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The Komodo dragon (Varanus komodoensis), also known as the Komodo monitor, is a large species of lizard found in the Indonesian islands of Komodo, Rinca, Flores, Gili Motang, and Padar. A member of the monitor lizard family Varanidae, it is the largest living species of lizard, growing to a maximum length of 3 metres in rare cases and weighing up to approximately 70 kilograms.
Their unusually large size has been attributed to island gigantism, since no other carnivorous animals fill the niche on the islands where they live. However, recent research suggests the large size of Komodo dragons may be better understood as representative of a relict population of very large varanid lizards that once lived across Indonesia and Australia, most of which, along with other megafauna, died out after the Pleistocene. Fossils very similar to V. komodoensis have been found in Australia dating to greater than 3.8 million years ago, and its body size remained stable on Flores, one of the handful of Indonesian islands where it is currently found, over the last 900,000 years, "a time marked by major faunal turnovers, extinction of the island's megafauna, and the arrival of early hominids by 880 ka [kiloannums]."
As a result of their size, these lizards dominate the ecosystems in which they live. Komodo dragons hunt and ambush prey including invertebrates, birds, and mammals. It has been claimed that they have a venomous bite; there are two glands in the lower jaw which secrete several toxic proteins. The biological significance of these proteins is disputed, but the glands have been shown to secrete an anticoagulant. Komodo dragon group behaviour in hunting is exceptional in the reptile world. The diet of big Komodo dragons mainly consists of deer, though they also eat considerable amounts of carrion. Komodo dragons also occasionally attack humans in the area of West Manggarai Regency where they live in Indonesia.
Mating begins between May and August, and the eggs are laid in September. About 20 eggs are deposited in abandoned megapode nests or in a self-dug nesting hole. The eggs are incubated for seven to eight months, hatching in April, when insects are most plentiful. Young Komodo dragons are vulnerable and therefore dwell in trees, safe from predators and cannibalistic adults. They take 8 to 9 years to mature, and are estimated to live up to 30 years.
Komodo dragons were first recorded by Western scientists in 1910. Their large size and fearsome reputation make them popular zoo exhibits. In the wild, their range has contracted due to human activities, and they are listed as vulnerable by the IUCN. They are protected under Indonesian law, and a national park, Komodo National Park, was founded to aid protection efforts.
ETYMOLOGY
The Komodo dragon is also known as the Komodo monitor or the Komodo Island monitor in scientific literature, although this is not very common. To the natives of Komodo Island, it is referred to as ora, buaya darat (land crocodile), or biawak raksasa (giant monitor).
EVOLUTIONARY HISTORY
The evolutionary development of the Komodo dragon started with the Varanus genus, which originated in Asia about 40 million years ago and migrated to Australia. Around 15 million years ago, a collision between Australia and Southeast Asia allowed the varanids to move into what is now the Indonesian archipelago, extending their range as far east as the island of Timor. The Komodo dragon was believed to have differentiated from its Australian ancestors 4 million years ago. However, recent fossil evidence from Queensland suggests the Komodo dragon evolved in Australia before spreading to Indonesia. Dramatic lowering of sea level during the last glacial period uncovered extensive stretches of continental shelf that the Komodo dragon colonized, becoming isolated in their present island range as sea levels rose afterwards.
DESCRIPTION
In the wild, an adult Komodo dragon usually weighs around 70 kg, although captive specimens often weigh more. According to the Guinness Book of World Records, an average adult male will weigh 79 to 91 kg and measure 2.59 m, while an average female will weigh 68 to 73 kg and measure 2.29 m. The largest verified wild specimen was 3.13 m long and weighed 166 kg, including undigested food. The Komodo dragon has a tail as long as its body, as well as about 60 frequently replaced, serrated teeth that can measure up to 2.5 cm in length. Its saliva is frequently blood-tinged, because its teeth are almost completely covered by gingival tissue that is naturally lacerated during feeding. This creates an ideal culture for the bacteria that live in its mouth. It also has a long, yellow, deeply forked tongue. Komodo dragon skin is reinforced by armoured scales, which contain tiny bones called osteoderms that function as a sort of natural chain-mail. This rugged hide makes Komodo dragon skin poorly suited for making into leather.
SENSES
As with other Varanids, Komodo dragons have only a single ear bone, the stapes, for transferring vibrations from the tympanic membrane to the cochlea. This arrangement means they are likely restricted to sounds in the 400 to 2,000 hertz range, compared to humans who hear between 20 and 20,000 hertz. It was formerly thought to be deaf when a study reported no agitation in wild Komodo dragons in response to whispers, raised voices, or shouts. This was disputed when London Zoological Garden employee Joan Proctor trained a captive specimen to come out to feed at the sound of her voice, even when she could not be seen.
The Komodo dragon can see objects as far away as 300 m, but because its retinas only contain cones, it is thought to have poor night vision. The Komodo dragon is able to see in color, but has poor visual discrimination of stationary objects.
The Komodo dragon uses its tongue to detect, taste, and smell stimuli, as with many other reptiles, with the vomeronasal sense using the Jacobson's organ, rather than using the nostrils. With the help of a favorable wind and its habit of swinging its head from side to side as it walks, a Komodo dragon may be able to detect carrion from 4–9.5 km away. It only has a few taste buds in the back of its throat. Its scales, some of which are reinforced with bone, have sensory plaques connected to nerves to facilitate its sense of touch. The scales around the ears, lips, chin, and soles of the feet may have three or more sensory plaques.
BEHAVIOUR AND ECOLOGY
The Komodo dragon prefers hot and dry places, and typically lives in dry, open grassland, savanna, and tropical forest at low elevations. As an ectotherm, it is most active in the day, although it exhibits some nocturnal activity. Komodo dragons are solitary, coming together only to breed and eat. They are capable of running rapidly in brief sprints up to 20 km/h, diving up to 4.5 m, and climbing trees proficiently when young through use of their strong claws. To catch out-of-reach prey, the Komodo dragon may stand on its hind legs and use its tail as a support. As it matures, its claws are used primarily as weapons, as its great size makes climbing impractical.
For shelter, the Komodo dragon digs holes that can measure from 1–3 m wide with its powerful forelimbs and claws. Because of its large size and habit of sleeping in these burrows, it is able to conserve body heat throughout the night and minimize its basking period the morning after. The Komodo dragon hunts in the afternoon, but stays in the shade during the hottest part of the day. These special resting places, usually located on ridges with cool sea breezes, are marked with droppings and are cleared of vegetation. They serve as strategic locations from which to ambush deer.
DIET
Komodo dragons are carnivores. Although they eat mostly carrion, they will also ambush live prey with a stealthy approach. When suitable prey arrives near a dragon's ambush site, it will suddenly charge at the animal and go for the underside or the throat. It is able to locate its prey using its keen sense of smell, which can locate a dead or dying animal from a range of up to 9.5 km. Komodo dragons have been observed knocking down large pigs and deer with their strong tails.
Komodo dragons eat by tearing large chunks of flesh and swallowing them whole while holding the carcass down with their forelegs. For smaller prey up to the size of a goat, their loosely articulated jaws, flexible skulls, and expandable stomachs allow them to swallow prey whole. The vegetable contents of the stomach and intestines are typically avoided. Copious amounts of red saliva the Komodo dragons produce help to lubricate the food, but swallowing is still a long process (15–20 minutes to swallow a goat). A Komodo dragon may attempt to speed up the process by ramming the carcass against a tree to force it down its throat, sometimes ramming so forcefully, the tree is knocked down. To prevent itself from suffocating while swallowing, it breathes using a small tube under the tongue that connects to the lungs. After eating up to 80% of its body weight in one meal, it drags itself to a sunny location to speed digestion, as the food could rot and poison the dragon if left undigested for too long. Because of their slow metabolism, large dragons can survive on as little as 12 meals a year. After digestion, the Komodo dragon regurgitates a mass of horns, hair, and teeth known as the gastric pellet, which is covered in malodorous mucus. After regurgitating the gastric pellet, it rubs its face in the dirt or on bushes to get rid of the mucus, suggesting, like humans, it does not relish the scent of its own excretions.
The largest animals eat first, while the smaller ones follow a hierarchy. The largest male asserts his dominance and the smaller males show their submission by use of body language and rumbling hisses. Dragons of equal size may resort to "wrestling". Losers usually retreat, though they have been known to be killed and eaten by victors.
The Komodo dragon's diet is wide-ranging, and includes invertebrates, other reptiles (including smaller Komodo dragons), birds, bird eggs, small mammals, monkeys, wild boar, goats, deer, horses, and water buffalo. Young Komodos will eat insects, eggs, geckos, and small mammals. Occasionally, they consume humans and human corpses, digging up bodies from shallow graves. This habit of raiding graves caused the villagers of Komodo to move their graves from sandy to clay ground and pile rocks on top of them to deter the lizards. The Komodo dragon may have evolved to feed on the extinct dwarf elephant Stegodon that once lived on Flores, according to evolutionary biologist Jared Diamond.
The Komodo dragon drinks by sucking water into its mouth via buccal pumping (a process also used for respiration), lifting its head, and letting the water run down its throat.
SALIVA
Auffenberg described the Komodo dragon as having septic pathogens in its saliva (he described the saliva as "reddish and copious"), specifically the bacteria E. coli, Staphylococcus sp., Providencia sp., Proteus morgani, and P. mirabilis. He noted, while these pathogens can be found in the mouths of wild Komodo dragons, they disappear from the mouths of captive animals, due to cleaner diets and the use of antibiotics. This was verified by taking mucous samples from the external gum surfaces of the upper jaws of two freshly captured individuals. Saliva samples were analyzed by researchers at the University of Texas, who found 57 strains of bacteria growing in the mouths of three wild Komodo dragons, including Pasteurella multocida. The rapid growth of these bacteria was noted by Fredeking: "Normally it takes about three days for a sample of P. multocida to cover a Petri dish; ours took eight hours. We were very taken aback by how virulent these strains were". This study supported the observation that wounds inflicted by the Komodo dragon are often associated with sepsis and subsequent infections in prey animals. How the Komodo dragon is unaffected by these virulent bacteria remains a mystery.Research in 2013 suggested that the bacteria in the mouths of komodo dragons are ordinary and similar to those found in other carnivores. They actually have surprisingly good mouth hygiene. As Bryan Fry put it: "After they are done feeding, they will spend 10 to 15 minutes lip-licking and rubbing their head in the leaves to clean their mouth... Unlike people have been led to believe, they do not have chunks of rotting flesh from their meals on their teeth, cultivating bacteria." The observation of prey dying of sepsis would then be explained by the natural instinct of water buffalos, who are not native to the islands where the Komodo dragon lives, to run into water when attacked. The warm, feces filled water would then cause the infections. The study used samples from 16 captive dragons (10 adults and six neonates) from three U.S. zoos.
VENOM
In late 2005, researchers at the University of Melbourne speculated the perentie (Varanus giganteus), other species of monitors, and agamids may be somewhat venomous. The team believes the immediate effects of bites from these lizards were caused by mild envenomation. Bites on human digits by a lace monitor (V. varius), a Komodo dragon, and a spotted tree monitor (V. scalaris) all produced similar effects: rapid swelling, localized disruption of blood clotting, and shooting pain up to the elbow, with some symptoms lasting for several hours.
In 2009, the same researchers published further evidence demonstrating Komodo dragons possess a venomous bite. MRI scans of a preserved skull showed the presence of two glands in the lower jaw. The researchers extracted one of these glands from the head of a terminally ill specimen in the Singapore Zoological Gardens, and found it secreted several different toxic proteins. The known functions of these proteins include inhibition of blood clotting, lowering of blood pressure, muscle paralysis, and the induction of hypothermia, leading to shock and loss of consciousness in envenomated prey. As a result of the discovery, the previous theory that bacteria were responsible for the deaths of Komodo victims was disputed.
Kurt Schwenk, an evolutionary biologist at the University of Connecticut, finds the discovery of these glands intriguing, but considers most of the evidence for venom in the study to be "meaningless, irrelevant, incorrect or falsely misleading". Even if the lizards have venom-like proteins in their mouths, Schwenk argues, they may be using them for a different function, and he doubts venom is necessary to explain the effect of a Komodo dragon bite, arguing that shock and blood loss are the primary factors.
Other scientists such as Washington State University's Biologist Kenneth V. Kardong and Toxicologists Scott A. Weinstein and Tamara L. Smith, have stated that this allegation of venom glands "has had the effect of underestimating the variety of complex roles played by oral secretions in the biology of reptiles, produced a very narrow view of oral secretions and resulted in misinterpretation of reptilian evolution". According to these scientists "reptilian oral secretions contribute to many biological roles other than to quickly dispatch prey". These researchers concluded that, "Calling all in this clade venomous implies an overall potential danger that does not exist, misleads in the assessment of medical risks, and confuses the biological assessment of squamate biochemical systems".
REPRODUCTION
Mating occurs between May and August, with the eggs laid in September. During this period, males fight over females and territory by grappling with one another upon their hind legs, with the loser eventually being pinned to the ground. These males may vomit or defecate when preparing for the fight. The winner of the fight will then flick his long tongue at the female to gain information about her receptivity. Females are antagonistic and resist with their claws and teeth during the early phases of courtship. Therefore, the male must fully restrain the female during coitus to avoid being hurt. Other courtship displays include males rubbing their chins on the female, hard scratches to the back, and licking. Copulation occurs when the male inserts one of his hemipenes into the female's cloaca. Komodo dragons may be monogamous and form "pair bonds", a rare behavior for lizards. Female Komodos lay their eggs from August to September and may use several types of locality; in one study, 60% laid their eggs in the nests of orange-footed scrubfowl (a moundbuilder or megapode), 20% on ground level and 20% in hilly areas. The females make many camouflage nests/holes to prevent other dragons from eating the eggs. Clutches contain an average of 20 eggs, which have an incubation period of 7–8 months. Hatching is an exhausting effort for the neonates, which break out of their eggshells with an egg tooth that falls off soon after. After cutting themselves out, the hatchlings may lie in their eggshells for hours before starting to dig out of the nest. They are born quite defenseless and are vulnerable to predation. Sixteen youngsters from a single nest were on average 46.5 cm long and weighed 105.1 grams. Young Komodo dragons spend much of their first few years in trees, where they are relatively safe from predators, including cannibalistic adults, as juvenile dragons make up 10% of their diets. The habit of cannibalism may be advantageous in sustaining the large size of adults, as medium-sized prey on the islands is rare. When the young approach a kill, they roll around in fecal matter and rest in the intestines of eviscerated animals to deter these hungry adults. Komodo dragons take approximately three to five years to mature, and may live for up to 50 years.
PARTHENOGENESIS
A Komodo dragon at London Zoo named Sungai laid a clutch of eggs in late 2005 after being separated from male company for more than two years. Scientists initially assumed she had been able to store sperm from her earlier encounter with a male, an adaptation known as superfecundation. On 20 December 2006, it was reported that Flora, a captive Komodo dragon living in the Chester Zoo in England, was the second known Komodo dragon to have laid unfertilized eggs: she laid 11 eggs, and seven of them hatched, all of them male. Scientists at Liverpool University in England performed genetic tests on three eggs that collapsed after being moved to an incubator, and verified Flora had never been in physical contact with a male dragon. After Flora's eggs' condition had been discovered, testing showed Sungai's eggs were also produced without outside fertilization. On 31 January 2008, the Sedgwick County Zoo in Wichita, Kansas, became the first zoo in the Americas to document parthenogenesis in Komodo dragons. The zoo has two adult female Komodo dragons, one of which laid about 17 eggs on 19–20 May 2007. Only two eggs were incubated and hatched due to space issues; the first hatched on 31 January 2008, while the second hatched on 1 February. Both hatchlings were males.
Komodo dragons have the ZW chromosomal sex-determination system, as opposed to the mammalian XY system. Male progeny prove Flora's unfertilized eggs were haploid (n) and doubled their chromosomes later to become diploid (2n) (by being fertilized by a polar body, or by chromosome duplication without cell division), rather than by her laying diploid eggs by one of the meiosis reduction-divisions in her ovaries failing. When a female Komodo dragon (with ZW sex chromosomes) reproduces in this manner, she provides her progeny with only one chromosome from each of her pairs of chromosomes, including only one of her two sex chromosomes. This single set of chromosomes is duplicated in the egg, which develops parthenogenetically. Eggs receiving a Z chromosome become ZZ (male); those receiving a W chromosome become WW and fail to develop, meaning that only males are produced by parthenogenesis in this species.
It has been hypothesized that this reproductive adaptation allows a single female to enter an isolated ecological niche (such as an island) and by parthenogenesis produce male offspring, thereby establishing a sexually reproducing population (via reproduction with her offspring that can result in both male and female young). Despite the advantages of such an adaptation, zoos are cautioned that parthenogenesis may be detrimental to genetic diversity.
HISTORY
DISCOVERY BY THE WESTERN WORLD
Komodo dragons were first documented by Europeans in 1910, when rumors of a "land crocodile" reached Lieutenant van Steyn van Hensbroek of the Dutch colonial administration. Widespread notoriety came after 1912, when Peter Ouwens, the director of the Zoological Museum at Bogor, Java, published a paper on the topic after receiving a photo and a skin from the lieutenant, as well as two other specimens from a collector. The first two live Komodo dragons to arrive in Europe were exhibited in the Reptile House at London Zoo when it opened in 1927. Joan Beauchamp Procter made some of the earliest observations of these animals in captivity and she demonstrated the behaviour of one of these animals at a Scientific Meeting of the Zoological Society of London in 1928. The Komodo dragon was the driving factor for an expedition to Komodo Island by W. Douglas Burden in 1926. After returning with 12 preserved specimens and 2 live ones, this expedition provided the inspiration for the 1933 movie King Kong. It was also Burden who coined the common name "Komodo dragon." Three of his specimens were stuffed and are still on display in the American Museum of Natural History.
STUDIES
The Dutch, realizing the limited number of individuals in the wild, outlawed sport hunting and heavily limited the number of individuals taken for scientific study. Collecting expeditions ground to a halt with the occurrence of World War II, not resuming until the 1950s and 1960s, when studies examined the Komodo dragon's feeding behavior, reproduction, and body temperature. At around this time, an expedition was planned in which a long-term study of the Komodo dragon would be undertaken. This task was given to the Auffenberg family, who stayed on Komodo Island for 11 months in 1969. During their stay, Walter Auffenberg and his assistant Putra Sastrawan captured and tagged more than 50 Komodo dragons. The research from the Auffenberg expedition would prove to be enormously influential in raising Komodo dragons in captivity. Research after that of the Auffenberg family has shed more light on the nature of the Komodo dragon, with biologists such as Claudio Ciofi continuing to study the creatures.
CONSERVATION
The Komodo dragon is a vulnerable species and is on the IUCN Red List. There are approximately 4,000 to 5,000 living Komodo dragons in the wild. Their populations are restricted to the islands of Gili Motang (100), Gili Dasami (100), Rinca (1,300), Komodo (1,700), and Flores (perhaps 2,000). However, there are concerns that there may presently be only 350 breeding females. To address these concerns, the Komodo National Park was founded in 1980 to protect Komodo dragon populations on islands including Komodo, Rinca, and Padar. Later, the Wae Wuul and Wolo Tado Reserves were opened on Flores to aid with Komodo dragon conservation.
Komodo dragons avoid encounters with humans. Juveniles are very shy and will flee quickly into a hideout if a human comes closer than about 100 metres. Older animals will also retreat from humans from a shorter distance away. If cornered, they will react aggressively by gaping their mouth, hissing, and swinging their tail. If they are disturbed further, they may start an attack and bite. Although there are anecdotes of unprovoked Komodo dragons attacking or preying on humans, most of these reports are either not reputable or caused by defensive bites. Only a very few cases are truly the result of unprovoked attacks by abnormal individuals, which lost their fear towards humans.
Volcanic activity, earthquakes, loss of habitat, fire, loss of prey due to poaching, tourism, and illegal poaching of the dragons themselves have all contributed to the vulnerable status of the Komodo dragon. Under Appendix I of CITES (the Convention on International Trade in Endangered Species), commercial trade of skins or specimens is illegal.
On Padar, a former population of the Komodo dragon became extinct, of which the last individuals were seen in 1975. It is widely assumed that the Komodo dragon died out on Padar after a strong decline of the populations of large ungulate prey, for which poaching was most likely responsible.
IN CAPTIVITY
Komodo dragons have long been great zoo attractions, where their size and reputation make them popular exhibits. They are, however, rare in zoos because they are susceptible to infection and parasitic disease if captured from the wild, and do not readily reproduce. As of May 2009, there were 13 European, 2 African, 35 North American, 1 Singaporean, and 2 Australian institutions that kept Komodo dragons.
The first Komodo dragons were displayed at London Zoo in 1927. A Komodo dragon was exhibited in 1934 at the National Zoo in Washington, D.C., but it lived for only two years. More attempts to exhibit Komodo dragons were made, but the lifespan of these animals was very short, averaging five years in the National Zoological Park. Studies done by Walter Auffenberg, which were documented in his book The Behavioral Ecology of the Komodo Monitor, eventually allowed for more successful managing and reproducing of the dragons in captivity.
A variety of behaviors have been observed from captive specimens. Most individuals are relatively tame within a short time, and are capable of recognizing individual humans and discriminating between familiar keepers. Komodo dragons have also been observed to engage in play with a variety of objects, including shovels, cans, plastic rings, and shoes. This behavior does not seem to be "food-motivated predatory behavior".
Even seemingly docile dragons may become unpredictably aggressive, especially when the animal's territory is invaded by someone unfamiliar. In June 2001, a Komodo dragon seriously injured Phil Bronstein, the then husband of actress Sharon Stone, when he entered its enclosure at the Los Angeles Zoo after being invited in by its keeper. Bronstein was bitten on his bare foot, as the keeper had told him to take off his white shoes and socks, which the keeper stated could potentially excite the Komodo dragon as they were the same color as the white rats the zoo fed the dragon. Although he escaped, Bronstein needed to have several tendons in his foot reattached surgically.
IN POPULARE CULTURE
Komodo dragons are used as a main theme in Komodo (1999), Curse of the Komodo (2004) and Komodo vs. Cobra (2005).
