordes."
Breeding
Mallards usually form pairs (in October and November in the Northern Hemisphere) until the female lays eggs at the start of the nesting season, which is around the beginning of spring. At this time she is left by the male who joins up with other males to await the moulting period, which begins in June (in the Northern Hemisphere). During the brief time before this, however, the males are still sexually potent and some of them either remain on standby to sire replacement clutches (for female mallards that have lost or abandoned their previous clutch) or forcibly mate with females that appear to be isolated or unattached regardless of their species and whether or not they have a brood of ducklings.
Nesting sites are typically on the ground, hidden in vegetation where the female's speckled plumage serves as effective camouflage, but female mallards have also been known to nest in hollows in trees, boathouses, roof gardens and on balconies, sometimes resulting in hatched offspring having difficulty following their parent to water.
Egg clutches number 8–13 creamy white to greenish-buff eggs free of speckles. They measure about 58 mm (2.3 in) in length and 32 mm (1.3 in) in width. The eggs are laid on alternate days, and incubation begins when the clutch is almost complete. Incubation takes 27–28 days and fledging takes 50–60 days. The ducklings are precocial and fully capable of swimming as soon as they hatch.[citation needed] However, filial imprinting compels them to instinctively stay near the mother, not only for warmth and protection but also to learn about and remember their habitat as well as how and where to forage for food. When ducklings mature into flight-capable juveniles, they learn about and remember their traditional migratory routes (unless they are born and raised in captivity).In New Zealand, where mallards are naturalised, the nesting season has been found to be longer, eggs and clutches are larger and nest survival is generally greater compared with mallards in their native range.
In cases where a nest or brood fails, some mallards may mate for a second time in an attempt to raise a second clutch, typically around early-to-mid summer. In addition, mallards may occasionally breed during the autumn in cases of unseasonably warm weather; one such instance of a ‘late’ clutch occurred in November 2011, in which a female successfully hatched and raised a clutch of eleven ducklings at the London Wetland Centre.
During the breeding season, both male and female mallards can become aggressive, driving off competitors to themselves or their mate by charging at them.[86] Males tend to fight more than females, and attack each other by repeatedly pecking at their rival's chest, ripping out feathers and even skin on rare occasions. Female mallards are also known to carry out 'inciting displays', which encourages other ducks in the flock to begin fighting. It is possible that this behaviour allows the female to evaluate the strength of potential partners.
The drakes that end up being left out after the others have paired off with mating partners sometimes target an isolated female duck, even one of a different species, and proceed to chase and peck at her until she weakens, at which point the males take turns copulating with the female. Lebret (1961) calls this behaviour "Attempted Rape Flight", and Stanley Cramp and K.E.L. Simmons (1977) speak of "rape-intent flights". Male mallards also occasionally chase other male ducks of a different species, and even each other, in the same way. In one documented case of "homosexual necrophilia", a male mallard copulated with another male he was chasing after the chased male died upon flying into a glass window.[89] This paper was awarded an Ig Nobel Prize in 2003.
Mallards are opportunistically targeted by brood parasites, occasionally having eggs laid in their nests by redheads, ruddy ducks, lesser scaup, gadwalls, northern shovellers, northern pintails, cinnamon teal, common goldeneyes, and other mallards. These eggs are generally accepted when they resemble the eggs of the host mallard, but the hen may attempt to eject them or even abandon the nest if parasitism occurs during egg laying.
Predators and threats
In addition to human hunting, Mallards of all ages (but especially young ones) and in all locations must contend with a wide diversity of predators including raptors, mustelids, corvids, snakes, raccoons, opossums, skunks, turtles, large fish, felids, and canids, the last two including domestic ones. The most prolific natural predators of adult mallards are red foxes (which most often pick off brooding females) and the faster or larger birds of prey, e.g. peregrine falcons, Aquila eagles, or Haliaeetus eagles. In North America, adult mallards face no fewer than 15 species of birds of prey, from northern harriers (Circus hudsonius) and short-eared owls (Asio flammeus) (both smaller than a mallard) to huge bald, (Haliaeetus leucocephalus) and golden eagles (Aquila chrysaetos), and about a dozen species of mammalian predator, not counting several more avian and mammalian predators who threaten eggs and nestlings.
Mallards are also preyed upon by other waterside apex predators, such as the grey heron (Ardea cinerea), the European herring gull (Larus argentatus), the wels catfish (Silurus glanis), and the northern pike (Esox lucius). Crows (Corvus spp.) are also known to kill ducklings and adults on occasion. Also, mallards may be attacked by larger Anseriformes such as swans (Cygnus spp.) and geese during the breeding season, and are frequently driven off by these birds over territorial disputes. Mute swans (Cygnus olor) have been known to attack or even kill mallards if they feel that the ducks pose a threat to their offspring.
The predation-avoidance behaviour of sleeping with one eye open, allowing one brain hemisphere to remain aware while the other half sleeps, was first demonstrated in mallards, although it is believed to be widespread among birds in general.
Status and conservation
Since 1998, the mallard has been rated as a species of least concern on the IUCN Red List of Endangered Species. This is because it has a large range–more than 20,000,000 km2 (7,700,000 mi2)–and because its population is increasing, rather than declining by 30% over ten years or three generations and thus is not warranted a vulnerable rating. Also, the population size of the mallard is very large.
Unlike many waterfowl, mallards have benefited from human alterations to the world – so much so that they are now considered an invasive species in some regions. They are a common sight in urban parks, lakes, ponds, and other human-made water features in the regions they inhabit, and are often tolerated or encouraged in human habitat due to their placid nature towards humans and their beautiful and iridescent colours. While most are not domesticated, mallards are so successful at coexisting in human regions that the main conservation risk they pose comes from the loss of genetic diversity among a region's traditional ducks once humans and mallards colonise an area. Mallards are very adaptable, being able to live and even thrive in urban areas which may have supported more localised, sensitive species of waterfowl before development. The release of feral mallards in areas where they are not native sometimes creates problems through interbreeding with indigenous waterfowl. These non-migratory mallards interbreed with indigenous wild ducks from local populations of closely related species through genetic pollution by producing fertile offspring. Complete hybridisation of various species of wild duck gene pools could result in the extinction of many indigenous waterfowl. The mallard itself is the ancestor of most domestic ducks, and its naturally evolved wild gene pool gets genetically polluted in turn by the domestic and feral populations.
Over time, a continuum of hybrids ranging between almost typical examples of either species develop; the speciation process is beginning to reverse itself. This has created conservation concerns for relatives of the mallard, such as the Hawaiian duck, the New Zealand grey duck (A. s. superciliosa) subspecies of the Pacific black duck, the American black duck, the mottled duck, Meller's duck, the yellow-billed duck, and the Mexican duck, in the latter case even leading to a dispute as to whether these birds should be considered a species (and thus entitled to more conservation research and funding) or included in the mallard species. Ecological changes and hunting have also led to a decline of local species; for example, the New Zealand grey duck population declined drastically due to overhunting in the mid-20th century. Hybrid offspring of Hawaiian ducks seem to be less well adapted to native habitat, and using them in re-introduction projects apparently reduces success. In summary, the problems of mallards "hybridising away" relatives is more a consequence of local ducks declining than of mallards spreading; allopatric speciation and isolating behaviour have produced today's diversity of mallard-like ducks despite the fact that, in most, if not all, of these populations, hybridisation must have occurred to some extent.
Invasiveness
Mallards are causing severe "genetic pollution" to South Africa's biodiversity by breeding with endemic ducks even though the Agreement on the Conservation of African-Eurasian Migratory Waterbirds – an agreement to protect the local waterfowl populations – applies to the mallard as well as other ducks. The hybrids of mallards and the yellow-billed duck are fertile, capable of producing hybrid offspring. If this continues, only hybrids occur and in the long term result in the extinction of various indigenous waterfowl. The mallard can crossbreed with 63 other species, posing a severe threat to indigenous waterfowl's genetic integrity. Mallards and their hybrids compete with indigenous birds for resources, including nest sites, roosting sites, and food.
Availability of mallards, mallard ducklings, and fertilised mallard eggs for public sale and private ownership, either as poultry or as pets, is currently legal in the United States, except for the state of Florida, which has currently banned domestic ownership of mallards. This is to prevent hybridisation with the native mottled duck.
The mallard is considered an invasive species in New Zealand, where it competes with the local New Zealand grey duck, which was overhunted in the past. There, and elsewhere, mallards are spreading with increasing urbanisation and hybridising with local relatives.
The eastern or Chinese spot-billed duck is currently introgressing into the mallard populations of the Primorsky Krai, possibly due to habitat changes from global warming. The Mariana mallard was a resident allopatric population – in most respects a good species – apparently initially derived from mallard-Pacific black duck hybrids; unfortunately, it became extinct in the late 20th century.