The comedy team of Bob and Ray performed a popular sketch entitled "The Komodo Dragon Expert."
The plot of the 1990 film, The Freshman, involves a university freshman, an aging mobster and a Komodo dragon.
In the 2012 James Bond film Skyfall, one of the Chinese henchmen in a casino that Bond visits in Macau is overtaken, dragged off and presumably killed by a Komodo dragon.
WIKIPEDIA
Joseph Bell, the Chief Engineer on the RMS Titanic was born in Farlam, near Brampton, Cumbria.
This is the service of commemoration that took place on Sunday 15th April 2012 marking 100 years since the loss
First years and training
Firstborn Son of John Bell, Sr. and Margaret Watson, both agricultural entrepreneurs, Joseph Bell grew up in Farlam, a small village belonging to the Rural District of Brampton, in the county of Cumberland; he had three siblings: Jane (1864), Richard (1865) and John jr. (1868).[1] His mother Margaret died shortly after giving birth to her last child.
Joseph Bell, initially, attended as a child a private elementary school in the village of Farlam and, after the death of his mother, he moved with his father and his brothers to Carlisle, between the districts of Edentown and Stanwix; Joseph and the brothers attended Carlisle's Academy William Harrison. In time, the younger brother John decided to migrate to Australia, embarking on the transatlantic SS Great Britain, while the rest of the family remained in Carlisle.
After leaving Carlisle, Joseph Bell moved to Newcastle, doing apprenticeship as an engine editor at Robert Stephenson and Company.[1] In 1885, Bell was hired by the White Star Line and worked on many ships that traded with New Zealand and the United States. In 1891 he was promoted to chief mechanical engineer.
Sister Jane married William Hugh Lowthian in 1886 and spent many years living in Ripley, Derbyshire, where he was a bank manager. It was probably at this time that Joseph met Maud Bates, whom he married in 1893; the couple had 4 children: Frances John, called Frank (1896), Marjorie Clare (1899), Eileen Maud (1901), and Ralph Douglas (1908).
In 1911, Joseph found lodging in Belfast, along with his wife and younger son. The two daughters remained at Ripley, cared for by both a housekeeper and her uncles (Bell's sister and brother-in-law), while the then fifteen-year-old Frank was studying at the Grosvenor College in Carlisle and later an apprenticeship at the Harland and Wolff shipyards.
On the Titanic
After serving on the Olympic, he transferred to the Titanic, where he was given the post of chief engineer. On the night of April 14, shortly before the Titanic hit an iceberg, Bell received an order from the bridge to either stop or reverse the engines (accounts vary), in an attempt to slow the ship. Despite the crew's best efforts, the Titanic could not avoid the immense block of ice. As the ship began to sink, Bell and the engineers remained in the engine room, urging the stokers and firemen to keep the boilers active, allowing the pumps to continue their work and ensuring the electricity remained on as long as possible. According to legend, Bell and his men worked to keep the lights and the power on in order for distress signals to get out and they all died in the bowels of the Titanic. However, according to the historical record, when it became obvious that nothing more could be done, and the flooding was too severe for the pumps to cope, they all came up onto Titanic's open well deck, but by this time all the lifeboats had already left. Greaser Frederick Scott testified to seeing all the engineers gathered at the aft end of the starboard Boat Deck at the end.[2][3] Bell's body was never recovered.
After Bell's death, the wife and the brother-in-law, William Ralph, inherited the farm of Farlam, of which Joseph had become its full owner since 1904, after his father's death; the farm was immediately sold because both Bell's wife and children never went to Farlam.
At the Church of the Holy Faith in Waterloo, near Liverpool, a plate has been affixed to commemorate Bell; an epitaph was also erected in his memory in the small cemetery of Farlam.
More from this set here: www.flickr.com/photos/davidambridge/sets/72157629467082388/
(Photo VM-1) Photo taken by friend of Mrs Assunta Macolino, aged 27 years with her son Umberto Macolino, aged 18 months, in the Macolino family fruit shop, Surry Hills, early 1950s. Assunta Macolino was born in San Lupo, P. Benevento, Italy and migrated to Australia in 1950. Daughter Janice Macolino remembers: “Umberto was handed around to local customers, would cry and want [his] mother’s attention, but mum and dad [were] always busy at work.”
(Photo NL-1) Photo taken June 1938 of family and staff at Biagio Barone’s fruit shop in Bondi Junction. From left: Annetta Barone, aged 24 years, Biagio Barone, aged 33 years, daughter Nancy, aged 6 months, Biagio Pelligra, aged 35 years, first cousin to Biagio Barone, born Sicily and migrated to Australia from Sicily, 1926, and staff member Gino Casella, aged 15 years, born Sicily. Gino Casella was a friend’s son and when he left, the business was run solely by the Barone family. The photograph documents the window displays of the fruit and vegetables at the front of the shop, and the name of the proprietor B. Barone is also visible in the top right hand corner.
This trough is located at the Rainbow railway lines.
George Bills was an Englishman who migrated to Australia, via New Zealand. In Brisbane he met and married Annis Swann from Sheffield, England. The couple had no children but shared a great interest in animal welfare. They ended up in Sydney making a fortune manufacturing mattresses. One thing they thought was important was to see that when a horse came into town there was somewhere for the horse to drink: some also had a dog bowl at the end.
After George's death in 1927 a trust fund of approximately £80,000 was set to manufacture and provide horse troughs wherever they were needed in Australia and the United Kingdom – hence the "Annis and George Bills" trough. Most troughs read "Donated by Annis & George Bills Australia".
The troughs were £13 each plus transport and installation. The majority were installed in Victoria and New South Wales. One exists at St Arnaud, Victoria, another at Newtown, Victoria. One is also at Tunbridge Wells UK.
Reference: ABC Real Stories website and Wikipedia.
The Komodo dragon (Varanus komodoensis), also known as the Komodo monitor, is a large species of lizard found in the Indonesian islands of Komodo, Rinca, Flores, Gili Motang, and Padar. A member of the monitor lizard family Varanidae, it is the largest living species of lizard, growing to a maximum length of 3 metres in rare cases and weighing up to approximately 70 kilograms.
Their unusually large size has been attributed to island gigantism, since no other carnivorous animals fill the niche on the islands where they live. However, recent research suggests the large size of Komodo dragons may be better understood as representative of a relict population of very large varanid lizards that once lived across Indonesia and Australia, most of which, along with other megafauna, died out after the Pleistocene. Fossils very similar to V. komodoensis have been found in Australia dating to greater than 3.8 million years ago, and its body size remained stable on Flores, one of the handful of Indonesian islands where it is currently found, over the last 900,000 years, "a time marked by major faunal turnovers, extinction of the island's megafauna, and the arrival of early hominids by 880 ka [kiloannums]."
As a result of their size, these lizards dominate the ecosystems in which they live. Komodo dragons hunt and ambush prey including invertebrates, birds, and mammals. It has been claimed that they have a venomous bite; there are two glands in the lower jaw which secrete several toxic proteins. The biological significance of these proteins is disputed, but the glands have been shown to secrete an anticoagulant. Komodo dragon group behaviour in hunting is exceptional in the reptile world. The diet of big Komodo dragons mainly consists of deer, though they also eat considerable amounts of carrion. Komodo dragons also occasionally attack humans in the area of West Manggarai Regency where they live in Indonesia.
Mating begins between May and August, and the eggs are laid in September. About 20 eggs are deposited in abandoned megapode nests or in a self-dug nesting hole. The eggs are incubated for seven to eight months, hatching in April, when insects are most plentiful. Young Komodo dragons are vulnerable and therefore dwell in trees, safe from predators and cannibalistic adults. They take 8 to 9 years to mature, and are estimated to live up to 30 years.
Komodo dragons were first recorded by Western scientists in 1910. Their large size and fearsome reputation make them popular zoo exhibits. In the wild, their range has contracted due to human activities, and they are listed as vulnerable by the IUCN. They are protected under Indonesian law, and a national park, Komodo National Park, was founded to aid protection efforts.
ETYMOLOGY
The Komodo dragon is also known as the Komodo monitor or the Komodo Island monitor in scientific literature, although this is not very common. To the natives of Komodo Island, it is referred to as ora, buaya darat (land crocodile), or biawak raksasa (giant monitor).
EVOLUTIONARY HISTORY
The evolutionary development of the Komodo dragon started with the Varanus genus, which originated in Asia about 40 million years ago and migrated to Australia. Around 15 million years ago, a collision between Australia and Southeast Asia allowed the varanids to move into what is now the Indonesian archipelago, extending their range as far east as the island of Timor. The Komodo dragon was believed to have differentiated from its Australian ancestors 4 million years ago. However, recent fossil evidence from Queensland suggests the Komodo dragon evolved in Australia before spreading to Indonesia. Dramatic lowering of sea level during the last glacial period uncovered extensive stretches of continental shelf that the Komodo dragon colonized, becoming isolated in their present island range as sea levels rose afterwards.
DESCRIPTION
In the wild, an adult Komodo dragon usually weighs around 70 kg, although captive specimens often weigh more. According to the Guinness Book of World Records, an average adult male will weigh 79 to 91 kg and measure 2.59 m, while an average female will weigh 68 to 73 kg and measure 2.29 m. The largest verified wild specimen was 3.13 m long and weighed 166 kg, including undigested food. The Komodo dragon has a tail as long as its body, as well as about 60 frequently replaced, serrated teeth that can measure up to 2.5 cm in length. Its saliva is frequently blood-tinged, because its teeth are almost completely covered by gingival tissue that is naturally lacerated during feeding. This creates an ideal culture for the bacteria that live in its mouth. It also has a long, yellow, deeply forked tongue. Komodo dragon skin is reinforced by armoured scales, which contain tiny bones called osteoderms that function as a sort of natural chain-mail. This rugged hide makes Komodo dragon skin poorly suited for making into leather.
SENSES
As with other Varanids, Komodo dragons have only a single ear bone, the stapes, for transferring vibrations from the tympanic membrane to the cochlea. This arrangement means they are likely restricted to sounds in the 400 to 2,000 hertz range, compared to humans who hear between 20 and 20,000 hertz. It was formerly thought to be deaf when a study reported no agitation in wild Komodo dragons in response to whispers, raised voices, or shouts. This was disputed when London Zoological Garden employee Joan Proctor trained a captive specimen to come out to feed at the sound of her voice, even when she could not be seen.
The Komodo dragon can see objects as far away as 300 m, but because its retinas only contain cones, it is thought to have poor night vision. The Komodo dragon is able to see in color, but has poor visual discrimination of stationary objects.
The Komodo dragon uses its tongue to detect, taste, and smell stimuli, as with many other reptiles, with the vomeronasal sense using the Jacobson's organ, rather than using the nostrils. With the help of a favorable wind and its habit of swinging its head from side to side as it walks, a Komodo dragon may be able to detect carrion from 4–9.5 km away. It only has a few taste buds in the back of its throat. Its scales, some of which are reinforced with bone, have sensory plaques connected to nerves to facilitate its sense of touch. The scales around the ears, lips, chin, and soles of the feet may have three or more sensory plaques.
BEHAVIOUR AND ECOLOGY
The Komodo dragon prefers hot and dry places, and typically lives in dry, open grassland, savanna, and tropical forest at low elevations. As an ectotherm, it is most active in the day, although it exhibits some nocturnal activity. Komodo dragons are solitary, coming together only to breed and eat. They are capable of running rapidly in brief sprints up to 20 km/h, diving up to 4.5 m, and climbing trees proficiently when young through use of their strong claws. To catch out-of-reach prey, the Komodo dragon may stand on its hind legs and use its tail as a support. As it matures, its claws are used primarily as weapons, as its great size makes climbing impractical.
For shelter, the Komodo dragon digs holes that can measure from 1–3 m wide with its powerful forelimbs and claws. Because of its large size and habit of sleeping in these burrows, it is able to conserve body heat throughout the night and minimize its basking period the morning after. The Komodo dragon hunts in the afternoon, but stays in the shade during the hottest part of the day. These special resting places, usually located on ridges with cool sea breezes, are marked with droppings and are cleared of vegetation. They serve as strategic locations from which to ambush deer.
DIET
Komodo dragons are carnivores. Although they eat mostly carrion, they will also ambush live prey with a stealthy approach. When suitable prey arrives near a dragon's ambush site, it will suddenly charge at the animal and go for the underside or the throat. It is able to locate its prey using its keen sense of smell, which can locate a dead or dying animal from a range of up to 9.5 km. Komodo dragons have been observed knocking down large pigs and deer with their strong tails.
Komodo dragons eat by tearing large chunks of flesh and swallowing them whole while holding the carcass down with their forelegs. For smaller prey up to the size of a goat, their loosely articulated jaws, flexible skulls, and expandable stomachs allow them to swallow prey whole. The vegetable contents of the stomach and intestines are typically avoided. Copious amounts of red saliva the Komodo dragons produce help to lubricate the food, but swallowing is still a long process (15–20 minutes to swallow a goat). A Komodo dragon may attempt to speed up the process by ramming the carcass against a tree to force it down its throat, sometimes ramming so forcefully, the tree is knocked down. To prevent itself from suffocating while swallowing, it breathes using a small tube under the tongue that connects to the lungs. After eating up to 80% of its body weight in one meal, it drags itself to a sunny location to speed digestion, as the food could rot and poison the dragon if left undigested for too long. Because of their slow metabolism, large dragons can survive on as little as 12 meals a year. After digestion, the Komodo dragon regurgitates a mass of horns, hair, and teeth known as the gastric pellet, which is covered in malodorous mucus. After regurgitating the gastric pellet, it rubs its face in the dirt or on bushes to get rid of the mucus, suggesting, like humans, it does not relish the scent of its own excretions.
The largest animals eat first, while the smaller ones follow a hierarchy. The largest male asserts his dominance and the smaller males show their submission by use of body language and rumbling hisses. Dragons of equal size may resort to "wrestling". Losers usually retreat, though they have been known to be killed and eaten by victors.
The Komodo dragon's diet is wide-ranging, and includes invertebrates, other reptiles (including smaller Komodo dragons), birds, bird eggs, small mammals, monkeys, wild boar, goats, deer, horses, and water buffalo. Young Komodos will eat insects, eggs, geckos, and small mammals. Occasionally, they consume humans and human corpses, digging up bodies from shallow graves. This habit of raiding graves caused the villagers of Komodo to move their graves from sandy to clay ground and pile rocks on top of them to deter the lizards. The Komodo dragon may have evolved to feed on the extinct dwarf elephant Stegodon that once lived on Flores, according to evolutionary biologist Jared Diamond.
The Komodo dragon drinks by sucking water into its mouth via buccal pumping (a process also used for respiration), lifting its head, and letting the water run down its throat.
SALIVA
Auffenberg described the Komodo dragon as having septic pathogens in its saliva (he described the saliva as "reddish and copious"), specifically the bacteria E. coli, Staphylococcus sp., Providencia sp., Proteus morgani, and P. mirabilis. He noted, while these pathogens can be found in the mouths of wild Komodo dragons, they disappear from the mouths of captive animals, due to cleaner diets and the use of antibiotics. This was verified by taking mucous samples from the external gum surfaces of the upper jaws of two freshly captured individuals. Saliva samples were analyzed by researchers at the University of Texas, who found 57 strains of bacteria growing in the mouths of three wild Komodo dragons, including Pasteurella multocida. The rapid growth of these bacteria was noted by Fredeking: "Normally it takes about three days for a sample of P. multocida to cover a Petri dish; ours took eight hours. We were very taken aback by how virulent these strains were". This study supported the observation that wounds inflicted by the Komodo dragon are often associated with sepsis and subsequent infections in prey animals. How the Komodo dragon is unaffected by these virulent bacteria remains a mystery.Research in 2013 suggested that the bacteria in the mouths of komodo dragons are ordinary and similar to those found in other carnivores. They actually have surprisingly good mouth hygiene. As Bryan Fry put it: "After they are done feeding, they will spend 10 to 15 minutes lip-licking and rubbing their head in the leaves to clean their mouth... Unlike people have been led to believe, they do not have chunks of rotting flesh from their meals on their teeth, cultivating bacteria." The observation of prey dying of sepsis would then be explained by the natural instinct of water buffalos, who are not native to the islands where the Komodo dragon lives, to run into water when attacked. The warm, feces filled water would then cause the infections. The study used samples from 16 captive dragons (10 adults and six neonates) from three U.S. zoos.
VENOM
In late 2005, researchers at the University of Melbourne speculated the perentie (Varanus giganteus), other species of monitors, and agamids may be somewhat venomous. The team believes the immediate effects of bites from these lizards were caused by mild envenomation. Bites on human digits by a lace monitor (V. varius), a Komodo dragon, and a spotted tree monitor (V. scalaris) all produced similar effects: rapid swelling, localized disruption of blood clotting, and shooting pain up to the elbow, with some symptoms lasting for several hours.
In 2009, the same researchers published further evidence demonstrating Komodo dragons possess a venomous bite. MRI scans of a preserved skull showed the presence of two glands in the lower jaw. The researchers extracted one of these glands from the head of a terminally ill specimen in the Singapore Zoological Gardens, and found it secreted several different toxic proteins. The known functions of these proteins include inhibition of blood clotting, lowering of blood pressure, muscle paralysis, and the induction of hypothermia, leading to shock and loss of consciousness in envenomated prey. As a result of the discovery, the previous theory that bacteria were responsible for the deaths of Komodo victims was disputed.
Kurt Schwenk, an evolutionary biologist at the University of Connecticut, finds the discovery of these glands intriguing, but considers most of the evidence for venom in the study to be "meaningless, irrelevant, incorrect or falsely misleading". Even if the lizards have venom-like proteins in their mouths, Schwenk argues, they may be using them for a different function, and he doubts venom is necessary to explain the effect of a Komodo dragon bite, arguing that shock and blood loss are the primary factors.
Other scientists such as Washington State University's Biologist Kenneth V. Kardong and Toxicologists Scott A. Weinstein and Tamara L. Smith, have stated that this allegation of venom glands "has had the effect of underestimating the variety of complex roles played by oral secretions in the biology of reptiles, produced a very narrow view of oral secretions and resulted in misinterpretation of reptilian evolution". According to these scientists "reptilian oral secretions contribute to many biological roles other than to quickly dispatch prey". These researchers concluded that, "Calling all in this clade venomous implies an overall potential danger that does not exist, misleads in the assessment of medical risks, and confuses the biological assessment of squamate biochemical systems".
REPRODUCTION
Mating occurs between May and August, with the eggs laid in September. During this period, males fight over females and territory by grappling with one another upon their hind legs, with the loser eventually being pinned to the ground. These males may vomit or defecate when preparing for the fight. The winner of the fight will then flick his long tongue at the female to gain information about her receptivity. Females are antagonistic and resist with their claws and teeth during the early phases of courtship. Therefore, the male must fully restrain the female during coitus to avoid being hurt. Other courtship displays include males rubbing their chins on the female, hard scratches to the back, and licking. Copulation occurs when the male inserts one of his hemipenes into the female's cloaca. Komodo dragons may be monogamous and form "pair bonds", a rare behavior for lizards. Female Komodos lay their eggs from August to September and may use several types of locality; in one study, 60% laid their eggs in the nests of orange-footed scrubfowl (a moundbuilder or megapode), 20% on ground level and 20% in hilly areas. The females make many camouflage nests/holes to prevent other dragons from eating the eggs. Clutches contain an average of 20 eggs, which have an incubation period of 7–8 months. Hatching is an exhausting effort for the neonates, which break out of their eggshells with an egg tooth that falls off soon after. After cutting themselves out, the hatchlings may lie in their eggshells for hours before starting to dig out of the nest. They are born quite defenseless and are vulnerable to predation. Sixteen youngsters from a single nest were on average 46.5 cm long and weighed 105.1 grams. Young Komodo dragons spend much of their first few years in trees, where they are relatively safe from predators, including cannibalistic adults, as juvenile dragons make up 10% of their diets. The habit of cannibalism may be advantageous in sustaining the large size of adults, as medium-sized prey on the islands is rare. When the young approach a kill, they roll around in fecal matter and rest in the intestines of eviscerated animals to deter these hungry adults. Komodo dragons take approximately three to five years to mature, and may live for up to 50 years.
PARTHENOGENESIS
A Komodo dragon at London Zoo named Sungai laid a clutch of eggs in late 2005 after being separated from male company for more than two years. Scientists initially assumed she had been able to store sperm from her earlier encounter with a male, an adaptation known as superfecundation. On 20 December 2006, it was reported that Flora, a captive Komodo dragon living in the Chester Zoo in England, was the second known Komodo dragon to have laid unfertilized eggs: she laid 11 eggs, and seven of them hatched, all of them male. Scientists at Liverpool University in England performed genetic tests on three eggs that collapsed after being moved to an incubator, and verified Flora had never been in physical contact with a male dragon. After Flora's eggs' condition had been discovered, testing showed Sungai's eggs were also produced without outside fertilization. On 31 January 2008, the Sedgwick County Zoo in Wichita, Kansas, became the first zoo in the Americas to document parthenogenesis in Komodo dragons. The zoo has two adult female Komodo dragons, one of which laid about 17 eggs on 19–20 May 2007. Only two eggs were incubated and hatched due to space issues; the first hatched on 31 January 2008, while the second hatched on 1 February. Both hatchlings were males.
Komodo dragons have the ZW chromosomal sex-determination system, as opposed to the mammalian XY system. Male progeny prove Flora's unfertilized eggs were haploid (n) and doubled their chromosomes later to become diploid (2n) (by being fertilized by a polar body, or by chromosome duplication without cell division), rather than by her laying diploid eggs by one of the meiosis reduction-divisions in her ovaries failing. When a female Komodo dragon (with ZW sex chromosomes) reproduces in this manner, she provides her progeny with only one chromosome from each of her pairs of chromosomes, including only one of her two sex chromosomes. This single set of chromosomes is duplicated in the egg, which develops parthenogenetically. Eggs receiving a Z chromosome become ZZ (male); those receiving a W chromosome become WW and fail to develop, meaning that only males are produced by parthenogenesis in this species.
It has been hypothesized that this reproductive adaptation allows a single female to enter an isolated ecological niche (such as an island) and by parthenogenesis produce male offspring, thereby establishing a sexually reproducing population (via reproduction with her offspring that can result in both male and female young). Despite the advantages of such an adaptation, zoos are cautioned that parthenogenesis may be detrimental to genetic diversity.
HISTORY
DISCOVERY BY THE WESTERN WORLD
Komodo dragons were first documented by Europeans in 1910, when rumors of a "land crocodile" reached Lieutenant van Steyn van Hensbroek of the Dutch colonial administration. Widespread notoriety came after 1912, when Peter Ouwens, the director of the Zoological Museum at Bogor, Java, published a paper on the topic after receiving a photo and a skin from the lieutenant, as well as two other specimens from a collector. The first two live Komodo dragons to arrive in Europe were exhibited in the Reptile House at London Zoo when it opened in 1927. Joan Beauchamp Procter made some of the earliest observations of these animals in captivity and she demonstrated the behaviour of one of these animals at a Scientific Meeting of the Zoological Society of London in 1928. The Komodo dragon was the driving factor for an expedition to Komodo Island by W. Douglas Burden in 1926. After returning with 12 preserved specimens and 2 live ones, this expedition provided the inspiration for the 1933 movie King Kong. It was also Burden who coined the common name "Komodo dragon." Three of his specimens were stuffed and are still on display in the American Museum of Natural History.
STUDIES
The Dutch, realizing the limited number of individuals in the wild, outlawed sport hunting and heavily limited the number of individuals taken for scientific study. Collecting expeditions ground to a halt with the occurrence of World War II, not resuming until the 1950s and 1960s, when studies examined the Komodo dragon's feeding behavior, reproduction, and body temperature. At around this time, an expedition was planned in which a long-term study of the Komodo dragon would be undertaken. This task was given to the Auffenberg family, who stayed on Komodo Island for 11 months in 1969. During their stay, Walter Auffenberg and his assistant Putra Sastrawan captured and tagged more than 50 Komodo dragons. The research from the Auffenberg expedition would prove to be enormously influential in raising Komodo dragons in captivity. Research after that of the Auffenberg family has shed more light on the nature of the Komodo dragon, with biologists such as Claudio Ciofi continuing to study the creatures.
CONSERVATION
The Komodo dragon is a vulnerable species and is on the IUCN Red List. There are approximately 4,000 to 5,000 living Komodo dragons in the wild. Their populations are restricted to the islands of Gili Motang (100), Gili Dasami (100), Rinca (1,300), Komodo (1,700), and Flores (perhaps 2,000). However, there are concerns that there may presently be only 350 breeding females. To address these concerns, the Komodo National Park was founded in 1980 to protect Komodo dragon populations on islands including Komodo, Rinca, and Padar. Later, the Wae Wuul and Wolo Tado Reserves were opened on Flores to aid with Komodo dragon conservation.
Komodo dragons avoid encounters with humans. Juveniles are very shy and will flee quickly into a hideout if a human comes closer than about 100 metres. Older animals will also retreat from humans from a shorter distance away. If cornered, they will react aggressively by gaping their mouth, hissing, and swinging their tail. If they are disturbed further, they may start an attack and bite. Although there are anecdotes of unprovoked Komodo dragons attacking or preying on humans, most of these reports are either not reputable or caused by defensive bites. Only a very few cases are truly the result of unprovoked attacks by abnormal individuals, which lost their fear towards humans.
Volcanic activity, earthquakes, loss of habitat, fire, loss of prey due to poaching, tourism, and illegal poaching of the dragons themselves have all contributed to the vulnerable status of the Komodo dragon. Under Appendix I of CITES (the Convention on International Trade in Endangered Species), commercial trade of skins or specimens is illegal.
On Padar, a former population of the Komodo dragon became extinct, of which the last individuals were seen in 1975. It is widely assumed that the Komodo dragon died out on Padar after a strong decline of the populations of large ungulate prey, for which poaching was most likely responsible.
IN CAPTIVITY
Komodo dragons have long been great zoo attractions, where their size and reputation make them popular exhibits. They are, however, rare in zoos because they are susceptible to infection and parasitic disease if captured from the wild, and do not readily reproduce. As of May 2009, there were 13 European, 2 African, 35 North American, 1 Singaporean, and 2 Australian institutions that kept Komodo dragons.
The first Komodo dragons were displayed at London Zoo in 1927. A Komodo dragon was exhibited in 1934 at the National Zoo in Washington, D.C., but it lived for only two years. More attempts to exhibit Komodo dragons were made, but the lifespan of these animals was very short, averaging five years in the National Zoological Park. Studies done by Walter Auffenberg, which were documented in his book The Behavioral Ecology of the Komodo Monitor, eventually allowed for more successful managing and reproducing of the dragons in captivity.
A variety of behaviors have been observed from captive specimens. Most individuals are relatively tame within a short time, and are capable of recognizing individual humans and discriminating between familiar keepers. Komodo dragons have also been observed to engage in play with a variety of objects, including shovels, cans, plastic rings, and shoes. This behavior does not seem to be "food-motivated predatory behavior".
Even seemingly docile dragons may become unpredictably aggressive, especially when the animal's territory is invaded by someone unfamiliar. In June 2001, a Komodo dragon seriously injured Phil Bronstein, the then husband of actress Sharon Stone, when he entered its enclosure at the Los Angeles Zoo after being invited in by its keeper. Bronstein was bitten on his bare foot, as the keeper had told him to take off his white shoes and socks, which the keeper stated could potentially excite the Komodo dragon as they were the same color as the white rats the zoo fed the dragon. Although he escaped, Bronstein needed to have several tendons in his foot reattached surgically.
IN POPULARE CULTURE
Komodo dragons are used as a main theme in Komodo (1999), Curse of the Komodo (2004) and Komodo vs. Cobra (2005).
The comedy team of Bob and Ray performed a popular sketch entitled "The Komodo Dragon Expert."
The plot of the 1990 film, The Freshman, involves a university freshman, an aging mobster and a Komodo dragon.
In the 2012 James Bond film Skyfall, one of the Chinese henchmen in a casino that Bond visits in Macau is overtaken, dragged off and presumably killed by a Komodo dragon.
WIKIPEDIA
. . . this is not in a zoo - it is wildlife! One hit with their giant claws and you are damaged! Luckily they are not aggressive . . .
__________________________
The Komodo dragon (Varanus komodoensis), also known as the Komodo monitor, is a large species of lizard found in the Indonesian islands of Komodo, Rinca, Flores, Gili Motang, and Padar. A member of the monitor lizard family Varanidae, it is the largest living species of lizard, growing to a maximum length of 3 metres in rare cases and weighing up to approximately 70 kilograms.
Their unusually large size has been attributed to island gigantism, since no other carnivorous animals fill the niche on the islands where they live. However, recent research suggests the large size of Komodo dragons may be better understood as representative of a relict population of very large varanid lizards that once lived across Indonesia and Australia, most of which, along with other megafauna, died out after the Pleistocene. Fossils very similar to V. komodoensis have been found in Australia dating to greater than 3.8 million years ago, and its body size remained stable on Flores, one of the handful of Indonesian islands where it is currently found, over the last 900,000 years, "a time marked by major faunal turnovers, extinction of the island's megafauna, and the arrival of early hominids by 880 ka [kiloannums]."
As a result of their size, these lizards dominate the ecosystems in which they live. Komodo dragons hunt and ambush prey including invertebrates, birds, and mammals. It has been claimed that they have a venomous bite; there are two glands in the lower jaw which secrete several toxic proteins. The biological significance of these proteins is disputed, but the glands have been shown to secrete an anticoagulant. Komodo dragon group behaviour in hunting is exceptional in the reptile world. The diet of big Komodo dragons mainly consists of deer, though they also eat considerable amounts of carrion. Komodo dragons also occasionally attack humans in the area of West Manggarai Regency where they live in Indonesia.
Mating begins between May and August, and the eggs are laid in September. About 20 eggs are deposited in abandoned megapode nests or in a self-dug nesting hole. The eggs are incubated for seven to eight months, hatching in April, when insects are most plentiful. Young Komodo dragons are vulnerable and therefore dwell in trees, safe from predators and cannibalistic adults. They take 8 to 9 years to mature, and are estimated to live up to 30 years.
Komodo dragons were first recorded by Western scientists in 1910. Their large size and fearsome reputation make them popular zoo exhibits. In the wild, their range has contracted due to human activities, and they are listed as vulnerable by the IUCN. They are protected under Indonesian law, and a national park, Komodo National Park, was founded to aid protection efforts.
ETYMOLOGY
The Komodo dragon is also known as the Komodo monitor or the Komodo Island monitor in scientific literature, although this is not very common. To the natives of Komodo Island, it is referred to as ora, buaya darat (land crocodile), or biawak raksasa (giant monitor).
EVOLUTIONARY HISTORY
The evolutionary development of the Komodo dragon started with the Varanus genus, which originated in Asia about 40 million years ago and migrated to Australia. Around 15 million years ago, a collision between Australia and Southeast Asia allowed the varanids to move into what is now the Indonesian archipelago, extending their range as far east as the island of Timor. The Komodo dragon was believed to have differentiated from its Australian ancestors 4 million years ago. However, recent fossil evidence from Queensland suggests the Komodo dragon evolved in Australia before spreading to Indonesia. Dramatic lowering of sea level during the last glacial period uncovered extensive stretches of continental shelf that the Komodo dragon colonized, becoming isolated in their present island range as sea levels rose afterwards.
DESCRIPTION
In the wild, an adult Komodo dragon usually weighs around 70 kg, although captive specimens often weigh more. According to the Guinness Book of World Records, an average adult male will weigh 79 to 91 kg and measure 2.59 m, while an average female will weigh 68 to 73 kg and measure 2.29 m. The largest verified wild specimen was 3.13 m long and weighed 166 kg, including undigested food. The Komodo dragon has a tail as long as its body, as well as about 60 frequently replaced, serrated teeth that can measure up to 2.5 cm in length. Its saliva is frequently blood-tinged, because its teeth are almost completely covered by gingival tissue that is naturally lacerated during feeding. This creates an ideal culture for the bacteria that live in its mouth. It also has a long, yellow, deeply forked tongue. Komodo dragon skin is reinforced by armoured scales, which contain tiny bones called osteoderms that function as a sort of natural chain-mail. This rugged hide makes Komodo dragon skin poorly suited for making into leather.
SENSES
As with other Varanids, Komodo dragons have only a single ear bone, the stapes, for transferring vibrations from the tympanic membrane to the cochlea. This arrangement means they are likely restricted to sounds in the 400 to 2,000 hertz range, compared to humans who hear between 20 and 20,000 hertz. It was formerly thought to be deaf when a study reported no agitation in wild Komodo dragons in response to whispers, raised voices, or shouts. This was disputed when London Zoological Garden employee Joan Proctor trained a captive specimen to come out to feed at the sound of her voice, even when she could not be seen.
The Komodo dragon can see objects as far away as 300 m, but because its retinas only contain cones, it is thought to have poor night vision. The Komodo dragon is able to see in color, but has poor visual discrimination of stationary objects.
The Komodo dragon uses its tongue to detect, taste, and smell stimuli, as with many other reptiles, with the vomeronasal sense using the Jacobson's organ, rather than using the nostrils. With the help of a favorable wind and its habit of swinging its head from side to side as it walks, a Komodo dragon may be able to detect carrion from 4–9.5 km away. It only has a few taste buds in the back of its throat. Its scales, some of which are reinforced with bone, have sensory plaques connected to nerves to facilitate its sense of touch. The scales around the ears, lips, chin, and soles of the feet may have three or more sensory plaques.
BEHAVIOUR AND ECOLOGY
The Komodo dragon prefers hot and dry places, and typically lives in dry, open grassland, savanna, and tropical forest at low elevations. As an ectotherm, it is most active in the day, although it exhibits some nocturnal activity. Komodo dragons are solitary, coming together only to breed and eat. They are capable of running rapidly in brief sprints up to 20 km/h, diving up to 4.5 m, and climbing trees proficiently when young through use of their strong claws. To catch out-of-reach prey, the Komodo dragon may stand on its hind legs and use its tail as a support. As it matures, its claws are used primarily as weapons, as its great size makes climbing impractical.
For shelter, the Komodo dragon digs holes that can measure from 1–3 m wide with its powerful forelimbs and claws. Because of its large size and habit of sleeping in these burrows, it is able to conserve body heat throughout the night and minimize its basking period the morning after. The Komodo dragon hunts in the afternoon, but stays in the shade during the hottest part of the day. These special resting places, usually located on ridges with cool sea breezes, are marked with droppings and are cleared of vegetation. They serve as strategic locations from which to ambush deer.
DIET
Komodo dragons are carnivores. Although they eat mostly carrion, they will also ambush live prey with a stealthy approach. When suitable prey arrives near a dragon's ambush site, it will suddenly charge at the animal and go for the underside or the throat. It is able to locate its prey using its keen sense of smell, which can locate a dead or dying animal from a range of up to 9.5 km. Komodo dragons have been observed knocking down large pigs and deer with their strong tails.
Komodo dragons eat by tearing large chunks of flesh and swallowing them whole while holding the carcass down with their forelegs. For smaller prey up to the size of a goat, their loosely articulated jaws, flexible skulls, and expandable stomachs allow them to swallow prey whole. The vegetable contents of the stomach and intestines are typically avoided. Copious amounts of red saliva the Komodo dragons produce help to lubricate the food, but swallowing is still a long process (15–20 minutes to swallow a goat). A Komodo dragon may attempt to speed up the process by ramming the carcass against a tree to force it down its throat, sometimes ramming so forcefully, the tree is knocked down. To prevent itself from suffocating while swallowing, it breathes using a small tube under the tongue that connects to the lungs. After eating up to 80% of its body weight in one meal, it drags itself to a sunny location to speed digestion, as the food could rot and poison the dragon if left undigested for too long. Because of their slow metabolism, large dragons can survive on as little as 12 meals a year. After digestion, the Komodo dragon regurgitates a mass of horns, hair, and teeth known as the gastric pellet, which is covered in malodorous mucus. After regurgitating the gastric pellet, it rubs its face in the dirt or on bushes to get rid of the mucus, suggesting, like humans, it does not relish the scent of its own excretions.
The largest animals eat first, while the smaller ones follow a hierarchy. The largest male asserts his dominance and the smaller males show their submission by use of body language and rumbling hisses. Dragons of equal size may resort to "wrestling". Losers usually retreat, though they have been known to be killed and eaten by victors.
The Komodo dragon's diet is wide-ranging, and includes invertebrates, other reptiles (including smaller Komodo dragons), birds, bird eggs, small mammals, monkeys, wild boar, goats, deer, horses, and water buffalo. Young Komodos will eat insects, eggs, geckos, and small mammals. Occasionally, they consume humans and human corpses, digging up bodies from shallow graves. This habit of raiding graves caused the villagers of Komodo to move their graves from sandy to clay ground and pile rocks on top of them to deter the lizards. The Komodo dragon may have evolved to feed on the extinct dwarf elephant Stegodon that once lived on Flores, according to evolutionary biologist Jared Diamond.
The Komodo dragon drinks by sucking water into its mouth via buccal pumping (a process also used for respiration), lifting its head, and letting the water run down its throat.
SALIVA
Auffenberg described the Komodo dragon as having septic pathogens in its saliva (he described the saliva as "reddish and copious"), specifically the bacteria E. coli, Staphylococcus sp., Providencia sp., Proteus morgani, and P. mirabilis. He noted, while these pathogens can be found in the mouths of wild Komodo dragons, they disappear from the mouths of captive animals, due to cleaner diets and the use of antibiotics. This was verified by taking mucous samples from the external gum surfaces of the upper jaws of two freshly captured individuals. Saliva samples were analyzed by researchers at the University of Texas, who found 57 strains of bacteria growing in the mouths of three wild Komodo dragons, including Pasteurella multocida. The rapid growth of these bacteria was noted by Fredeking: "Normally it takes about three days for a sample of P. multocida to cover a Petri dish; ours took eight hours. We were very taken aback by how virulent these strains were". This study supported the observation that wounds inflicted by the Komodo dragon are often associated with sepsis and subsequent infections in prey animals. How the Komodo dragon is unaffected by these virulent bacteria remains a mystery.Research in 2013 suggested that the bacteria in the mouths of komodo dragons are ordinary and similar to those found in other carnivores. They actually have surprisingly good mouth hygiene. As Bryan Fry put it: "After they are done feeding, they will spend 10 to 15 minutes lip-licking and rubbing their head in the leaves to clean their mouth... Unlike people have been led to believe, they do not have chunks of rotting flesh from their meals on their teeth, cultivating bacteria." The observation of prey dying of sepsis would then be explained by the natural instinct of water buffalos, who are not native to the islands where the Komodo dragon lives, to run into water when attacked. The warm, feces filled water would then cause the infections. The study used samples from 16 captive dragons (10 adults and six neonates) from three U.S. zoos.
VENOM
In late 2005, researchers at the University of Melbourne speculated the perentie (Varanus giganteus), other species of monitors, and agamids may be somewhat venomous. The team believes the immediate effects of bites from these lizards were caused by mild envenomation. Bites on human digits by a lace monitor (V. varius), a Komodo dragon, and a spotted tree monitor (V. scalaris) all produced similar effects: rapid swelling, localized disruption of blood clotting, and shooting pain up to the elbow, with some symptoms lasting for several hours.
In 2009, the same researchers published further evidence demonstrating Komodo dragons possess a venomous bite. MRI scans of a preserved skull showed the presence of two glands in the lower jaw. The researchers extracted one of these glands from the head of a terminally ill specimen in the Singapore Zoological Gardens, and found it secreted several different toxic proteins. The known functions of these proteins include inhibition of blood clotting, lowering of blood pressure, muscle paralysis, and the induction of hypothermia, leading to shock and loss of consciousness in envenomated prey. As a result of the discovery, the previous theory that bacteria were responsible for the deaths of Komodo victims was disputed.
Kurt Schwenk, an evolutionary biologist at the University of Connecticut, finds the discovery of these glands intriguing, but considers most of the evidence for venom in the study to be "meaningless, irrelevant, incorrect or falsely misleading". Even if the lizards have venom-like proteins in their mouths, Schwenk argues, they may be using them for a different function, and he doubts venom is necessary to explain the effect of a Komodo dragon bite, arguing that shock and blood loss are the primary factors.
Other scientists such as Washington State University's Biologist Kenneth V. Kardong and Toxicologists Scott A. Weinstein and Tamara L. Smith, have stated that this allegation of venom glands "has had the effect of underestimating the variety of complex roles played by oral secretions in the biology of reptiles, produced a very narrow view of oral secretions and resulted in misinterpretation of reptilian evolution". According to these scientists "reptilian oral secretions contribute to many biological roles other than to quickly dispatch prey". These researchers concluded that, "Calling all in this clade venomous implies an overall potential danger that does not exist, misleads in the assessment of medical risks, and confuses the biological assessment of squamate biochemical systems".
REPRODUCTION
Mating occurs between May and August, with the eggs laid in September. During this period, males fight over females and territory by grappling with one another upon their hind legs, with the loser eventually being pinned to the ground. These males may vomit or defecate when preparing for the fight. The winner of the fight will then flick his long tongue at the female to gain information about her receptivity. Females are antagonistic and resist with their claws and teeth during the early phases of courtship. Therefore, the male must fully restrain the female during coitus to avoid being hurt. Other courtship displays include males rubbing their chins on the female, hard scratches to the back, and licking. Copulation occurs when the male inserts one of his hemipenes into the female's cloaca. Komodo dragons may be monogamous and form "pair bonds", a rare behavior for lizards. Female Komodos lay their eggs from August to September and may use several types of locality; in one study, 60% laid their eggs in the nests of orange-footed scrubfowl (a moundbuilder or megapode), 20% on ground level and 20% in hilly areas. The females make many camouflage nests/holes to prevent other dragons from eating the eggs. Clutches contain an average of 20 eggs, which have an incubation period of 7–8 months. Hatching is an exhausting effort for the neonates, which break out of their eggshells with an egg tooth that falls off soon after. After cutting themselves out, the hatchlings may lie in their eggshells for hours before starting to dig out of the nest. They are born quite defenseless and are vulnerable to predation. Sixteen youngsters from a single nest were on average 46.5 cm long and weighed 105.1 grams. Young Komodo dragons spend much of their first few years in trees, where they are relatively safe from predators, including cannibalistic adults, as juvenile dragons make up 10% of their diets. The habit of cannibalism may be advantageous in sustaining the large size of adults, as medium-sized prey on the islands is rare. When the young approach a kill, they roll around in fecal matter and rest in the intestines of eviscerated animals to deter these hungry adults. Komodo dragons take approximately three to five years to mature, and may live for up to 50 years.
PARTHENOGENESIS
A Komodo dragon at London Zoo named Sungai laid a clutch of eggs in late 2005 after being separated from male company for more than two years. Scientists initially assumed she had been able to store sperm from her earlier encounter with a male, an adaptation known as superfecundation. On 20 December 2006, it was reported that Flora, a captive Komodo dragon living in the Chester Zoo in England, was the second known Komodo dragon to have laid unfertilized eggs: she laid 11 eggs, and seven of them hatched, all of them male. Scientists at Liverpool University in England performed genetic tests on three eggs that collapsed after being moved to an incubator, and verified Flora had never been in physical contact with a male dragon. After Flora's eggs' condition had been discovered, testing showed Sungai's eggs were also produced without outside fertilization. On 31 January 2008, the Sedgwick County Zoo in Wichita, Kansas, became the first zoo in the Americas to document parthenogenesis in Komodo dragons. The zoo has two adult female Komodo dragons, one of which laid about 17 eggs on 19–20 May 2007. Only two eggs were incubated and hatched due to space issues; the first hatched on 31 January 2008, while the second hatched on 1 February. Both hatchlings were males.