The Laysan duck is an insular relative of the mallard, with a very small and fluctuating population. Mallards sometimes arrive on its island home during migration, and can be expected to occasionally have remained and hybridised with Laysan ducks as long as these species have existed. However, these hybrids are less well adapted to the peculiar ecological conditions of Laysan Island than the local ducks, and thus have lower fitness. Laysan ducks were found throughout the Hawaiian archipelago before 400 CE, after which they suffered a rapid decline during the Polynesian colonisation. Now, their range includes only Laysan Island. It is one of the successfully translocated birds, after having become nearly extinct in the early 20th century.
Relationship with humans
Domestication
Mallards have often been ubiquitous in their regions among the ponds, rivers, and streams of human parks, farms, and other human-made waterways – even to the point of visiting water features in human courtyards.
Mallards have had a long relationship with humans. Almost all domestic duck breeds derive from the mallard, with the exception of a few Muscovy breeds, and are listed under the trinomial name A. p. domesticus. Mallards are generally monogamous while domestic ducks are mostly polygamous. Domestic ducks have no territorial behaviour and are less aggressive than mallards. Domestic ducks are mostly kept for meat; their eggs are also eaten, and have a strong flavour. They were first domesticated in Southeast Asia at least 4,000 years ago, during the Neolithic Age, and were also farmed by the Romans in Europe, and the Malays in Asia. As the domestic duck and the mallard are the same species as each other, It is common for mallards to mate with domestic ducks and produce hybrid offspring that are fully fertile. Because of this, mallards have been found to be contaminated with the genes of the domestic duck.
While the keeping of domestic breeds is more popular, pure-bred mallards are sometimes kept for eggs and meat, although they may require wing clipping to restrict flying, or training to navigate and fly home.
Hunting
Mallards are one of the most common varieties of ducks hunted as a sport due to the large population size. The ideal location for hunting mallards is considered to be where the water level is somewhat shallow where the birds can be found foraging for food. Hunting mallards might cause the population to decline in some places, at some times, and with some populations. In certain countries, the mallard may be legally shot but is protected under national acts and policies. For example, in the United Kingdom, the mallard is protected under the Wildlife and Countryside Act 1981, which restricts certain hunting methods or taking or killing mallards.
As food
Since ancient times, the mallard has been eaten as food. The wild mallard was eaten in Neolithic Greece. Usually, only the breast and thigh meat is eaten. It does not need to be hung before preparation, and is often braised or roasted, sometimes flavoured with bitter orange or with port.
[Credit: en.wikipedia.org/]
X100S & X-E2
Each one has its own 'personality', both are highly versatile and qualitative.
Thanks Fuji for the great X-series!
Shot with 6D & 50/1.4
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Point Cabrillo Light is a lighthouse in Northern California, United States, between Point Arena and Cape Mendocino, just south of the community of Caspar. It has been a federal aid to navigation since 1909. It is part of the California state park system as Point Cabrillo Light Station State Historic Park.
It should not be confused with the inactive Old Point Loma Lighthouse or the active New Point Loma Lighthouse in San Diego, both of which lie within the grounds of Cabrillo National Monument and are sometimes referred to as the Cabrillo lighthouse.
The Point Cabrillo Lighthouse complex is located about 1.5 miles (2.4 km) north of Mendocino, California, and includes the lighthouse itself together with several outbuildings. Most of the original structures remain, but the barn is missing: in 1986 it was destroyed in a fire department exercise. The remaining lighthouse station is "one of the most complete light stations in the United States".
Atop the lighthouse spins a third-order Fresnel lens with four panels containing 90 lead glass prisms and weighing 6800 pounds, constructed by Chance Brothers, an English company, and shipped to Point Cabrillo around Cape Horn. The light is only 32 feet (9.8 m) above the ground, but because of the height of the headlands it stands 81 feet (25 m) above sea level. It was originally lit by a kerosene lamp and turned by a clockwork mechanism but this was replaced by an electric light and motor in 1935. The present light uses a single 1000-watt electric filament. Depending on atmospheric conditions, the Fresnel lens creates a focused beam which can be seen to the horizon and beyond. The beam rotates once every 40 seconds, producing a flash every 10 seconds.