Komodo dragons have the ZW chromosomal sex-determination system, as opposed to the mammalian XY system. Male progeny prove Flora's unfertilized eggs were haploid (n) and doubled their chromosomes later to become diploid (2n) (by being fertilized by a polar body, or by chromosome duplication without cell division), rather than by her laying diploid eggs by one of the meiosis reduction-divisions in her ovaries failing. When a female Komodo dragon (with ZW sex chromosomes) reproduces in this manner, she provides her progeny with only one chromosome from each of her pairs of chromosomes, including only one of her two sex chromosomes. This single set of chromosomes is duplicated in the egg, which develops parthenogenetically. Eggs receiving a Z chromosome become ZZ (male); those receiving a W chromosome become WW and fail to develop, meaning that only males are produced by parthenogenesis in this species.
It has been hypothesized that this reproductive adaptation allows a single female to enter an isolated ecological niche (such as an island) and by parthenogenesis produce male offspring, thereby establishing a sexually reproducing population (via reproduction with her offspring that can result in both male and female young). Despite the advantages of such an adaptation, zoos are cautioned that parthenogenesis may be detrimental to genetic diversity.
HISTORY
DISCOVERY BY THE WESTERN WORLD
Komodo dragons were first documented by Europeans in 1910, when rumors of a "land crocodile" reached Lieutenant van Steyn van Hensbroek of the Dutch colonial administration. Widespread notoriety came after 1912, when Peter Ouwens, the director of the Zoological Museum at Bogor, Java, published a paper on the topic after receiving a photo and a skin from the lieutenant, as well as two other specimens from a collector. The first two live Komodo dragons to arrive in Europe were exhibited in the Reptile House at London Zoo when it opened in 1927. Joan Beauchamp Procter made some of the earliest observations of these animals in captivity and she demonstrated the behaviour of one of these animals at a Scientific Meeting of the Zoological Society of London in 1928. The Komodo dragon was the driving factor for an expedition to Komodo Island by W. Douglas Burden in 1926. After returning with 12 preserved specimens and 2 live ones, this expedition provided the inspiration for the 1933 movie King Kong. It was also Burden who coined the common name "Komodo dragon." Three of his specimens were stuffed and are still on display in the American Museum of Natural History.
STUDIES
The Dutch, realizing the limited number of individuals in the wild, outlawed sport hunting and heavily limited the number of individuals taken for scientific study. Collecting expeditions ground to a halt with the occurrence of World War II, not resuming until the 1950s and 1960s, when studies examined the Komodo dragon's feeding behavior, reproduction, and body temperature. At around this time, an expedition was planned in which a long-term study of the Komodo dragon would be undertaken. This task was given to the Auffenberg family, who stayed on Komodo Island for 11 months in 1969. During their stay, Walter Auffenberg and his assistant Putra Sastrawan captured and tagged more than 50 Komodo dragons. The research from the Auffenberg expedition would prove to be enormously influential in raising Komodo dragons in captivity. Research after that of the Auffenberg family has shed more light on the nature of the Komodo dragon, with biologists such as Claudio Ciofi continuing to study the creatures.
CONSERVATION
The Komodo dragon is a vulnerable species and is on the IUCN Red List. There are approximately 4,000 to 5,000 living Komodo dragons in the wild. Their populations are restricted to the islands of Gili Motang (100), Gili Dasami (100), Rinca (1,300), Komodo (1,700), and Flores (perhaps 2,000). However, there are concerns that there may presently be only 350 breeding females. To address these concerns, the Komodo National Park was founded in 1980 to protect Komodo dragon populations on islands including Komodo, Rinca, and Padar. Later, the Wae Wuul and Wolo Tado Reserves were opened on Flores to aid with Komodo dragon conservation.
Komodo dragons avoid encounters with humans. Juveniles are very shy and will flee quickly into a hideout if a human comes closer than about 100 metres. Older animals will also retreat from humans from a shorter distance away. If cornered, they will react aggressively by gaping their mouth, hissing, and swinging their tail. If they are disturbed further, they may start an attack and bite. Although there are anecdotes of unprovoked Komodo dragons attacking or preying on humans, most of these reports are either not reputable or caused by defensive bites. Only a very few cases are truly the result of unprovoked attacks by abnormal individuals, which lost their fear towards humans.
Volcanic activity, earthquakes, loss of habitat, fire, loss of prey due to poaching, tourism, and illegal poaching of the dragons themselves have all contributed to the vulnerable status of the Komodo dragon. Under Appendix I of CITES (the Convention on International Trade in Endangered Species), commercial trade of skins or specimens is illegal.
On Padar, a former population of the Komodo dragon became extinct, of which the last individuals were seen in 1975. It is widely assumed that the Komodo dragon died out on Padar after a strong decline of the populations of large ungulate prey, for which poaching was most likely responsible.
IN CAPTIVITY
Komodo dragons have long been great zoo attractions, where their size and reputation make them popular exhibits. They are, however, rare in zoos because they are susceptible to infection and parasitic disease if captured from the wild, and do not readily reproduce. As of May 2009, there were 13 European, 2 African, 35 North American, 1 Singaporean, and 2 Australian institutions that kept Komodo dragons.
The first Komodo dragons were displayed at London Zoo in 1927. A Komodo dragon was exhibited in 1934 at the National Zoo in Washington, D.C., but it lived for only two years. More attempts to exhibit Komodo dragons were made, but the lifespan of these animals was very short, averaging five years in the National Zoological Park. Studies done by Walter Auffenberg, which were documented in his book The Behavioral Ecology of the Komodo Monitor, eventually allowed for more successful managing and reproducing of the dragons in captivity.
A variety of behaviors have been observed from captive specimens. Most individuals are relatively tame within a short time, and are capable of recognizing individual humans and discriminating between familiar keepers. Komodo dragons have also been observed to engage in play with a variety of objects, including shovels, cans, plastic rings, and shoes. This behavior does not seem to be "food-motivated predatory behavior".
Even seemingly docile dragons may become unpredictably aggressive, especially when the animal's territory is invaded by someone unfamiliar. In June 2001, a Komodo dragon seriously injured Phil Bronstein, the then husband of actress Sharon Stone, when he entered its enclosure at the Los Angeles Zoo after being invited in by its keeper. Bronstein was bitten on his bare foot, as the keeper had told him to take off his white shoes and socks, which the keeper stated could potentially excite the Komodo dragon as they were the same color as the white rats the zoo fed the dragon. Although he escaped, Bronstein needed to have several tendons in his foot reattached surgically.
IN POPULARE CULTURE
Komodo dragons are used as a main theme in Komodo (1999), Curse of the Komodo (2004) and Komodo vs. Cobra (2005).
The comedy team of Bob and Ray performed a popular sketch entitled "The Komodo Dragon Expert."
The plot of the 1990 film, The Freshman, involves a university freshman, an aging mobster and a Komodo dragon.
In the 2012 James Bond film Skyfall, one of the Chinese henchmen in a casino that Bond visits in Macau is overtaken, dragged off and presumably killed by a Komodo dragon.
WIKIPEDIA
. . . this is not in a zoo - it is wildlife! And as you can estimate, I am 3 meter away! One hit with their giant claws and you are damaged! Luckily they are not aggressive . . .
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The Komodo dragon (Varanus komodoensis), also known as the Komodo monitor, is a large species of lizard found in the Indonesian islands of Komodo, Rinca, Flores, Gili Motang, and Padar. A member of the monitor lizard family Varanidae, it is the largest living species of lizard, growing to a maximum length of 3 metres in rare cases and weighing up to approximately 70 kilograms.
Their unusually large size has been attributed to island gigantism, since no other carnivorous animals fill the niche on the islands where they live. However, recent research suggests the large size of Komodo dragons may be better understood as representative of a relict population of very large varanid lizards that once lived across Indonesia and Australia, most of which, along with other megafauna, died out after the Pleistocene. Fossils very similar to V. komodoensis have been found in Australia dating to greater than 3.8 million years ago, and its body size remained stable on Flores, one of the handful of Indonesian islands where it is currently found, over the last 900,000 years, "a time marked by major faunal turnovers, extinction of the island's megafauna, and the arrival of early hominids by 880 ka [kiloannums]."
As a result of their size, these lizards dominate the ecosystems in which they live. Komodo dragons hunt and ambush prey including invertebrates, birds, and mammals. It has been claimed that they have a venomous bite; there are two glands in the lower jaw which secrete several toxic proteins. The biological significance of these proteins is disputed, but the glands have been shown to secrete an anticoagulant. Komodo dragon group behaviour in hunting is exceptional in the reptile world. The diet of big Komodo dragons mainly consists of deer, though they also eat considerable amounts of carrion. Komodo dragons also occasionally attack humans in the area of West Manggarai Regency where they live in Indonesia.
Mating begins between May and August, and the eggs are laid in September. About 20 eggs are deposited in abandoned megapode nests or in a self-dug nesting hole. The eggs are incubated for seven to eight months, hatching in April, when insects are most plentiful. Young Komodo dragons are vulnerable and therefore dwell in trees, safe from predators and cannibalistic adults. They take 8 to 9 years to mature, and are estimated to live up to 30 years.
Komodo dragons were first recorded by Western scientists in 1910. Their large size and fearsome reputation make them popular zoo exhibits. In the wild, their range has contracted due to human activities, and they are listed as vulnerable by the IUCN. They are protected under Indonesian law, and a national park, Komodo National Park, was founded to aid protection efforts.
ETYMOLOGY
The Komodo dragon is also known as the Komodo monitor or the Komodo Island monitor in scientific literature, although this is not very common. To the natives of Komodo Island, it is referred to as ora, buaya darat (land crocodile), or biawak raksasa (giant monitor).
EVOLUTIONARY HISTORY
The evolutionary development of the Komodo dragon started with the Varanus genus, which originated in Asia about 40 million years ago and migrated to Australia. Around 15 million years ago, a collision between Australia and Southeast Asia allowed the varanids to move into what is now the Indonesian archipelago, extending their range as far east as the island of Timor. The Komodo dragon was believed to have differentiated from its Australian ancestors 4 million years ago. However, recent fossil evidence from Queensland suggests the Komodo dragon evolved in Australia before spreading to Indonesia. Dramatic lowering of sea level during the last glacial period uncovered extensive stretches of continental shelf that the Komodo dragon colonized, becoming isolated in their present island range as sea levels rose afterwards.
DESCRIPTION
In the wild, an adult Komodo dragon usually weighs around 70 kg, although captive specimens often weigh more. According to the Guinness Book of World Records, an average adult male will weigh 79 to 91 kg and measure 2.59 m, while an average female will weigh 68 to 73 kg and measure 2.29 m. The largest verified wild specimen was 3.13 m long and weighed 166 kg, including undigested food. The Komodo dragon has a tail as long as its body, as well as about 60 frequently replaced, serrated teeth that can measure up to 2.5 cm in length. Its saliva is frequently blood-tinged, because its teeth are almost completely covered by gingival tissue that is naturally lacerated during feeding. This creates an ideal culture for the bacteria that live in its mouth. It also has a long, yellow, deeply forked tongue. Komodo dragon skin is reinforced by armoured scales, which contain tiny bones called osteoderms that function as a sort of natural chain-mail. This rugged hide makes Komodo dragon skin poorly suited for making into leather.
SENSES
As with other Varanids, Komodo dragons have only a single ear bone, the stapes, for transferring vibrations from the tympanic membrane to the cochlea. This arrangement means they are likely restricted to sounds in the 400 to 2,000 hertz range, compared to humans who hear between 20 and 20,000 hertz. It was formerly thought to be deaf when a study reported no agitation in wild Komodo dragons in response to whispers, raised voices, or shouts. This was disputed when London Zoological Garden employee Joan Proctor trained a captive specimen to come out to feed at the sound of her voice, even when she could not be seen.
The Komodo dragon can see objects as far away as 300 m, but because its retinas only contain cones, it is thought to have poor night vision. The Komodo dragon is able to see in color, but has poor visual discrimination of stationary objects.
The Komodo dragon uses its tongue to detect, taste, and smell stimuli, as with many other reptiles, with the vomeronasal sense using the Jacobson's organ, rather than using the nostrils. With the help of a favorable wind and its habit of swinging its head from side to side as it walks, a Komodo dragon may be able to detect carrion from 4–9.5 km away. It only has a few taste buds in the back of its throat. Its scales, some of which are reinforced with bone, have sensory plaques connected to nerves to facilitate its sense of touch. The scales around the ears, lips, chin, and soles of the feet may have three or more sensory plaques.
BEHAVIOUR AND ECOLOGY
The Komodo dragon prefers hot and dry places, and typically lives in dry, open grassland, savanna, and tropical forest at low elevations. As an ectotherm, it is most active in the day, although it exhibits some nocturnal activity. Komodo dragons are solitary, coming together only to breed and eat. They are capable of running rapidly in brief sprints up to 20 km/h, diving up to 4.5 m, and climbing trees proficiently when young through use of their strong claws. To catch out-of-reach prey, the Komodo dragon may stand on its hind legs and use its tail as a support. As it matures, its claws are used primarily as weapons, as its great size makes climbing impractical.
For shelter, the Komodo dragon digs holes that can measure from 1–3 m wide with its powerful forelimbs and claws. Because of its large size and habit of sleeping in these burrows, it is able to conserve body heat throughout the night and minimize its basking period the morning after. The Komodo dragon hunts in the afternoon, but stays in the shade during the hottest part of the day. These special resting places, usually located on ridges with cool sea breezes, are marked with droppings and are cleared of vegetation. They serve as strategic locations from which to ambush deer.
DIET
Komodo dragons are carnivores. Although they eat mostly carrion, they will also ambush live prey with a stealthy approach. When suitable prey arrives near a dragon's ambush site, it will suddenly charge at the animal and go for the underside or the throat. It is able to locate its prey using its keen sense of smell, which can locate a dead or dying animal from a range of up to 9.5 km. Komodo dragons have been observed knocking down large pigs and deer with their strong tails.
Komodo dragons eat by tearing large chunks of flesh and swallowing them whole while holding the carcass down with their forelegs. For smaller prey up to the size of a goat, their loosely articulated jaws, flexible skulls, and expandable stomachs allow them to swallow prey whole. The vegetable contents of the stomach and intestines are typically avoided. Copious amounts of red saliva the Komodo dragons produce help to lubricate the food, but swallowing is still a long process (15–20 minutes to swallow a goat). A Komodo dragon may attempt to speed up the process by ramming the carcass against a tree to force it down its throat, sometimes ramming so forcefully, the tree is knocked down. To prevent itself from suffocating while swallowing, it breathes using a small tube under the tongue that connects to the lungs. After eating up to 80% of its body weight in one meal, it drags itself to a sunny location to speed digestion, as the food could rot and poison the dragon if left undigested for too long. Because of their slow metabolism, large dragons can survive on as little as 12 meals a year. After digestion, the Komodo dragon regurgitates a mass of horns, hair, and teeth known as the gastric pellet, which is covered in malodorous mucus. After regurgitating the gastric pellet, it rubs its face in the dirt or on bushes to get rid of the mucus, suggesting, like humans, it does not relish the scent of its own excretions.
The largest animals eat first, while the smaller ones follow a hierarchy. The largest male asserts his dominance and the smaller males show their submission by use of body language and rumbling hisses. Dragons of equal size may resort to "wrestling". Losers usually retreat, though they have been known to be killed and eaten by victors.
The Komodo dragon's diet is wide-ranging, and includes invertebrates, other reptiles (including smaller Komodo dragons), birds, bird eggs, small mammals, monkeys, wild boar, goats, deer, horses, and water buffalo. Young Komodos will eat insects, eggs, geckos, and small mammals. Occasionally, they consume humans and human corpses, digging up bodies from shallow graves. This habit of raiding graves caused the villagers of Komodo to move their graves from sandy to clay ground and pile rocks on top of them to deter the lizards. The Komodo dragon may have evolved to feed on the extinct dwarf elephant Stegodon that once lived on Flores, according to evolutionary biologist Jared Diamond.
The Komodo dragon drinks by sucking water into its mouth via buccal pumping (a process also used for respiration), lifting its head, and letting the water run down its throat.
SALIVA
Auffenberg described the Komodo dragon as having septic pathogens in its saliva (he described the saliva as "reddish and copious"), specifically the bacteria E. coli, Staphylococcus sp., Providencia sp., Proteus morgani, and P. mirabilis. He noted, while these pathogens can be found in the mouths of wild Komodo dragons, they disappear from the mouths of captive animals, due to cleaner diets and the use of antibiotics. This was verified by taking mucous samples from the external gum surfaces of the upper jaws of two freshly captured individuals. Saliva samples were analyzed by researchers at the University of Texas, who found 57 strains of bacteria growing in the mouths of three wild Komodo dragons, including Pasteurella multocida. The rapid growth of these bacteria was noted by Fredeking: "Normally it takes about three days for a sample of P. multocida to cover a Petri dish; ours took eight hours. We were very taken aback by how virulent these strains were". This study supported the observation that wounds inflicted by the Komodo dragon are often associated with sepsis and subsequent infections in prey animals. How the Komodo dragon is unaffected by these virulent bacteria remains a mystery.Research in 2013 suggested that the bacteria in the mouths of komodo dragons are ordinary and similar to those found in other carnivores. They actually have surprisingly good mouth hygiene. As Bryan Fry put it: "After they are done feeding, they will spend 10 to 15 minutes lip-licking and rubbing their head in the leaves to clean their mouth... Unlike people have been led to believe, they do not have chunks of rotting flesh from their meals on their teeth, cultivating bacteria." The observation of prey dying of sepsis would then be explained by the natural instinct of water buffalos, who are not native to the islands where the Komodo dragon lives, to run into water when attacked. The warm, feces filled water would then cause the infections. The study used samples from 16 captive dragons (10 adults and six neonates) from three U.S. zoos.
VENOM
In late 2005, researchers at the University of Melbourne speculated the perentie (Varanus giganteus), other species of monitors, and agamids may be somewhat venomous. The team believes the immediate effects of bites from these lizards were caused by mild envenomation. Bites on human digits by a lace monitor (V. varius), a Komodo dragon, and a spotted tree monitor (V. scalaris) all produced similar effects: rapid swelling, localized disruption of blood clotting, and shooting pain up to the elbow, with some symptoms lasting for several hours.
In 2009, the same researchers published further evidence demonstrating Komodo dragons possess a venomous bite. MRI scans of a preserved skull showed the presence of two glands in the lower jaw. The researchers extracted one of these glands from the head of a terminally ill specimen in the Singapore Zoological Gardens, and found it secreted several different toxic proteins. The known functions of these proteins include inhibition of blood clotting, lowering of blood pressure, muscle paralysis, and the induction of hypothermia, leading to shock and loss of consciousness in envenomated prey. As a result of the discovery, the previous theory that bacteria were responsible for the deaths of Komodo victims was disputed.
Kurt Schwenk, an evolutionary biologist at the University of Connecticut, finds the discovery of these glands intriguing, but considers most of the evidence for venom in the study to be "meaningless, irrelevant, incorrect or falsely misleading". Even if the lizards have venom-like proteins in their mouths, Schwenk argues, they may be using them for a different function, and he doubts venom is necessary to explain the effect of a Komodo dragon bite, arguing that shock and blood loss are the primary factors.
Other scientists such as Washington State University's Biologist Kenneth V. Kardong and Toxicologists Scott A. Weinstein and Tamara L. Smith, have stated that this allegation of venom glands "has had the effect of underestimating the variety of complex roles played by oral secretions in the biology of reptiles, produced a very narrow view of oral secretions and resulted in misinterpretation of reptilian evolution". According to these scientists "reptilian oral secretions contribute to many biological roles other than to quickly dispatch prey". These researchers concluded that, "Calling all in this clade venomous implies an overall potential danger that does not exist, misleads in the assessment of medical risks, and confuses the biological assessment of squamate biochemical systems".
REPRODUCTION
Mating occurs between May and August, with the eggs laid in September. During this period, males fight over females and territory by grappling with one another upon their hind legs, with the loser eventually being pinned to the ground. These males may vomit or defecate when preparing for the fight. The winner of the fight will then flick his long tongue at the female to gain information about her receptivity. Females are antagonistic and resist with their claws and teeth during the early phases of courtship. Therefore, the male must fully restrain the female during coitus to avoid being hurt. Other courtship displays include males rubbing their chins on the female, hard scratches to the back, and licking. Copulation occurs when the male inserts one of his hemipenes into the female's cloaca. Komodo dragons may be monogamous and form "pair bonds", a rare behavior for lizards. Female Komodos lay their eggs from August to September and may use several types of locality; in one study, 60% laid their eggs in the nests of orange-footed scrubfowl (a moundbuilder or megapode), 20% on ground level and 20% in hilly areas. The females make many camouflage nests/holes to prevent other dragons from eating the eggs. Clutches contain an average of 20 eggs, which have an incubation period of 7–8 months. Hatching is an exhausting effort for the neonates, which break out of their eggshells with an egg tooth that falls off soon after. After cutting themselves out, the hatchlings may lie in their eggshells for hours before starting to dig out of the nest. They are born quite defenseless and are vulnerable to predation. Sixteen youngsters from a single nest were on average 46.5 cm long and weighed 105.1 grams. Young Komodo dragons spend much of their first few years in trees, where they are relatively safe from predators, including cannibalistic adults, as juvenile dragons make up 10% of their diets. The habit of cannibalism may be advantageous in sustaining the large size of adults, as medium-sized prey on the islands is rare. When the young approach a kill, they roll around in fecal matter and rest in the intestines of eviscerated animals to deter these hungry adults. Komodo dragons take approximately three to five years to mature, and may live for up to 50 years.
PARTHENOGENESIS
A Komodo dragon at London Zoo named Sungai laid a clutch of eggs in late 2005 after being separated from male company for more than two years. Scientists initially assumed she had been able to store sperm from her earlier encounter with a male, an adaptation known as superfecundation. On 20 December 2006, it was reported that Flora, a captive Komodo dragon living in the Chester Zoo in England, was the second known Komodo dragon to have laid unfertilized eggs: she laid 11 eggs, and seven of them hatched, all of them male. Scientists at Liverpool University in England performed genetic tests on three eggs that collapsed after being moved to an incubator, and verified Flora had never been in physical contact with a male dragon. After Flora's eggs' condition had been discovered, testing showed Sungai's eggs were also produced without outside fertilization. On 31 January 2008, the Sedgwick County Zoo in Wichita, Kansas, became the first zoo in the Americas to document parthenogenesis in Komodo dragons. The zoo has two adult female Komodo dragons, one of which laid about 17 eggs on 19–20 May 2007. Only two eggs were incubated and hatched due to space issues; the first hatched on 31 January 2008, while the second hatched on 1 February. Both hatchlings were males.
Komodo dragons have the ZW chromosomal sex-determination system, as opposed to the mammalian XY system. Male progeny prove Flora's unfertilized eggs were haploid (n) and doubled their chromosomes later to become diploid (2n) (by being fertilized by a polar body, or by chromosome duplication without cell division), rather than by her laying diploid eggs by one of the meiosis reduction-divisions in her ovaries failing. When a female Komodo dragon (with ZW sex chromosomes) reproduces in this manner, she provides her progeny with only one chromosome from each of her pairs of chromosomes, including only one of her two sex chromosomes. This single set of chromosomes is duplicated in the egg, which develops parthenogenetically. Eggs receiving a Z chromosome become ZZ (male); those receiving a W chromosome become WW and fail to develop, meaning that only males are produced by parthenogenesis in this species.
It has been hypothesized that this reproductive adaptation allows a single female to enter an isolated ecological niche (such as an island) and by parthenogenesis produce male offspring, thereby establishing a sexually reproducing population (via reproduction with her offspring that can result in both male and female young). Despite the advantages of such an adaptation, zoos are cautioned that parthenogenesis may be detrimental to genetic diversity.
HISTORY
DISCOVERY BY THE WESTERN WORLD
Komodo dragons were first documented by Europeans in 1910, when rumors of a "land crocodile" reached Lieutenant van Steyn van Hensbroek of the Dutch colonial administration. Widespread notoriety came after 1912, when Peter Ouwens, the director of the Zoological Museum at Bogor, Java, published a paper on the topic after receiving a photo and a skin from the lieutenant, as well as two other specimens from a collector. The first two live Komodo dragons to arrive in Europe were exhibited in the Reptile House at London Zoo when it opened in 1927. Joan Beauchamp Procter made some of the earliest observations of these animals in captivity and she demonstrated the behaviour of one of these animals at a Scientific Meeting of the Zoological Society of London in 1928. The Komodo dragon was the driving factor for an expedition to Komodo Island by W. Douglas Burden in 1926. After returning with 12 preserved specimens and 2 live ones, this expedition provided the inspiration for the 1933 movie King Kong. It was also Burden who coined the common name "Komodo dragon." Three of his specimens were stuffed and are still on display in the American Museum of Natural History.
STUDIES
The Dutch, realizing the limited number of individuals in the wild, outlawed sport hunting and heavily limited the number of individuals taken for scientific study. Collecting expeditions ground to a halt with the occurrence of World War II, not resuming until the 1950s and 1960s, when studies examined the Komodo dragon's feeding behavior, reproduction, and body temperature. At around this time, an expedition was planned in which a long-term study of the Komodo dragon would be undertaken. This task was given to the Auffenberg family, who stayed on Komodo Island for 11 months in 1969. During their stay, Walter Auffenberg and his assistant Putra Sastrawan captured and tagged more than 50 Komodo dragons. The research from the Auffenberg expedition would prove to be enormously influential in raising Komodo dragons in captivity. Research after that of the Auffenberg family has shed more light on the nature of the Komodo dragon, with biologists such as Claudio Ciofi continuing to study the creatures.
CONSERVATION
The Komodo dragon is a vulnerable species and is on the IUCN Red List. There are approximately 4,000 to 5,000 living Komodo dragons in the wild. Their populations are restricted to the islands of Gili Motang (100), Gili Dasami (100), Rinca (1,300), Komodo (1,700), and Flores (perhaps 2,000). However, there are concerns that there may presently be only 350 breeding females. To address these concerns, the Komodo National Park was founded in 1980 to protect Komodo dragon populations on islands including Komodo, Rinca, and Padar. Later, the Wae Wuul and Wolo Tado Reserves were opened on Flores to aid with Komodo dragon conservation.
Komodo dragons avoid encounters with humans. Juveniles are very shy and will flee quickly into a hideout if a human comes closer than about 100 metres. Older animals will also retreat from humans from a shorter distance away. If cornered, they will react aggressively by gaping their mouth, hissing, and swinging their tail. If they are disturbed further, they may start an attack and bite. Although there are anecdotes of unprovoked Komodo dragons attacking or preying on humans, most of these reports are either not reputable or caused by defensive bites. Only a very few cases are truly the result of unprovoked attacks by abnormal individuals, which lost their fear towards humans.
Volcanic activity, earthquakes, loss of habitat, fire, loss of prey due to poaching, tourism, and illegal poaching of the dragons themselves have all contributed to the vulnerable status of the Komodo dragon. Under Appendix I of CITES (the Convention on International Trade in Endangered Species), commercial trade of skins or specimens is illegal.
On Padar, a former population of the Komodo dragon became extinct, of which the last individuals were seen in 1975. It is widely assumed that the Komodo dragon died out on Padar after a strong decline of the populations of large ungulate prey, for which poaching was most likely responsible.
IN CAPTIVITY
Komodo dragons have long been great zoo attractions, where their size and reputation make them popular exhibits. They are, however, rare in zoos because they are susceptible to infection and parasitic disease if captured from the wild, and do not readily reproduce. As of May 2009, there were 13 European, 2 African, 35 North American, 1 Singaporean, and 2 Australian institutions that kept Komodo dragons.
The first Komodo dragons were displayed at London Zoo in 1927. A Komodo dragon was exhibited in 1934 at the National Zoo in Washington, D.C., but it lived for only two years. More attempts to exhibit Komodo dragons were made, but the lifespan of these animals was very short, averaging five years in the National Zoological Park. Studies done by Walter Auffenberg, which were documented in his book The Behavioral Ecology of the Komodo Monitor, eventually allowed for more successful managing and reproducing of the dragons in captivity.
A variety of behaviors have been observed from captive specimens. Most individuals are relatively tame within a short time, and are capable of recognizing individual humans and discriminating between familiar keepers. Komodo dragons have also been observed to engage in play with a variety of objects, including shovels, cans, plastic rings, and shoes. This behavior does not seem to be "food-motivated predatory behavior".
Even seemingly docile dragons may become unpredictably aggressive, especially when the animal's territory is invaded by someone unfamiliar. In June 2001, a Komodo dragon seriously injured Phil Bronstein, the then husband of actress Sharon Stone, when he entered its enclosure at the Los Angeles Zoo after being invited in by its keeper. Bronstein was bitten on his bare foot, as the keeper had told him to take off his white shoes and socks, which the keeper stated could potentially excite the Komodo dragon as they were the same color as the white rats the zoo fed the dragon. Although he escaped, Bronstein needed to have several tendons in his foot reattached surgically.
IN POPULARE CULTURE
Komodo dragons are used as a main theme in Komodo (1999), Curse of the Komodo (2004) and Komodo vs. Cobra (2005).
The comedy team of Bob and Ray performed a popular sketch entitled "The Komodo Dragon Expert."
The plot of the 1990 film, The Freshman, involves a university freshman, an aging mobster and a Komodo dragon.
In the 2012 James Bond film Skyfall, one of the Chinese henchmen in a casino that Bond visits in Macau is overtaken, dragged off and presumably killed by a Komodo dragon.
WIKIPEDIA
Originally from Calabria, this photo of Frank Galluzzo, son of owner Sam, (Mg-1) was taken in the fruit shop when he was about twenty in 1946. Frank Galluzzo migrated to Australia in 1934. For Melina Galluzzo, this photo reminds her of the customers who “sat at the marble top table to chat whilst being served.”
The Komodo dragon (Varanus komodoensis), also known as the Komodo monitor, is a large species of lizard found in the Indonesian islands of Komodo, Rinca, Flores, Gili Motang, and Padar. A member of the monitor lizard family Varanidae, it is the largest living species of lizard, growing to a maximum length of 3 metres in rare cases and weighing up to approximately 70 kilograms.
Their unusually large size has been attributed to island gigantism, since no other carnivorous animals fill the niche on the islands where they live. However, recent research suggests the large size of Komodo dragons may be better understood as representative of a relict population of very large varanid lizards that once lived across Indonesia and Australia, most of which, along with other megafauna, died out after the Pleistocene. Fossils very similar to V. komodoensis have been found in Australia dating to greater than 3.8 million years ago, and its body size remained stable on Flores, one of the handful of Indonesian islands where it is currently found, over the last 900,000 years, "a time marked by major faunal turnovers, extinction of the island's megafauna, and the arrival of early hominids by 880 ka [kiloannums]."
As a result of their size, these lizards dominate the ecosystems in which they live. Komodo dragons hunt and ambush prey including invertebrates, birds, and mammals. It has been claimed that they have a venomous bite; there are two glands in the lower jaw which secrete several toxic proteins. The biological significance of these proteins is disputed, but the glands have been shown to secrete an anticoagulant. Komodo dragon group behaviour in hunting is exceptional in the reptile world. The diet of big Komodo dragons mainly consists of deer, though they also eat considerable amounts of carrion. Komodo dragons also occasionally attack humans in the area of West Manggarai Regency where they live in Indonesia.
Mating begins between May and August, and the eggs are laid in September. About 20 eggs are deposited in abandoned megapode nests or in a self-dug nesting hole. The eggs are incubated for seven to eight months, hatching in April, when insects are most plentiful. Young Komodo dragons are vulnerable and therefore dwell in trees, safe from predators and cannibalistic adults. They take 8 to 9 years to mature, and are estimated to live up to 30 years.
Komodo dragons were first recorded by Western scientists in 1910. Their large size and fearsome reputation make them popular zoo exhibits. In the wild, their range has contracted due to human activities, and they are listed as vulnerable by the IUCN. They are protected under Indonesian law, and a national park, Komodo National Park, was founded to aid protection efforts.
ETYMOLOGY
The Komodo dragon is also known as the Komodo monitor or the Komodo Island monitor in scientific literature, although this is not very common. To the natives of Komodo Island, it is referred to as ora, buaya darat (land crocodile), or biawak raksasa (giant monitor).
EVOLUTIONARY HISTORY
The evolutionary development of the Komodo dragon started with the Varanus genus, which originated in Asia about 40 million years ago and migrated to Australia. Around 15 million years ago, a collision between Australia and Southeast Asia allowed the varanids to move into what is now the Indonesian archipelago, extending their range as far east as the island of Timor. The Komodo dragon was believed to have differentiated from its Australian ancestors 4 million years ago. However, recent fossil evidence from Queensland suggests the Komodo dragon evolved in Australia before spreading to Indonesia. Dramatic lowering of sea level during the last glacial period uncovered extensive stretches of continental shelf that the Komodo dragon colonized, becoming isolated in their present island range as sea levels rose afterwards.
DESCRIPTION
In the wild, an adult Komodo dragon usually weighs around 70 kg, although captive specimens often weigh more. According to the Guinness Book of World Records, an average adult male will weigh 79 to 91 kg and measure 2.59 m, while an average female will weigh 68 to 73 kg and measure 2.29 m. The largest verified wild specimen was 3.13 m long and weighed 166 kg, including undigested food. The Komodo dragon has a tail as long as its body, as well as about 60 frequently replaced, serrated teeth that can measure up to 2.5 cm in length. Its saliva is frequently blood-tinged, because its teeth are almost completely covered by gingival tissue that is naturally lacerated during feeding. This creates an ideal culture for the bacteria that live in its mouth. It also has a long, yellow, deeply forked tongue. Komodo dragon skin is reinforced by armoured scales, which contain tiny bones called osteoderms that function as a sort of natural chain-mail. This rugged hide makes Komodo dragon skin poorly suited for making into leather.
SENSES
As with other Varanids, Komodo dragons have only a single ear bone, the stapes, for transferring vibrations from the tympanic membrane to the cochlea. This arrangement means they are likely restricted to sounds in the 400 to 2,000 hertz range, compared to humans who hear between 20 and 20,000 hertz. It was formerly thought to be deaf when a study reported no agitation in wild Komodo dragons in response to whispers, raised voices, or shouts. This was disputed when London Zoological Garden employee Joan Proctor trained a captive specimen to come out to feed at the sound of her voice, even when she could not be seen.
The Komodo dragon can see objects as far away as 300 m, but because its retinas only contain cones, it is thought to have poor night vision. The Komodo dragon is able to see in color, but has poor visual discrimination of stationary objects.
The Komodo dragon uses its tongue to detect, taste, and smell stimuli, as with many other reptiles, with the vomeronasal sense using the Jacobson's organ, rather than using the nostrils. With the help of a favorable wind and its habit of swinging its head from side to side as it walks, a Komodo dragon may be able to detect carrion from 4–9.5 km away. It only has a few taste buds in the back of its throat. Its scales, some of which are reinforced with bone, have sensory plaques connected to nerves to facilitate its sense of touch. The scales around the ears, lips, chin, and soles of the feet may have three or more sensory plaques.
BEHAVIOUR AND ECOLOGY
The Komodo dragon prefers hot and dry places, and typically lives in dry, open grassland, savanna, and tropical forest at low elevations. As an ectotherm, it is most active in the day, although it exhibits some nocturnal activity. Komodo dragons are solitary, coming together only to breed and eat. They are capable of running rapidly in brief sprints up to 20 km/h, diving up to 4.5 m, and climbing trees proficiently when young through use of their strong claws. To catch out-of-reach prey, the Komodo dragon may stand on its hind legs and use its tail as a support. As it matures, its claws are used primarily as weapons, as its great size makes climbing impractical.
For shelter, the Komodo dragon digs holes that can measure from 1–3 m wide with its powerful forelimbs and claws. Because of its large size and habit of sleeping in these burrows, it is able to conserve body heat throughout the night and minimize its basking period the morning after. The Komodo dragon hunts in the afternoon, but stays in the shade during the hottest part of the day. These special resting places, usually located on ridges with cool sea breezes, are marked with droppings and are cleared of vegetation. They serve as strategic locations from which to ambush deer.
DIET
Komodo dragons are carnivores. Although they eat mostly carrion, they will also ambush live prey with a stealthy approach. When suitable prey arrives near a dragon's ambush site, it will suddenly charge at the animal and go for the underside or the throat. It is able to locate its prey using its keen sense of smell, which can locate a dead or dying animal from a range of up to 9.5 km. Komodo dragons have been observed knocking down large pigs and deer with their strong tails.
Komodo dragons eat by tearing large chunks of flesh and swallowing them whole while holding the carcass down with their forelegs. For smaller prey up to the size of a goat, their loosely articulated jaws, flexible skulls, and expandable stomachs allow them to swallow prey whole. The vegetable contents of the stomach and intestines are typically avoided. Copious amounts of red saliva the Komodo dragons produce help to lubricate the food, but swallowing is still a long process (15–20 minutes to swallow a goat). A Komodo dragon may attempt to speed up the process by ramming the carcass against a tree to force it down its throat, sometimes ramming so forcefully, the tree is knocked down. To prevent itself from suffocating while swallowing, it breathes using a small tube under the tongue that connects to the lungs. After eating up to 80% of its body weight in one meal, it drags itself to a sunny location to speed digestion, as the food could rot and poison the dragon if left undigested for too long. Because of their slow metabolism, large dragons can survive on as little as 12 meals a year. After digestion, the Komodo dragon regurgitates a mass of horns, hair, and teeth known as the gastric pellet, which is covered in malodorous mucus. After regurgitating the gastric pellet, it rubs its face in the dirt or on bushes to get rid of the mucus, suggesting, like humans, it does not relish the scent of its own excretions.
The largest animals eat first, while the smaller ones follow a hierarchy. The largest male asserts his dominance and the smaller males show their submission by use of body language and rumbling hisses. Dragons of equal size may resort to "wrestling". Losers usually retreat, though they have been known to be killed and eaten by victors.
The Komodo dragon's diet is wide-ranging, and includes invertebrates, other reptiles (including smaller Komodo dragons), birds, bird eggs, small mammals, monkeys, wild boar, goats, deer, horses, and water buffalo. Young Komodos will eat insects, eggs, geckos, and small mammals. Occasionally, they consume humans and human corpses, digging up bodies from shallow graves. This habit of raiding graves caused the villagers of Komodo to move their graves from sandy to clay ground and pile rocks on top of them to deter the lizards. The Komodo dragon may have evolved to feed on the extinct dwarf elephant Stegodon that once lived on Flores, according to evolutionary biologist Jared Diamond.
The Komodo dragon drinks by sucking water into its mouth via buccal pumping (a process also used for respiration), lifting its head, and letting the water run down its throat.
SALIVA
Auffenberg described the Komodo dragon as having septic pathogens in its saliva (he described the saliva as "reddish and copious"), specifically the bacteria E. coli, Staphylococcus sp., Providencia sp., Proteus morgani, and P. mirabilis. He noted, while these pathogens can be found in the mouths of wild Komodo dragons, they disappear from the mouths of captive animals, due to cleaner diets and the use of antibiotics. This was verified by taking mucous samples from the external gum surfaces of the upper jaws of two freshly captured individuals. Saliva samples were analyzed by researchers at the University of Texas, who found 57 strains of bacteria growing in the mouths of three wild Komodo dragons, including Pasteurella multocida. The rapid growth of these bacteria was noted by Fredeking: "Normally it takes about three days for a sample of P. multocida to cover a Petri dish; ours took eight hours. We were very taken aback by how virulent these strains were". This study supported the observation that wounds inflicted by the Komodo dragon are often associated with sepsis and subsequent infections in prey animals. How the Komodo dragon is unaffected by these virulent bacteria remains a mystery.Research in 2013 suggested that the bacteria in the mouths of komodo dragons are ordinary and similar to those found in other carnivores. They actually have surprisingly good mouth hygiene. As Bryan Fry put it: "After they are done feeding, they will spend 10 to 15 minutes lip-licking and rubbing their head in the leaves to clean their mouth... Unlike people have been led to believe, they do not have chunks of rotting flesh from their meals on their teeth, cultivating bacteria." The observation of prey dying of sepsis would then be explained by the natural instinct of water buffalos, who are not native to the islands where the Komodo dragon lives, to run into water when attacked. The warm, feces filled water would then cause the infections. The study used samples from 16 captive dragons (10 adults and six neonates) from three U.S. zoos.
VENOM
In late 2005, researchers at the University of Melbourne speculated the perentie (Varanus giganteus), other species of monitors, and agamids may be somewhat venomous. The team believes the immediate effects of bites from these lizards were caused by mild envenomation. Bites on human digits by a lace monitor (V. varius), a Komodo dragon, and a spotted tree monitor (V. scalaris) all produced similar effects: rapid swelling, localized disruption of blood clotting, and shooting pain up to the elbow, with some symptoms lasting for several hours.
In 2009, the same researchers published further evidence demonstrating Komodo dragons possess a venomous bite. MRI scans of a preserved skull showed the presence of two glands in the lower jaw. The researchers extracted one of these glands from the head of a terminally ill specimen in the Singapore Zoological Gardens, and found it secreted several different toxic proteins. The known functions of these proteins include inhibition of blood clotting, lowering of blood pressure, muscle paralysis, and the induction of hypothermia, leading to shock and loss of consciousness in envenomated prey. As a result of the discovery, the previous theory that bacteria were responsible for the deaths of Komodo victims was disputed.
Kurt Schwenk, an evolutionary biologist at the University of Connecticut, finds the discovery of these glands intriguing, but considers most of the evidence for venom in the study to be "meaningless, irrelevant, incorrect or falsely misleading". Even if the lizards have venom-like proteins in their mouths, Schwenk argues, they may be using them for a different function, and he doubts venom is necessary to explain the effect of a Komodo dragon bite, arguing that shock and blood loss are the primary factors.
Other scientists such as Washington State University's Biologist Kenneth V. Kardong and Toxicologists Scott A. Weinstein and Tamara L. Smith, have stated that this allegation of venom glands "has had the effect of underestimating the variety of complex roles played by oral secretions in the biology of reptiles, produced a very narrow view of oral secretions and resulted in misinterpretation of reptilian evolution". According to these scientists "reptilian oral secretions contribute to many biological roles other than to quickly dispatch prey". These researchers concluded that, "Calling all in this clade venomous implies an overall potential danger that does not exist, misleads in the assessment of medical risks, and confuses the biological assessment of squamate biochemical systems".
REPRODUCTION
Mating occurs between May and August, with the eggs laid in September. During this period, males fight over females and territory by grappling with one another upon their hind legs, with the loser eventually being pinned to the ground. These males may vomit or defecate when preparing for the fight. The winner of the fight will then flick his long tongue at the female to gain information about her receptivity. Females are antagonistic and resist with their claws and teeth during the early phases of courtship. Therefore, the male must fully restrain the female during coitus to avoid being hurt. Other courtship displays include males rubbing their chins on the female, hard scratches to the back, and licking. Copulation occurs when the male inserts one of his hemipenes into the female's cloaca. Komodo dragons may be monogamous and form "pair bonds", a rare behavior for lizards. Female Komodos lay their eggs from August to September and may use several types of locality; in one study, 60% laid their eggs in the nests of orange-footed scrubfowl (a moundbuilder or megapode), 20% on ground level and 20% in hilly areas. The females make many camouflage nests/holes to prevent other dragons from eating the eggs. Clutches contain an average of 20 eggs, which have an incubation period of 7–8 months. Hatching is an exhausting effort for the neonates, which break out of their eggshells with an egg tooth that falls off soon after. After cutting themselves out, the hatchlings may lie in their eggshells for hours before starting to dig out of the nest. They are born quite defenseless and are vulnerable to predation. Sixteen youngsters from a single nest were on average 46.5 cm long and weighed 105.1 grams. Young Komodo dragons spend much of their first few years in trees, where they are relatively safe from predators, including cannibalistic adults, as juvenile dragons make up 10% of their diets. The habit of cannibalism may be advantageous in sustaining the large size of adults, as medium-sized prey on the islands is rare. When the young approach a kill, they roll around in fecal matter and rest in the intestines of eviscerated animals to deter these hungry adults. Komodo dragons take approximately three to five years to mature, and may live for up to 50 years.