Point Cabrillo, the sandstone headland on which the Point Cabrillo Light lies, was named in 1870 by the United States Geological Survey after the Portuguese explorer João Rodrigues Cabrilho, although Cabrillo's voyage of exploration on behalf of Spain along the California coast did not reach as far north as the point. Because Spain controlled early California, the Spanish derivation of his name is the one used today. The opium-trading brig Frolic wrecked on a reef north of Point Cabrillo in 1850; the investigation of the wreck by agents of Henry Meiggs led to the discovery of the coast redwood forests of the Mendocino area and the beginning of the timber trade that would drive the local economy for decades.
In 1873, Point Cabrillo was surveyed as a potential site for a lighthouse; however, no lighthouse was built at that time. By 1904, several shipwrecks later, the U.S. Lighthouse Service recommended that a lighthouse be placed at the point. The bill to fund its construction, Senate Bill 6648, passed in June 1906, and the government bought 30 acres of land on Point Cabrillo from rancher David Gordon for $3,195. The lighthouse was constructed by the Lindgren Company beginning in 1908, and began operation in 1909. Its first light keeper was Wilhelm Baumgartner, who held the position until 1923. In 1935, an air diaphone supertyfone sound signal was installed.
The United States Coast Guard took over the Lighthouse Service in 1939. The lighthouse building took major damage in 1960 after a storm caused waves that crested above the light and flooded the building with mud, but the lens remained undamaged. Later during the Cold War, the station was used to simulate a Soviet radar base in training exercises. The Coast Guard manned the station until 1973, when the lens was covered and a modern rotating beacon was mounted on a metal stand on the roof west of the lantern room.
In 1988 the California Coastal Conservancy began buying the land surrounding the light station, and in 1991 the station was added to the National Register of Historic Places. However, the California State Park System declined to take over the land at that time because of state budget shortfalls; instead, the station was managed for nine years by a non-profit organization, the North Coast Interpretive Association. Beginning in 1996, the NCIA organized a major restoration of the station to the state it would have been in the 1930s, after it was electrified, including a return to active duty of the main lens of the light. In 1999, the original third-order Fresnel lens was reinstalled after being upgraded to meet more modern standards. Before it could be used the light had to be as reliable as a Directional Code Beacon, which is commonly used at airports. The restored lighthouse was opened to the public in August 2001, and used in filming the Warner Bros. 2001 drama film The Majestic. In 2002, California State Parks purchased the light station for four million dollars. The NCIA, which then became the Point Cabrillo Light Keeper Association, continued to run the station for the state park system. The station won the Governor's Historic Preservation Award in 2007,and the Preservation Design Award of the California Preservation Foundation in the same year.
A hiking trail, part of the California Coastal Trail, was established in 2011 and connects the light station to Caspar Headlands State Beach one mile to the north, passing Frolic Cove along the way.
en.wikipedia.org/wiki/Point_Cabrillo_Light
Photo of the Point Cabrillo Lighthouse captured via Minolta MD Zoom Rokkor-X 24-50mm F/4 lens and the bracketing method of photography. Point Cabrillo Light Station State Historic Park. In the census-designated place of Caspar. Coast Range. North Coast. Mendocino County, Northern California. Late July 2017.
Exposure Time: 1/250 sec. * ISO Speed: ISO-100 * Aperture: F/11 * Bracketing: +1 / -1 * Color Temperature: 6200 K
Desperately trying for bokeh in the local chemists'.
Entry for Scavenge Challenge December: #20. This month, we're reprising Sharon's wonderful lesson in BOLD, BEAUTIFUL BOKEH in honor of the season. Have fun!
Hispanic women have the lowest risk of breast cancer than any other groups of women.
Today, just today!, scientists have identified a gene variation in some Hispanic women that provides significant protection against breast cancer.
About 20% of Hispanic women have one copy of this genetic variant, decreasing their risk of breast cancer by 40%.
Women with two copies of the variant are 80% less likely to develop breast cancer, especially the more aggressive forms of the disease. These women also have breast tissue that appears less dense on mammograms, which reduces the risk of cancer.
Researchers say this may explain why Hispanics have the lowest risk of breast cancer than any other ethnic group.
This study was led by researchers at University of California San Francisco and published in 'Nature Communications.'
Now, we need to find out why and coordinate our efforts to find out how we can use this information to lessen the risk with all groups of women.
The Cinesphere was the first IMAX theatre. At one point they considered demolishing it, but a refurbished Cinesphere will be part of the Ontario Place makeover.