PARTHENOGENESIS
A Komodo dragon at London Zoo named Sungai laid a clutch of eggs in late 2005 after being separated from male company for more than two years. Scientists initially assumed she had been able to store sperm from her earlier encounter with a male, an adaptation known as superfecundation. On 20 December 2006, it was reported that Flora, a captive Komodo dragon living in the Chester Zoo in England, was the second known Komodo dragon to have laid unfertilized eggs: she laid 11 eggs, and seven of them hatched, all of them male. Scientists at Liverpool University in England performed genetic tests on three eggs that collapsed after being moved to an incubator, and verified Flora had never been in physical contact with a male dragon. After Flora's eggs' condition had been discovered, testing showed Sungai's eggs were also produced without outside fertilization. On 31 January 2008, the Sedgwick County Zoo in Wichita, Kansas, became the first zoo in the Americas to document parthenogenesis in Komodo dragons. The zoo has two adult female Komodo dragons, one of which laid about 17 eggs on 19–20 May 2007. Only two eggs were incubated and hatched due to space issues; the first hatched on 31 January 2008, while the second hatched on 1 February. Both hatchlings were males.
Komodo dragons have the ZW chromosomal sex-determination system, as opposed to the mammalian XY system. Male progeny prove Flora's unfertilized eggs were haploid (n) and doubled their chromosomes later to become diploid (2n) (by being fertilized by a polar body, or by chromosome duplication without cell division), rather than by her laying diploid eggs by one of the meiosis reduction-divisions in her ovaries failing. When a female Komodo dragon (with ZW sex chromosomes) reproduces in this manner, she provides her progeny with only one chromosome from each of her pairs of chromosomes, including only one of her two sex chromosomes. This single set of chromosomes is duplicated in the egg, which develops parthenogenetically. Eggs receiving a Z chromosome become ZZ (male); those receiving a W chromosome become WW and fail to develop, meaning that only males are produced by parthenogenesis in this species.
It has been hypothesized that this reproductive adaptation allows a single female to enter an isolated ecological niche (such as an island) and by parthenogenesis produce male offspring, thereby establishing a sexually reproducing population (via reproduction with her offspring that can result in both male and female young). Despite the advantages of such an adaptation, zoos are cautioned that parthenogenesis may be detrimental to genetic diversity.
HISTORY
DISCOVERY BY THE WESTERN WORLD
Komodo dragons were first documented by Europeans in 1910, when rumors of a "land crocodile" reached Lieutenant van Steyn van Hensbroek of the Dutch colonial administration. Widespread notoriety came after 1912, when Peter Ouwens, the director of the Zoological Museum at Bogor, Java, published a paper on the topic after receiving a photo and a skin from the lieutenant, as well as two other specimens from a collector. The first two live Komodo dragons to arrive in Europe were exhibited in the Reptile House at London Zoo when it opened in 1927. Joan Beauchamp Procter made some of the earliest observations of these animals in captivity and she demonstrated the behaviour of one of these animals at a Scientific Meeting of the Zoological Society of London in 1928. The Komodo dragon was the driving factor for an expedition to Komodo Island by W. Douglas Burden in 1926. After returning with 12 preserved specimens and 2 live ones, this expedition provided the inspiration for the 1933 movie King Kong. It was also Burden who coined the common name "Komodo dragon." Three of his specimens were stuffed and are still on display in the American Museum of Natural History.
STUDIES
The Dutch, realizing the limited number of individuals in the wild, outlawed sport hunting and heavily limited the number of individuals taken for scientific study. Collecting expeditions ground to a halt with the occurrence of World War II, not resuming until the 1950s and 1960s, when studies examined the Komodo dragon's feeding behavior, reproduction, and body temperature. At around this time, an expedition was planned in which a long-term study of the Komodo dragon would be undertaken. This task was given to the Auffenberg family, who stayed on Komodo Island for 11 months in 1969. During their stay, Walter Auffenberg and his assistant Putra Sastrawan captured and tagged more than 50 Komodo dragons. The research from the Auffenberg expedition would prove to be enormously influential in raising Komodo dragons in captivity. Research after that of the Auffenberg family has shed more light on the nature of the Komodo dragon, with biologists such as Claudio Ciofi continuing to study the creatures.
CONSERVATION
The Komodo dragon is a vulnerable species and is on the IUCN Red List. There are approximately 4,000 to 5,000 living Komodo dragons in the wild. Their populations are restricted to the islands of Gili Motang (100), Gili Dasami (100), Rinca (1,300), Komodo (1,700), and Flores (perhaps 2,000). However, there are concerns that there may presently be only 350 breeding females. To address these concerns, the Komodo National Park was founded in 1980 to protect Komodo dragon populations on islands including Komodo, Rinca, and Padar. Later, the Wae Wuul and Wolo Tado Reserves were opened on Flores to aid with Komodo dragon conservation.
Komodo dragons avoid encounters with humans. Juveniles are very shy and will flee quickly into a hideout if a human comes closer than about 100 metres. Older animals will also retreat from humans from a shorter distance away. If cornered, they will react aggressively by gaping their mouth, hissing, and swinging their tail. If they are disturbed further, they may start an attack and bite. Although there are anecdotes of unprovoked Komodo dragons attacking or preying on humans, most of these reports are either not reputable or caused by defensive bites. Only a very few cases are truly the result of unprovoked attacks by abnormal individuals, which lost their fear towards humans.
Volcanic activity, earthquakes, loss of habitat, fire, loss of prey due to poaching, tourism, and illegal poaching of the dragons themselves have all contributed to the vulnerable status of the Komodo dragon. Under Appendix I of CITES (the Convention on International Trade in Endangered Species), commercial trade of skins or specimens is illegal.
On Padar, a former population of the Komodo dragon became extinct, of which the last individuals were seen in 1975. It is widely assumed that the Komodo dragon died out on Padar after a strong decline of the populations of large ungulate prey, for which poaching was most likely responsible.
IN CAPTIVITY
Komodo dragons have long been great zoo attractions, where their size and reputation make them popular exhibits. They are, however, rare in zoos because they are susceptible to infection and parasitic disease if captured from the wild, and do not readily reproduce. As of May 2009, there were 13 European, 2 African, 35 North American, 1 Singaporean, and 2 Australian institutions that kept Komodo dragons.
The first Komodo dragons were displayed at London Zoo in 1927. A Komodo dragon was exhibited in 1934 at the National Zoo in Washington, D.C., but it lived for only two years. More attempts to exhibit Komodo dragons were made, but the lifespan of these animals was very short, averaging five years in the National Zoological Park. Studies done by Walter Auffenberg, which were documented in his book The Behavioral Ecology of the Komodo Monitor, eventually allowed for more successful managing and reproducing of the dragons in captivity.
A variety of behaviors have been observed from captive specimens. Most individuals are relatively tame within a short time, and are capable of recognizing individual humans and discriminating between familiar keepers. Komodo dragons have also been observed to engage in play with a variety of objects, including shovels, cans, plastic rings, and shoes. This behavior does not seem to be "food-motivated predatory behavior".
Even seemingly docile dragons may become unpredictably aggressive, especially when the animal's territory is invaded by someone unfamiliar. In June 2001, a Komodo dragon seriously injured Phil Bronstein, the then husband of actress Sharon Stone, when he entered its enclosure at the Los Angeles Zoo after being invited in by its keeper. Bronstein was bitten on his bare foot, as the keeper had told him to take off his white shoes and socks, which the keeper stated could potentially excite the Komodo dragon as they were the same color as the white rats the zoo fed the dragon. Although he escaped, Bronstein needed to have several tendons in his foot reattached surgically.
IN POPULARE CULTURE
Komodo dragons are used as a main theme in Komodo (1999), Curse of the Komodo (2004) and Komodo vs. Cobra (2005).
The comedy team of Bob and Ray performed a popular sketch entitled "The Komodo Dragon Expert."
The plot of the 1990 film, The Freshman, involves a university freshman, an aging mobster and a Komodo dragon.
In the 2012 James Bond film Skyfall, one of the Chinese henchmen in a casino that Bond visits in Macau is overtaken, dragged off and presumably killed by a Komodo dragon.
WIKIPEDIA
Joseph Bell, Chief Engineer on the Titanic was born in Farlam, near Brampton Cumbria. He went down with the ship along with the rest of the engineering crew whilst keeping the power running until the ship finally broke in two Here's his gravestone in Farlam St Thomas a Becket Church, it reads:
JOSEPH BELL aged 51 son of the above Margaret Bell, Chief Engineer of the RMS Titanic, who was lost with all his engineering staff in the foundering of that vessel in the Atlantic Ocean after collision with an iceberg April 15th 1912. Great love hath no man than this, that he lay down his life for his friends
First years and training
Firstborn Son of John Bell, Sr. and Margaret Watson, both agricultural entrepreneurs, Joseph Bell grew up in Farlam, a small village belonging to the Rural District of Brampton, in the county of Cumberland; he had three siblings: Jane (1864), Richard (1865) and John jr. (1868).[1] His mother Margaret died shortly after giving birth to her last child.
Joseph Bell, initially, attended as a child a private elementary school in the village of Farlam and, after the death of his mother, he moved with his father and his brothers to Carlisle, between the districts of Edentown and Stanwix; Joseph and the brothers attended Carlisle's Academy William Harrison. In time, the younger brother John decided to migrate to Australia, embarking on the transatlantic SS Great Britain, while the rest of the family remained in Carlisle.
After leaving Carlisle, Joseph Bell moved to Newcastle, doing apprenticeship as an engine editor at Robert Stephenson and Company.[1] In 1885, Bell was hired by the White Star Line and worked on many ships that traded with New Zealand and the United States. In 1891 he was promoted to chief mechanical engineer.
Sister Jane married William Hugh Lowthian in 1886 and spent many years living in Ripley, Derbyshire, where he was a bank manager. It was probably at this time that Joseph met Maud Bates, whom he married in 1893; the couple had 4 children: Frances John, called Frank (1896), Marjorie Clare (1899), Eileen Maud (1901), and Ralph Douglas (1908).
In 1911, Joseph found lodging in Belfast, along with his wife and younger son. The two daughters remained at Ripley, cared for by both a housekeeper and her uncles (Bell's sister and brother-in-law), while the then fifteen-year-old Frank was studying at the Grosvenor College in Carlisle and later an apprenticeship at the Harland and Wolff shipyards.
On the Titanic
After serving on the Olympic, he transferred to the Titanic, where he was given the post of chief engineer. On the night of April 14, shortly before the Titanic hit an iceberg, Bell received an order from the bridge to either stop or reverse the engines (accounts vary), in an attempt to slow the ship. Despite the crew's best efforts, the Titanic could not avoid the immense block of ice. As the ship began to sink, Bell and the engineers remained in the engine room, urging the stokers and firemen to keep the boilers active, allowing the pumps to continue their work and ensuring the electricity remained on as long as possible. According to legend, Bell and his men worked to keep the lights and the power on in order for distress signals to get out and they all died in the bowels of the Titanic. However, according to the historical record, when it became obvious that nothing more could be done, and the flooding was too severe for the pumps to cope, they all came up onto Titanic's open well deck, but by this time all the lifeboats had already left. Greaser Frederick Scott testified to seeing all the engineers gathered at the aft end of the starboard Boat Deck at the end.[2][3] Bell's body was never recovered.
After Bell's death, the wife and the brother-in-law, William Ralph, inherited the farm of Farlam, of which Joseph had become its full owner since 1904, after his father's death; the farm was immediately sold because both Bell's wife and children never went to Farlam.
At the Church of the Holy Faith in Waterloo, near Liverpool, a plate has been affixed to commemorate Bell; an epitaph was also erected in his memory in the small cemetery of Farlam.
Featherdale Wildlife Park, Sydney, Australia.
Featherdale Wildlife Park is a zoo located in Doonside, near Sydney. The park contains various species native to Australia, and is known to be one of the world's largest collections of Australian fauna. It specialises in Australian native wildlife and birds, as well as reptiles and marsupials.
I would not want to cross this little fellow!
From Wikipedia -
The Tasmanian devil (Sarcophilus harrisii) is a carnivorous marsupial of the family Dasyuridae now found in the wild only in the Australian island state of Tasmania. The size of a small dog, it became the largest carnivorous marsupial in the world following the extinction of the thylacine in 1936. It is characterised by its stocky and muscular build, black fur, pungent odour, extremely loud and disturbing screech, keen sense of smell, and ferocity when feeding. The Tasmanian devil's large head and neck allow it to generate the strongest bite per unit body mass of any living mammal, and it hunts prey and scavenges carrion as well as eating household products if humans are living nearby. Although it is usually solitary, it sometimes eats with other devils and defecates in a communal location. Unlike most other dasyurids, the devil is able to thermoregulate effectively and is active during the middle of the day without overheating. Despite its rotund appearance, the devil is capable of surprising speed and endurance, and can climb trees and swim across rivers.
Although the Tasmanian devil's origins are unclear, it is believed that ancient marsupials migrated to Australia tens of millions of years ago during the time of Gondwana, from what is now South America, and that they evolved as Australia became more arid. Fossils of species similar to modern devils have been found, but it is not known whether they were the ancestors of the contemporary species, or whether the current devils were co-existing species that have now died out. The date that the Tasmanian devil disappeared from the Australian mainland is unclear; most evidence suggests they had contracted to three relict populations around 3000 years ago, however a tooth found in Augusta, Western Australia has been dated to 430 years ago, although archaeologist Oliver Brown disputes this and considers the devil's mainland extinction to have occurred around 3000 years ago.[3] This disappearance is usually blamed on dingoes, which are absent from Tasmania. Because they were seen as a threat to livestock and animals that humans targeted for fur in Tasmania, devils were hunted and became endangered. In 1941, the devils, which were originally seen as implacably vicious, became officially protected. Since then, scientists have contended that earlier concerns that the devils were the most significant threat to livestock were overestimated and misplaced.
Devils are not monogamous, and the reproductive process is very robust and competitive. Males fight one another for the females, and then guard their partners to prevent female infidelity. Females can ovulate three times in as many weeks during the mating season, and 80% of two-year-old females are seen to be pregnant. Females average four breeding seasons in their life and give birth to 20–30 live young after three weeks. The newborn are pink, lack fur, and have indistinct facial features, and they weigh around 0.20 g at birth. As there are only four nipples in the pouch, competition is fierce and few newborns survive. The young grow rapidly and are ejected from the pouch after around 100 days, weighing roughly 200 g. The children become independent after around nine months, so the female spends most of her year in activities related to childbirth and rearing.
Since the late 1990s, devil facial tumour disease has drastically reduced the devil population and now threatens the survival of the species, which in May 2009 was declared to be endangered. Programs are currently being undertaken by the Government of Tasmania to reduce the impact of the disease, including an initiative to build up a group of healthy devils in captivity, isolated from the disease. While the thylacine was extant, it preyed on the devil, which targeted young and unattended thylacine cubs in their dens. Nowadays, the devil is also preyed upon by the illegally introduced red fox, and localised populations of devils have also been severely reduced by collisions with motor vehicles, particularly when they are eating roadkill themselves. The devil is an iconic symbol of Tasmania and many organisations, groups and products associated with the state use the animal in their logos. It is seen as a important attractor of tourists to Tasmania and has come to worldwide attention through the Looney Tunes character of the same name. Due to export restrictions and the failure of overseas devils to breed, there are almost no devils outside Australia except for any that have been illegally smuggled.
Window in memory of Charles Marsden, choirmaster & teacher. One section broken & replaced by board.
“MARSDEN.—On the 14th February, at his son-in-law’s (Mr. H. G. Bolitho) residence, Main North-road, Prospect, Charles Marsden, aged 86 years.” [Express & Telegraph 15 Feb 1921]
“Mr. Charles Marsden . . . was a well known resident of Bowden. He was born in Lancashire. England, and at the age of 30 years he migrated to Australia. For many years Mr. Marsden was employed in the South Australian Railways Department. He was a member of the Star of Freedom Tent, I.O.R., for 55 years. . . a member of the Albert Lodge. . . the choir leader at the Church of the Good .Shepherd, Bowden. . . Three sons, two daughters, and several grandchildren survive.” [Register 16 Feb 1921]
Church foundation stone 1 May 1885 by Dr Kennion, architects Henderson & Marryat, opened 25 Jul 1885, extensions (nave completed & chancel extended) corner stone 5 Feb 1893 by Mrs Kennion, porch foundation stone 8 Mar 1936 by Mrs Everitt, closed, used by gymnastics group, now restored as a church.
George Bills was an Englishman who migrated to Australia, via New Zealand. In Brisbane he met and married Annis Swann from Sheffield, England. The couple had no children but shared a great interest in animal welfare. They ended up in Sydney making a fortune manufacturing mattresses. One thing they thought was important was to see that when a horse came into town there was somewhere for the horse to drink: some troughs also had a dog bowl at the end.
After George's death in 1927 a trust fund of approximately £80,000 was set to manufacture and provide horse troughs wherever they were needed in Australia and the United Kingdom – hence the "Annis and George Bills" trough. Most troughs read "Donated by Annis & George Bills Australia".
The troughs were £13 each plus transport and installation. The majority were installed in Victoria and New South Wales. One exists at St Arnaud, Victoria, another at Newtown, Victoria. One is also at Tunbridge Wells UK.
Reference: ABC Real Stories website and Wikipedia.
This trough sits outside the Old Wenthworth gaol in New South Wales. The small end section contains a tap.
George Bills was an Englishman who migrated to Australia, via New Zealand. In Brisbane he met and married Annis Swann from Sheffield, England. The couple had no children but shared a great interest in animal welfare. They ended up in Sydney making a fortune manufacturing mattresses. One thing they thought was important was to see that when a horse came into town there was somewhere for the horse to drink: some also had a dog bowl at the end.
After George's death in 1927 a trust fund of approximately £80,000 was set to manufacture and provide horse troughs wherever they were needed in Australia and the United Kingdom – hence the "Annis and George Bills" trough. Most troughs read "Donated by Annis & George Bills Australia".
The troughs were £13 each plus transport and installation. The majority were installed in Victoria and New South Wales. One exists at St Arnaud, Victoria, another at Newtown, Victoria. One is also at Tunbridge Wells UK.
Reference: ABC Real Stories website and Wikipedia.
The building was donated to the church by the owners who were cattle merchants. The old long arched church was a holding barn with troughs on either side ,so were the other buildings which were used as acinema and bar and storage. This occured around 1947 1948 and so was the catholic action new home at St. Venera. Fr.Michael Camilleri was the priest in charge and Fra. Luigi Sammut was the other incharge of taking care for all the activities of the church. Fr. Michael migrated to australia and the charge was passed to Fr.Justin Sant and Fr. Marian Farrugia. Also it was the Birth place of the Mt. Carmel Collage by Fr. Manoel Gatt. It leaves a lot of memories for me as a St. Venera born and bred as well as an altar boy.
Sad news today, My Dad passed away this morning back in London Nov 22nd. I’m glad I visited in the summer we all had good time together.
I migrated to Australia back in 2004 so it’s been 20 yrs this year. My parents visited me here in 2019 I took them to Sydney, Melbourne and other places,on one road trip we was walking and he said 'you've done so much with your life and took risks i wish Id been more like you, I said 'Dad you've been a great father that's good enough'. They enjoyed themselves here and was amazed at all the Australian things and when I took them to the airport my dad said as he was going to walk down the tunnel ‘Robert I never want to see you back in UK again' I said Dad ‘What you saying?’ He said ‘You done so well for yourself here that’s why!’
Thanks Dad you will always be loved, missed and most of all remembered. 😥
Amid the brightly coloured non-figurative windows on the southern side of Saint George's Presbyterian Church stands one figurative window. Created by Melbourne stained glass manufacturer Brooks Robinson and Company, the Samuel Lyons McKenzie memorial stained glass window is a fine late example of post-war Art Deco design, still being used commonly in Australia in the period immediately following the Second World War. Installed in 1949 to honour the memory of the congregation’s beloved minister who served from 1930 to 1948, the window is the only one in the church not made by Melbourne manufacturer Ferguson and Urie. Replacing one of the non-figurative stained glass windows by Ferguson and Urie, when this window was made the Victorian powerhouse of stained glass manufacturing had gone out of business. Several businesses filled the gap they left, including Brooks Robinson and Company.
The window depicts a more modern, multicultural, Twentieth Century interpretation of Jesus with the children. Jesus with the children comes from the Book of Matthew, where Jesus said, "Let the little children come to me, and do not hinder them, for the Kingdom of Heaven belongs to such as these." One window depicts Jesus with a young child sitting upon each of his knees, whilst a dark skinned islander child with flowers in their hair sitting at Jesus' feet. On the other window, other children, some in nationalistic costumes, gather to hear Jesus preach including one of Arabic descent, another of Chinese ancestry and two European children. The latter two wear contemporary costumes of children in 1940s Australia. The top round ventilator window emulates the Ferguson and Urie depiction of the Burning Bush; perhaps paying homage to what came before this new window.
The former Saint George's Presbyterian Church, which stands on busy Chapel Street in St Kilda East, is a well known and loved local landmark, not least of all because of its strikingly tall (33.5 metre or 110 foot) banded bell tower which can be spotted from far away. In the Nineteenth Century when it was built, it would have been even more striking for its great height and domineering presence. Designed by architect Albert Purchas, the former Saint George's Presbyterian Church is often referred to as his ecclesiastical tour-de-force, and it is most certainly one of his most dramatic and memorable churches.
The former Saint George's Presbyterian Church was constructed on a plot of land reserved in Chapel Street for the Presbyterian Church of Victoria in 1866. Initially services were held in a small hall whilst fundraising efforts advanced the erection of a church. The architect Albert Purchas was commissioned to design the church and the foundation stone for the western portion of the nave was finally laid in April 1877 by Sir James McCulloch. The first service was held in the church on the 1st of October 1877. The first clergyman of the former Saint George's Presbyterian Church was the Reverend John Laurence Rentoul (father to world renown and much loved Australian children's book illustrator Ida Rentoul Outhwaite). However, the swelling Presbyterian congregation of St Kilda and its surrounding districts quickly outgrew the initial Saint George's Presbyterian Church building, so Albert Purchas was obliged to re-design and enlarge the church to allow a doubling in capacity. Robert S. Ekins was the contractor and his tender was £3000.00. It is this imposing church building, reopened in 1880, that we see today. The "Australasian Sketcher with Pen and Pencil" noted that the total length of the building was 118 feet and 6 inches (36 metres), by 40 foot (12 metres) wide and that the striking octagonal tower to the north-west was 110ft 6 in high. It perhaps reflected better the wealth and aspirations of the congregation.
The former Saint George's Presbyterian Church is constructed on bluestone foundations and is built in an ornate polychromatic Gothic Revival style in the tradition of English designers like William Butterfield and John L. Pearson. Built of red brick building, it is decorated in contrasting cream bricks and Waurn Ponds freestone dressings. It features a slate roof with prominent roof vents, iron ridge cresting and fleche at the intersection of the nave and transepts. The front facade of the church is dominated by the slender, banded octagonal tower topped by a narrow spire. The entrance features a double arched portal portico. The facade also features a dominant triangular epitrochoidal (curved triangular form) rose window. The church, like its bluestone neighbour All Saints Church of England, is built to a T-shaped plan, with an aisleless nave, broad transepts and internal walls of cream brick, relieved with coloured brickwork. The former Saint George's Presbyterian Church was one of the first major church design in Melbourne in which polychrome brickwork was lavishly employed both externally and internally.
The inside of the former Saint George's Presbyterian Church is equally as grand as the exterior, with ornamental Gothic Revival polychromatic brickwork, a lofty vaulted ceiling, deal and kauri pine joinery and pulpit and reredos of Keene's cement. The building originally contained a complete set of Victorian stained glass windows by well known and successful Melbourne manufacturers Ferguson and Urie, all of which remain intact today except for one of the non-figurative windows which was replaced by a memorial window to Samuel Lyons McKenzie, the congregation’s beloved minister, who served from 1930 to 1948, in 1949. The earliest of the Ferguson and Urie windows are non-figurative windows which feature the distinctive diaper pattern and floral motifs of Fergus and Urie's work, and are often argued to be amongst the finest of their non-figurative designs. The large triple window in the chancel was presented by Lady McCulloch in memory of the ‘loved and dead’. Another, in memory of John Kane Smyth, the Vice-Consul for the United States of America in Melbourne, has the American Stars and Stripes on the top ventilator above it. An organ by Thomas C. Lewis of London, one of the leading 19th century English organ builders, was installed in the south transept in 1882. It was designed to blend with its architectural setting, with pipework styled to avoid the obstruction of windows. The action of this organ was altered in 1935, but the pipework, and the original sound, have been retained.
Over the years many spiritual and social activities were instituted at Saint George’s, Presbyterian Church some of short duration such as the Ladies’ Reading Club which operated between 1888 and 1893. There were segregated Bible classes for young men and women, the Presbyterian Women’s Missionary Union, formed in 1892, a cricket club and a floral guild. Guilds teaching physical culture for girls, boys and young men began in 1904. They were entirely financed by John Maclellan and the idea extended to other denominations throughout Victoria. John Maclellan died in 1936 and the guilds ceased at Saint George’s Presbyterian church through lack of funds although in 1977 the members of the girls’ guild were still holding bi-annual reunions and raising money for charity. Sadly, the Presbyterian congregations may have been large in the Nineteenth Century, but by St George's Presbyterian Church's 110th centenary, its doors had already closed during the week due to dwindling numbers and an ageing congregation as a result of the general decline in church attendances after the Second World War exacerbated by the changing nature of St Kilda and the decrease in numbers of residents living in the vicinity of the church. So it stood, forlorn and empty and seemingly nothing more than a relic of a glorious but bygone religious past. However in 1990, Saint Michael's Grammar School across the road leased the Victorian Heritage listed building during weekdays, and it was eventually sold to them in 2015. It now forms part of the school's performing-arts complex, and it has a wonderful new lease of life.
St George's Presbyterian Church is sometimes hired out for performances, and I had the pleasure of receiving an invitation to hear Handel's Messiah performed there in 2009. The ecclesiastical acoustics made the performance all the more magnificent. I remember as I sat on one of the original (hard) kauri pine pews, I looked around me and admired the stained glass and ornamental brickwork. I tried without success over several subsequent years to gain access to the church's interior, settling for photographs of the exterior instead, but it wasn't until 2018 that I was fortunate enough to gain entry to photograph the church's interior. The former St George's Presbyterian Church was opened up to the public for one Sunday morning only as part of Open House Melbourne in July 2018. It was a fantastic morning, and I am very grateful to the staff who manned the church for the day and watched bemused as I photographed the stained glass extensively and in such detail.
Albert Purchas, born in 1825 in Chepstow, Monmouthshire, Wales, was a prominent Nineteenth Century architect who achieved great success for himself in Melbourne. Born to parents Robert Whittlesey Purchas and Marianne Guyon, he migrated to Australia in 1851 to establish himself in the then quickly expanding city of Melbourne, where he set up a small architect's firm in Little Collins Street. He also offered surveying services. His first major building was constructing the mansion "Berkeley Hall" in St Kilda on Princes Street in 1854. The house still exists today. Two years after migrating, Albert designed the layout of the Melbourne General Cemetery in Carlton. It was the first "garden cemetery" in Victoria, and his curvilinear design is still in existence, unaltered, today. In 1854, Albert married Eliza Anne Sawyer (1825 - 1869) in St Kilda. The couple had ten children over their marriage, including a son, Robert, who followed in his father's footsteps as an architect. Albert's brother-in-law, Charles Sawyer joined him in the partnership of Purchas and Sawyer, which existed from 1856 until 1862 in Queens Street. The firm produced more than 140 houses, churches, offices and cemetery buildings including: the nave and transepts of Christ Church St Kilda between 1854 and 1857, "Glenara Homestead"in Bulla in 1857, the Melbourne Savings Bank on the corner of Flinders Lane and Market Street (now demolished) between 1857 and 1858, the Geelong branch of the Bank of Australasia in Malop Street between 1859 and 1860, and Beck's Imperial Hotel in Castlemaine in 1861. When the firm broke up, Albert returned to Little Collins Street, and the best known building he designed during this period was Saint. George's Presbyterian Church in St Kilda East between 1877 and 1880. The church's tall polychomatic brick bell tower is still a local landmark, even in the times of high rise architecture and development, and Saint, George's itself is said to be one of his most striking church designs. Socially, Albert was vice president of the Royal Victorian Institute of Architects for many years, before becoming president in 1887. He was also an inventor and philanthropist. Albert died in 1909 at his home in Kew, a wealthy widower and much loved father.
The sculptures on the Parramatta Road façade of this former brewery building were designed by Sculptor Paul John Beadle (born England 25 November 1917, graduate of Cambridge Art School 1933 and Central School of Arts and Crafts London 1939). The artist migrated to Australia 1945. Among other appointments, he was Principal, South Australian School of Art from 1958 to 1960. The sculptures represent the farmer, the brewer, the drayman and the publican. They were cast in cement at Newcastle Technical College in 1954.
Annis & George Bills horse trough
George Bills was an Englishman who migrated to Australia, via New Zealand. In Brisbane he met and married Annis Swann from Sheffield, England. The couple had no children but shared a great interest in animal welfare. They ended up in Sydney making a fortune manufacturing mattresses. One thing they thought was important was to see that when a horse came into town there was somewhere for the horse to drink: some also had a dog bowl at the end.
After George's death in 1927 a trust fund of approximately £80,000 was set to manufacture and provide horse troughs wherever they were needed in Australia and the United Kingdom – hence the "Annis and George Bills" trough. Most troughs read "Donated by Annis & George Bills Australia".
The troughs were £13 each plus transport and installation. The majority were installed in Victoria and New South Wales. One is also at Tunbridge Wells UK, and many have been preserved in Victoria.
Reference: ABC Real Stories website and Wikipedia.
Joseph Bell, Chief Engineer on the Titanic was born in Farlam, near Brampton Cumbria. He went down with the ship along with the rest of the engineering crew whilst keeping the power running until the ship finally broke in two Here's his gravestone in Farlam St Thomas a Becket Church, it reads:
JOSEPH BELL aged 51 son of the above Margaret Bell, Chief Engineer of the RMS Titanic, who was lost with all his engineering staff in the foundering of that vessel in the Atlantic Ocean after collision with an iceberg April 15th 1912. Great love hath no man than this, that he lay down his life for his friends
First years and training
Firstborn Son of John Bell, Sr. and Margaret Watson, both agricultural entrepreneurs, Joseph Bell grew up in Farlam, a small village belonging to the Rural District of Brampton, in the county of Cumberland; he had three siblings: Jane (1864), Richard (1865) and John jr. (1868).[1] His mother Margaret died shortly after giving birth to her last child.
Joseph Bell, initially, attended as a child a private elementary school in the village of Farlam and, after the death of his mother, he moved with his father and his brothers to Carlisle, between the districts of Edentown and Stanwix; Joseph and the brothers attended Carlisle's Academy William Harrison. In time, the younger brother John decided to migrate to Australia, embarking on the transatlantic SS Great Britain, while the rest of the family remained in Carlisle.
After leaving Carlisle, Joseph Bell moved to Newcastle, doing apprenticeship as an engine editor at Robert Stephenson and Company.[1] In 1885, Bell was hired by the White Star Line and worked on many ships that traded with New Zealand and the United States. In 1891 he was promoted to chief mechanical engineer.
Sister Jane married William Hugh Lowthian in 1886 and spent many years living in Ripley, Derbyshire, where he was a bank manager. It was probably at this time that Joseph met Maud Bates, whom he married in 1893; the couple had 4 children: Frances John, called Frank (1896), Marjorie Clare (1899), Eileen Maud (1901), and Ralph Douglas (1908).
In 1911, Joseph found lodging in Belfast, along with his wife and younger son. The two daughters remained at Ripley, cared for by both a housekeeper and her uncles (Bell's sister and brother-in-law), while the then fifteen-year-old Frank was studying at the Grosvenor College in Carlisle and later an apprenticeship at the Harland and Wolff shipyards.
On the Titanic
After serving on the Olympic, he transferred to the Titanic, where he was given the post of chief engineer. On the night of April 14, shortly before the Titanic hit an iceberg, Bell received an order from the bridge to either stop or reverse the engines (accounts vary), in an attempt to slow the ship. Despite the crew's best efforts, the Titanic could not avoid the immense block of ice. As the ship began to sink, Bell and the engineers remained in the engine room, urging the stokers and firemen to keep the boilers active, allowing the pumps to continue their work and ensuring the electricity remained on as long as possible. According to legend, Bell and his men worked to keep the lights and the power on in order for distress signals to get out and they all died in the bowels of the Titanic. However, according to the historical record, when it became obvious that nothing more could be done, and the flooding was too severe for the pumps to cope, they all came up onto Titanic's open well deck, but by this time all the lifeboats had already left. Greaser Frederick Scott testified to seeing all the engineers gathered at the aft end of the starboard Boat Deck at the end.[2][3] Bell's body was never recovered.
After Bell's death, the wife and the brother-in-law, William Ralph, inherited the farm of Farlam, of which Joseph had become its full owner since 1904, after his father's death; the farm was immediately sold because both Bell's wife and children never went to Farlam.
At the Church of the Holy Faith in Waterloo, near Liverpool, a plate has been affixed to commemorate Bell; an epitaph was also erected in his memory in the small cemetery of Farlam.
More from this set here: www.flickr.com/photos/davidambridge/sets/72157629467082388/
The Silverton School was built in 1889 and had several students and two teachers to a single room. An attached residence was demolished at a later date. Dame Mary Gilmore was an assistant teacher here from 1887 - 1889. With the decline in population across the Silverton township since the 1910s, the school eventually closed in 1970. A museum opened here in 2009, but with limited volunteers, the buildings purpose remains unknown.
Silverton:
The first indication of silver–lead mineralisation in the Barrier Rangers came in late 1875 with the discovery of galena by Julius Charles Nickel and Dan McLean while they were well sinking on Thackaringa Station, near the South Australian - New South Wales border.
In 1879 John Stokie established a store at Umberumberka, 19 km north of Thackaringa. He continued prospecting and discovered silver–lead veins nearby, which he pegged with Edward Pegler in November 1881. A 100 ton parcel of ore was shipped to England for a 40% profit. The following October the Umberumberka Silver Lead Mining Company Ltd was floated with nominal capital of £20 000. Umberumberka was the second area of silver–lead mineralisation discovered in the Barrier Ranges and the new company was the first to be publicly floated. The town of Silverton soon developed close to the mine and became the main settlement of the growing silver field.
Silverton was surveyed in 1883, by which time Australia had a population of 2, 250, 194. By September that year, the population of Silverton was 250, and by December 1883 it had doubled. That year the Day Dream Mine opened and attracted an additional population of 400 - 500 people. In 1884 1,222 mineral leases, 937 business permits and 114 miners' rights were issued. That same year 6,000 tonnes of ore were extracted and the town acquired its own newspaper, the Silver Age.
By 1885 - 1886 the town's population had reached 3,000. Silverton was proclaimed a township in 1885 and a municipality the following year. In 1885 a short-lived smelter was established at Day Dream Mine, operating for only a year. In 1892 the Umberumberka Mine closed, followed by the Day Dream Mine. The Pioneer Mine at Thackaringa closed in 1897. By 1901, after miners had moved to the richer fields at Broken Hill, the town went into decline and only 286 people remained. Today the town has a population of around 50 people, most of whom work in tourism.
The Silverton Tramway Company:
The Silverton Tramway Company, a rare private railway of 50klms in length, was incorporated in New South Wales October 14, 1886 and the line was completed and opened for traffic on January 12, 1888. One of only two privately owned railways in the state, the tramway was originally founded to transport ore from local mines in the Broken Hill and Silverton region into South Australia. The company soon branched out, not only carrying ore from the mines but freighted other goods and offered a passenger service which accounted for a third of their business.
The company serviced travellers on long trips heading interstate to Semaphore (Adelaide) to the Largs Bay Holiday Camp and excursions for local community groups often conveying passengers to Silverton and McCulloch Park (at Stephens Creek) for the day and returning to Broken Hill in the afternoon. When traveling to South Australia the train would travel from Broken Hill, through Silverton and then to Burns which is on the New South Wales side of the border of Cockburn (a town divided by the NSW/SA border).
In 1927 the New South Wales government completed the railway from Sydney to Broken Hill, thus joining the Silverton Tramway and completing the link from Sydney to Adelaide. It played a strategic role in the trans-Australia network until 1970, when it was surpassed by the New South Wales Government Railways (Indian-Pacific). From 1888-1970 it was critical to the economic functioning of Broken Hill, by providing the key transport of ore to the Port Pirie smelters. It played a significant role in the politics and recreation of Broken Hill, and a crucial role at times of water shortage in Broken Hill.
Today, Silverton resides in the Unincorporated Area of New South Wales (NSW) and so does not feature a City Council. It is run by the Silverton Village Committee, who to this day hold their quarterly meetings in the Silverton Municipal Chambers.
Dame Mary Gilmore:
Dame Mary Jean Gilmore (1865 - 1962), writer, was born on the 16th of August 1865 at Mary Vale, Woodhouselee, near Goulburn, New South Wales, eldest child of Donald Cameron, a farmer, born in Inverness-shire, Scotland, and his native-born wife Mary Ann, née Beattie. Her father had migrated to Australia in 1838 from Fort William, and her mother's family had come from County Armagh, Ireland, in 1842. The Camerons and Beatties owned adjoining properties.
Donald Cameron, a wanderer by nature, was in turn a farmer, mail contractor, property manager, carpenter, innkeeper, and builder, moving with his family around south-western New South Wales. Later Mary's mother lived in Sydney and wrote for the Australian Town and Country Journal and the Daily Telegraph. At 7, Mary went to school briefly at Brucedale near Wagga Wagga and at 9 to Wagga Wagga Public School. In 1877 the family moved to Houlaghan's Creek and she attended the school at Downside. For the next four years she was an unofficial pupil-teacher in small schools at Cootamundra, Bungowannah, and Yerong Creek. At 16 she passed a formal entrance examination and began as a probationary pupil-teacher at the Superior Public School, Wagga Wagga. After a period of ill health and failure in a teacher's examination in December 1884, she resigned, but was re-employed in May 1886 at Beaconsfield Provisional School. She was transferred in March 1887 to Illabo Public School. After passing the IIIA teachers' examination, Mary was appointed in October 1887 as temporary assistant at Silverton Public School near Broken Hill. She remained there until December 1889 spending the Christmas vacation of 1888 - 1889 in Sydney with her mother. Mary was transferred to Neutral Bay Public School in January 1890.
Her relationship with Henry Lawson probably began in 1890: in 1923 she recalled that 'It was a strange meeting that between young Lawson and me. I had come down permanently to the city from Silverton'. Her account of an unofficial engagement and Lawson's wish to marry her at the time of his brief trip to Western Australia (May-September 1890) could be accurate regarding dates, but there is no other corroborative evidence. There was clearly, however, a close relationship between them in 1890 - 1895, but it was broken by his frequent absences from Sydney. Mary's later comments on his career were always somewhat proprietorial but the extent of her influence on his literary talents and her contribution to his literary education remain unsubstantiated.
In May 1891, Mary was transferred to Stanmore Superior Public School. She had become involved in the increasing radicalism of the day, supporting the maritime and shearers' strikes as actively as possible for a schoolteacher subject to the strict rules of the Department of Public Instruction. It was her lifelong claim that she had, under her brother John's name, been co-opted to the first executive of the Australian Workers' Union. She assisted William Lane and the New Australia movement, and was largely responsible for overcoming the financial difficulties that threatened to prevent the departure for Paraguay of the Royal Tar on the 16th of July 1893. On the 31st of October 1895 she resigned from teaching and sailed from Sydney in November in the Ruapehu, arriving at the Cosme settlement in Paraguay in January 1896. She married fellow colonist, a Victorian shearer, William Alexander Gilmore (1866 - 1945), at Cosme on the 25th of May 1897 and their only child William Dysart Cameron Gilmore (1898 - 1945) was born on the 21st of August 1898 at Villarica, near Cosme. In August 1899 the Gilmores resigned from Cosme and Will left the settlement to work at various jobs. In November 1900 the family went to Rio Gallegos in southern Patagonia where Will worked on a ranch and Mary gave English lessons. On the 1st of April 1902 they reached England, stayed briefly with Lawson and his family in London, and arrived in Australia in the Karlsruhe in July.
Back in her familiar Sydney environment, Mary was attracted to the busy literary and political scene but, acknowledging her family responsibilities, went with her husband to Strathdownie, near Casterton in western Victoria, where Will's parents had a property. Life there was far from congenial but she had a long-sustained correspondence with Alfred George Stephens of the Bulletin and was delighted to have her life and work featured in the 'Red Page' on the 3rd of October 1903. In 1907 they moved into Casterton where Billy attended school. Mary's long connexion with the Australian Worker began in 1908 when, in response to her request for a special page for women, the editor Hector Lamond invited her to write it herself. She was to edit the 'Women's Page' until the 11th of February 1931. Mary also began campaigning for the Labor Party, helping to have its candidate for the Federal seat of Wannon elected in 1906 and 1910. Her first collection of poems, Marri'd, and other Verses, simple colloquial lyrics, written mainly at Cosme and Casterton, commenting on the joys, hopes, and disappointments of life's daily round, was published in 1910 by George Robertson & Co. Pty Ltd of Melbourne, on the advice of Bernard O'Dowd who professed to be 'simply enraptured with their lyric magic'.
The Gilmores left Casterton in 1912, Mary and her son going to Sydney where she had the security of her Worker position and Billy the opportunity of a secondary education, while Will joined his brother on the land in the Cloncurry district of Queensland. They were rarely reunited in the years that followed, but, loose and impersonal as the husband-wife relationship must have appeared to outside observers, it was always characterized by affection, respect, and abiding mutual interest.
Mary was soon involved in literary activities. A staunch supporter of journals such as the Bulletin, the Lone Hand, and the Book-fellow, she invested her own (borrowed) money in the latter to prevent its closure through bankruptcy. The accounts in 1913 - 1916 of Mary Gilmore trading as the Book-fellow and her correspondence with Stephens indicate the scope of her participation. Her second volume of poetry, the Passionate Heart (1918), reflected her horrified reaction to World War I. Poems such as 'The measure' stress the futility and waste of war, while 'Gallipoli', a deeply felt, imaginative account of that famous battlefield with its scars covered by the recurring miracle of spring, offers consolation to those grieving for the loss of loved ones. She gave the royalties from the Passionate Heart to the soldiers blinded in the war. In 1922 her first book of prose, a collection of essays entitled Hound of the Road, was published. In the early 1920s her health, never robust, became a problem. High blood pressure and heart trouble led to a stay in hospital in Sydney in 1920; she was sent to Goulburn by her doctor to escape the pressure of city life at different times between 1921 and 1924. In 1925 a third volume of verse, the Tilted Cart, appeared; the poems were accompanied by copious notes indicating her keen interest in recording the minutiae of the pioneer past.
Mary Gilmore's final years with the Worker were not placid: she resigned at the end of January 1931. Her book of verse, the Wild Swan, had been published in 1930; its radical themes, together with its anguish over the ravaging of the land by white civilization and the destruction of Aboriginal lore, making it her most impressive work to that point. It was followed in 1931 by the book of largely religious verse, the Rue Tree, which she claimed was a tribute to the Sisters of the Convent of Mercy at Goulburn, and in 1932 by Under the Wilgas. Her twin books of prose reminiscences, Old Days, Old Ways: a Book of Recollections and More Recollections were published in 1934 and 1935. In them she recaptures the spirit and atmosphere of pioneering. These anecdotal accounts which present 'Australia as she was when she was most Australian' are lively and attractive examples of her skill as a prose writer and, although unreliable and romanticized, have become invaluable sources of the legend of the pioneer days.
Over the years Mary Gilmore campaigned in the Worker and any other available forum for a wide range of social and economic reforms, such as votes for women, old-age and invalid pensions, child endowment, and improved treatment of returned servicemen, the poor and deprived and, above all, of Aboriginals. She wrote numerous letters, as well as contributing articles and poems, to the Sydney Morning Herald on these causes and such diverse subjects as the English language, the Prayer Book, earthquakes, Gaelic and the immigration laws, the waratah as a national emblem, the national anthem, and Spanish Australia. All her life she encouraged young writers and enthused over their work. She carried on a prolific correspondence with many friends including Dowell O'Reilly, Hugh McCrae, Nettie Palmer, George Mackaness, Alec Chisholm, and Robert FitzGerald. In 1980 a selection of her letters was published posthumously. She was a founder of the Lyceum Club, Sydney, a founder and vice-president in 1928 of the Fellowship of Australian Writers, an early member of the New South Wales Institute of Journalists and life member of the Royal Society for the Prevention of Cruelty to Animals.
To mark the considerable public acclaim for her literary and social achievements, she was appointed D.B.E. in 1937. Thereafter she was a celebrated public figure. She published a new volume of poems, Battlefields, in 1939. The title referred to her own radical campaigns. During World War II, perched in her Kings Cross flat at 99 Darlinghurst Road, she anathematized German and Japanese ambitions of world domination. She recognized the growing threat to Australia in her stirring call to Australian patriotism, the poem 'No Foe Shall Gather our Harvest', while she castigated Allied incompetence and corruption in the poem 'Singapore', just after its fall. In 1945 her husband and son both died in Queensland.
From 1952 Mary Gilmore was associated with the Communist newspaper Tribune, largely because of her pacifism and her anger at the government's attitude to the Youth Carnival for Peace and Friendship then being staged in Sydney. Her Tribune column 'Arrows' appeared regularly until mid-1962, commenting on contemporary Australian and world affairs. In 1954, as she approached her ninetieth year, she published her final volume of poetry, Fourteen Men. The Australasian Book Society commissioned William Dobell to paint her portrait for her 92nd birthday in 1957. She strongly defended the controversial portrait because she felt it captured something of her ancestry; she donated it to the Art Gallery of New South Wales.
Her last years were made memorable by ever-increasing signs of public esteem. Her birthdays were celebrated publicly by Sydney literati and ordinary folk alike; streets, roads, schools, old people's homes were named after her; literary awards and scholarships were given in her name; visitors from Australia's literary and political world, and overseas admirers, made regular pilgrimages to her; her pronouncements were highlighted by the media; she made television and radio appearances; she led May Day processions as the May Queen. She died on the 3rd of December 1962 (Eureka Day) and, after a state funeral at St Stephen's Presbyterian Church, Macquarie Street, was cremated, her ashes being buried in her husband's grave in the Cloncurry Cemetery, Queensland; she was survived by a grandson. Her estate was valued for probate at £12,023.
Mary Gilmore's significance is both literary and historical. As poet and prose writer she has drawn considerable praise from such connoisseurs of literature as McCrae, FitzGerald, Judith Wright, Douglas Stewart, and Tom Inglis Moore. She wrote too much (often on ephemeral trivia) and too hastily, but her best verse—brief lyrics such as 'Nationality', 'Eve-Song', 'The Tenancy', 'Never Admit the Pain', 'Gallipoli', 'The Flight of the Swans'—are among the permanent gems of Australian poetry. As patriot, feminist, social crusader, and folklorist she has now passed into Australian legend.
Besides the Dobell portrait of Dame Mary Gilmore, the Art Gallery of New South Wales holds one by Joshua Smith and a bronze head by Rayner Hoff; portraits by Eric Saunders and Mary McNiven are held by the National Library of Australia, Canberra.
Source: Silverton NSW (www.aussietowns.com.au/town/silverton-nsw), New South Wales Heritage Register, Discover Broken Hill (discoverbrokenhill.com.au/silverton-nsw/historic-building...), "The pathway to Broken Hill: Early discoveries in the Barrier Ranges, New South Wales, Australia" by Kenneth George McQueen, and 'Aplin, Graeme; S.G. Foster; Michael McKernan, eds. (1987). Australians: Events and Places. Broadway, New South Wales, Australia: Fairfax, Syme & Weldon Associates. p. 97' & Australian Dictionary of Biography.
75-9 Pirie Street Adelaide
Saturday 19 May 1923
The Advertiser (Adelaide, SA : 1889-1931
I have copies of correspondence from the Crown Solicitor, of the Commonwealth of Australia expressing an opinion about the Contract Immigrants ACT 1905 about H. Dawson and Eyes & Crowle Ltd. Adelaide SA 14/10/1910
Eyes & Crowle had contacted their London Agent in 1909 to help Dawson migrate to Australia as a "first-class-mechanic, tester and demonstrator" to work for them. Dawson arrived on the "Medic" in April 1910. He was to be engaged at ₤4-10-0....
This would be about 27,000 pounds today!
All from Ethiopia. Mulatu is hailed as the godfather of "Ethio-jazz" - one of Ethiopea's most influential and legendary musicians. Born in 1943 he has worked as a musician for over 6 decades. Unfortunately he didn't get to perform in Bellingen because the last day of the festival was cancelled due to minor flooding at the site.
Enushu is a singer with Melbourne based 10 piece band - The Black Jesus Experience - she migrated to Australia in 1996.
Saifa also came with his family as a refugee and lives in the little town of Bellingen. He was so keen to meet Mutatu and cooked some authentic dishes and bread for him.
Above is my distance test with my friend Michael Casanova (He's migrating to Australia on 26 April- We'll all miss Him) holding the flash!
Can you see him and the people walking opposite?
The picture was shot using 400D with 24-105 L zoomed out @24mm.
I'm 5'-5" and thats 105 paces, sorry I don't have a long measuring tape.
(Photo NL-4) Photo taken of Pop Smith, Annetta Barone, aged 35 years, Mrs Smith, Joe Sidoti, aged 16 years, born 14 November 1933, Comiso, Provincia Ragusa, Sicily, and migrated to Australia 16 November 1949, Biagio Barone, aged 45 years, Nancy Barone, aged 12 years, Lucy Barone, cousin, aged 15 years, born 6 January 1933, Comiso, Provincia Ragusa, Sicily, and migrated to Australia 19 May 1949, Nancy Barone, (front row) sister to Lucy, aged 18 years, born 14 December 1930, Cosimo, Sicily and migrated to Australia 19 May 1949, and Salvatore Barone, aged 10 years. Pop and Mrs Smith ran the Barber and Umbrella shop next door to the Barone’s fruit shop. Daughter Nancy remembers them as “wonderful, kind and sincere friends.”
The sculptures on the Parramatta Road façade of this former brewery building were designed by Sculptor Paul John Beadle (born England 25 November 1917, graduate of Cambridge Art School 1933 and Central School of Arts and Crafts London 1939). The artist migrated to Australia 1945. Among other appointments, he was Principal, South Australian School of Art from 1958 to 1960. The sculptures represent the farmer, the brewer, the drayman and the publican. They were cast in cement at Newcastle Technical College in 1954.
Small Plover of the coast, seen on beaches, mudflats and sandbars. Migrates to Australia for the southern summer, some stay to winter in the north of the country. Seen on the Esplanade at Cairns, Far North Queensland.
Joseph Bell, the Chief Engineer on the RMS Titanic was born in Farlam, near Brampton, Cumbria.
This is the service of commemoration that took place on Sunday 15th April 2012 marking 100 years since the loss
First years and training
Firstborn Son of John Bell, Sr. and Margaret Watson, both agricultural entrepreneurs, Joseph Bell grew up in Farlam, a small village belonging to the Rural District of Brampton, in the county of Cumberland; he had three siblings: Jane (1864), Richard (1865) and John jr. (1868).[1] His mother Margaret died shortly after giving birth to her last child.
Joseph Bell, initially, attended as a child a private elementary school in the village of Farlam and, after the death of his mother, he moved with his father and his brothers to Carlisle, between the districts of Edentown and Stanwix; Joseph and the brothers attended Carlisle's Academy William Harrison. In time, the younger brother John decided to migrate to Australia, embarking on the transatlantic SS Great Britain, while the rest of the family remained in Carlisle.
After leaving Carlisle, Joseph Bell moved to Newcastle, doing apprenticeship as an engine editor at Robert Stephenson and Company.[1] In 1885, Bell was hired by the White Star Line and worked on many ships that traded with New Zealand and the United States. In 1891 he was promoted to chief mechanical engineer.
Sister Jane married William Hugh Lowthian in 1886 and spent many years living in Ripley, Derbyshire, where he was a bank manager. It was probably at this time that Joseph met Maud Bates, whom he married in 1893; the couple had 4 children: Frances John, called Frank (1896), Marjorie Clare (1899), Eileen Maud (1901), and Ralph Douglas (1908).
In 1911, Joseph found lodging in Belfast, along with his wife and younger son. The two daughters remained at Ripley, cared for by both a housekeeper and her uncles (Bell's sister and brother-in-law), while the then fifteen-year-old Frank was studying at the Grosvenor College in Carlisle and later an apprenticeship at the Harland and Wolff shipyards.
On the Titanic
After serving on the Olympic, he transferred to the Titanic, where he was given the post of chief engineer. On the night of April 14, shortly before the Titanic hit an iceberg, Bell received an order from the bridge to either stop or reverse the engines (accounts vary), in an attempt to slow the ship. Despite the crew's best efforts, the Titanic could not avoid the immense block of ice. As the ship began to sink, Bell and the engineers remained in the engine room, urging the stokers and firemen to keep the boilers active, allowing the pumps to continue their work and ensuring the electricity remained on as long as possible. According to legend, Bell and his men worked to keep the lights and the power on in order for distress signals to get out and they all died in the bowels of the Titanic. However, according to the historical record, when it became obvious that nothing more could be done, and the flooding was too severe for the pumps to cope, they all came up onto Titanic's open well deck, but by this time all the lifeboats had already left. Greaser Frederick Scott testified to seeing all the engineers gathered at the aft end of the starboard Boat Deck at the end.[2][3] Bell's body was never recovered.
After Bell's death, the wife and the brother-in-law, William Ralph, inherited the farm of Farlam, of which Joseph had become its full owner since 1904, after his father's death; the farm was immediately sold because both Bell's wife and children never went to Farlam.
At the Church of the Holy Faith in Waterloo, near Liverpool, a plate has been affixed to commemorate Bell; an epitaph was also erected in his memory in the small cemetery of Farlam.
More from this set here: www.flickr.com/photos/davidambridge/sets/72157629467082388/
The Komodo dragon (Varanus komodoensis), also known as the Komodo monitor, is a large species of lizard found in the Indonesian islands of Komodo, Rinca, Flores, Gili Motang, and Padar. A member of the monitor lizard family Varanidae, it is the largest living species of lizard, growing to a maximum length of 3 metres in rare cases and weighing up to approximately 70 kilograms.
Their unusually large size has been attributed to island gigantism, since no other carnivorous animals fill the niche on the islands where they live. However, recent research suggests the large size of Komodo dragons may be better understood as representative of a relict population of very large varanid lizards that once lived across Indonesia and Australia, most of which, along with other megafauna, died out after the Pleistocene. Fossils very similar to V. komodoensis have been found in Australia dating to greater than 3.8 million years ago, and its body size remained stable on Flores, one of the handful of Indonesian islands where it is currently found, over the last 900,000 years, "a time marked by major faunal turnovers, extinction of the island's megafauna, and the arrival of early hominids by 880 ka [kiloannums]."
As a result of their size, these lizards dominate the ecosystems in which they live. Komodo dragons hunt and ambush prey including invertebrates, birds, and mammals. It has been claimed that they have a venomous bite; there are two glands in the lower jaw which secrete several toxic proteins. The biological significance of these proteins is disputed, but the glands have been shown to secrete an anticoagulant. Komodo dragon group behaviour in hunting is exceptional in the reptile world. The diet of big Komodo dragons mainly consists of deer, though they also eat considerable amounts of carrion. Komodo dragons also occasionally attack humans in the area of West Manggarai Regency where they live in Indonesia.
Mating begins between May and August, and the eggs are laid in September. About 20 eggs are deposited in abandoned megapode nests or in a self-dug nesting hole. The eggs are incubated for seven to eight months, hatching in April, when insects are most plentiful. Young Komodo dragons are vulnerable and therefore dwell in trees, safe from predators and cannibalistic adults. They take 8 to 9 years to mature, and are estimated to live up to 30 years.
Komodo dragons were first recorded by Western scientists in 1910. Their large size and fearsome reputation make them popular zoo exhibits. In the wild, their range has contracted due to human activities, and they are listed as vulnerable by the IUCN. They are protected under Indonesian law, and a national park, Komodo National Park, was founded to aid protection efforts.
ETYMOLOGY
The Komodo dragon is also known as the Komodo monitor or the Komodo Island monitor in scientific literature, although this is not very common. To the natives of Komodo Island, it is referred to as ora, buaya darat (land crocodile), or biawak raksasa (giant monitor).
EVOLUTIONARY HISTORY
The evolutionary development of the Komodo dragon started with the Varanus genus, which originated in Asia about 40 million years ago and migrated to Australia. Around 15 million years ago, a collision between Australia and Southeast Asia allowed the varanids to move into what is now the Indonesian archipelago, extending their range as far east as the island of Timor. The Komodo dragon was believed to have differentiated from its Australian ancestors 4 million years ago. However, recent fossil evidence from Queensland suggests the Komodo dragon evolved in Australia before spreading to Indonesia. Dramatic lowering of sea level during the last glacial period uncovered extensive stretches of continental shelf that the Komodo dragon colonized, becoming isolated in their present island range as sea levels rose afterwards.
DESCRIPTION
In the wild, an adult Komodo dragon usually weighs around 70 kg, although captive specimens often weigh more. According to the Guinness Book of World Records, an average adult male will weigh 79 to 91 kg and measure 2.59 m, while an average female will weigh 68 to 73 kg and measure 2.29 m. The largest verified wild specimen was 3.13 m long and weighed 166 kg, including undigested food. The Komodo dragon has a tail as long as its body, as well as about 60 frequently replaced, serrated teeth that can measure up to 2.5 cm in length. Its saliva is frequently blood-tinged, because its teeth are almost completely covered by gingival tissue that is naturally lacerated during feeding. This creates an ideal culture for the bacteria that live in its mouth. It also has a long, yellow, deeply forked tongue. Komodo dragon skin is reinforced by armoured scales, which contain tiny bones called osteoderms that function as a sort of natural chain-mail. This rugged hide makes Komodo dragon skin poorly suited for making into leather.
SENSES
As with other Varanids, Komodo dragons have only a single ear bone, the stapes, for transferring vibrations from the tympanic membrane to the cochlea. This arrangement means they are likely restricted to sounds in the 400 to 2,000 hertz range, compared to humans who hear between 20 and 20,000 hertz. It was formerly thought to be deaf when a study reported no agitation in wild Komodo dragons in response to whispers, raised voices, or shouts. This was disputed when London Zoological Garden employee Joan Proctor trained a captive specimen to come out to feed at the sound of her voice, even when she could not be seen.
The Komodo dragon can see objects as far away as 300 m, but because its retinas only contain cones, it is thought to have poor night vision. The Komodo dragon is able to see in color, but has poor visual discrimination of stationary objects.
The Komodo dragon uses its tongue to detect, taste, and smell stimuli, as with many other reptiles, with the vomeronasal sense using the Jacobson's organ, rather than using the nostrils. With the help of a favorable wind and its habit of swinging its head from side to side as it walks, a Komodo dragon may be able to detect carrion from 4–9.5 km away. It only has a few taste buds in the back of its throat. Its scales, some of which are reinforced with bone, have sensory plaques connected to nerves to facilitate its sense of touch. The scales around the ears, lips, chin, and soles of the feet may have three or more sensory plaques.
BEHAVIOUR AND ECOLOGY
The Komodo dragon prefers hot and dry places, and typically lives in dry, open grassland, savanna, and tropical forest at low elevations. As an ectotherm, it is most active in the day, although it exhibits some nocturnal activity. Komodo dragons are solitary, coming together only to breed and eat. They are capable of running rapidly in brief sprints up to 20 km/h, diving up to 4.5 m, and climbing trees proficiently when young through use of their strong claws. To catch out-of-reach prey, the Komodo dragon may stand on its hind legs and use its tail as a support. As it matures, its claws are used primarily as weapons, as its great size makes climbing impractical.
For shelter, the Komodo dragon digs holes that can measure from 1–3 m wide with its powerful forelimbs and claws. Because of its large size and habit of sleeping in these burrows, it is able to conserve body heat throughout the night and minimize its basking period the morning after. The Komodo dragon hunts in the afternoon, but stays in the shade during the hottest part of the day. These special resting places, usually located on ridges with cool sea breezes, are marked with droppings and are cleared of vegetation. They serve as strategic locations from which to ambush deer.
DIET
Komodo dragons are carnivores. Although they eat mostly carrion, they will also ambush live prey with a stealthy approach. When suitable prey arrives near a dragon's ambush site, it will suddenly charge at the animal and go for the underside or the throat. It is able to locate its prey using its keen sense of smell, which can locate a dead or dying animal from a range of up to 9.5 km. Komodo dragons have been observed knocking down large pigs and deer with their strong tails.
Komodo dragons eat by tearing large chunks of flesh and swallowing them whole while holding the carcass down with their forelegs. For smaller prey up to the size of a goat, their loosely articulated jaws, flexible skulls, and expandable stomachs allow them to swallow prey whole. The vegetable contents of the stomach and intestines are typically avoided. Copious amounts of red saliva the Komodo dragons produce help to lubricate the food, but swallowing is still a long process (15–20 minutes to swallow a goat). A Komodo dragon may attempt to speed up the process by ramming the carcass against a tree to force it down its throat, sometimes ramming so forcefully, the tree is knocked down. To prevent itself from suffocating while swallowing, it breathes using a small tube under the tongue that connects to the lungs. After eating up to 80% of its body weight in one meal, it drags itself to a sunny location to speed digestion, as the food could rot and poison the dragon if left undigested for too long. Because of their slow metabolism, large dragons can survive on as little as 12 meals a year. After digestion, the Komodo dragon regurgitates a mass of horns, hair, and teeth known as the gastric pellet, which is covered in malodorous mucus. After regurgitating the gastric pellet, it rubs its face in the dirt or on bushes to get rid of the mucus, suggesting, like humans, it does not relish the scent of its own excretions.
The largest animals eat first, while the smaller ones follow a hierarchy. The largest male asserts his dominance and the smaller males show their submission by use of body language and rumbling hisses. Dragons of equal size may resort to "wrestling". Losers usually retreat, though they have been known to be killed and eaten by victors.
The Komodo dragon's diet is wide-ranging, and includes invertebrates, other reptiles (including smaller Komodo dragons), birds, bird eggs, small mammals, monkeys, wild boar, goats, deer, horses, and water buffalo. Young Komodos will eat insects, eggs, geckos, and small mammals. Occasionally, they consume humans and human corpses, digging up bodies from shallow graves. This habit of raiding graves caused the villagers of Komodo to move their graves from sandy to clay ground and pile rocks on top of them to deter the lizards. The Komodo dragon may have evolved to feed on the extinct dwarf elephant Stegodon that once lived on Flores, according to evolutionary biologist Jared Diamond.
The Komodo dragon drinks by sucking water into its mouth via buccal pumping (a process also used for respiration), lifting its head, and letting the water run down its throat.
SALIVA
Auffenberg described the Komodo dragon as having septic pathogens in its saliva (he described the saliva as "reddish and copious"), specifically the bacteria E. coli, Staphylococcus sp., Providencia sp., Proteus morgani, and P. mirabilis. He noted, while these pathogens can be found in the mouths of wild Komodo dragons, they disappear from the mouths of captive animals, due to cleaner diets and the use of antibiotics. This was verified by taking mucous samples from the external gum surfaces of the upper jaws of two freshly captured individuals. Saliva samples were analyzed by researchers at the University of Texas, who found 57 strains of bacteria growing in the mouths of three wild Komodo dragons, including Pasteurella multocida. The rapid growth of these bacteria was noted by Fredeking: "Normally it takes about three days for a sample of P. multocida to cover a Petri dish; ours took eight hours. We were very taken aback by how virulent these strains were". This study supported the observation that wounds inflicted by the Komodo dragon are often associated with sepsis and subsequent infections in prey animals. How the Komodo dragon is unaffected by these virulent bacteria remains a mystery.Research in 2013 suggested that the bacteria in the mouths of komodo dragons are ordinary and similar to those found in other carnivores. They actually have surprisingly good mouth hygiene. As Bryan Fry put it: "After they are done feeding, they will spend 10 to 15 minutes lip-licking and rubbing their head in the leaves to clean their mouth... Unlike people have been led to believe, they do not have chunks of rotting flesh from their meals on their teeth, cultivating bacteria." The observation of prey dying of sepsis would then be explained by the natural instinct of water buffalos, who are not native to the islands where the Komodo dragon lives, to run into water when attacked. The warm, feces filled water would then cause the infections. The study used samples from 16 captive dragons (10 adults and six neonates) from three U.S. zoos.
VENOM
In late 2005, researchers at the University of Melbourne speculated the perentie (Varanus giganteus), other species of monitors, and agamids may be somewhat venomous. The team believes the immediate effects of bites from these lizards were caused by mild envenomation. Bites on human digits by a lace monitor (V. varius), a Komodo dragon, and a spotted tree monitor (V. scalaris) all produced similar effects: rapid swelling, localized disruption of blood clotting, and shooting pain up to the elbow, with some symptoms lasting for several hours.
In 2009, the same researchers published further evidence demonstrating Komodo dragons possess a venomous bite. MRI scans of a preserved skull showed the presence of two glands in the lower jaw. The researchers extracted one of these glands from the head of a terminally ill specimen in the Singapore Zoological Gardens, and found it secreted several different toxic proteins. The known functions of these proteins include inhibition of blood clotting, lowering of blood pressure, muscle paralysis, and the induction of hypothermia, leading to shock and loss of consciousness in envenomated prey. As a result of the discovery, the previous theory that bacteria were responsible for the deaths of Komodo victims was disputed.
Kurt Schwenk, an evolutionary biologist at the University of Connecticut, finds the discovery of these glands intriguing, but considers most of the evidence for venom in the study to be "meaningless, irrelevant, incorrect or falsely misleading". Even if the lizards have venom-like proteins in their mouths, Schwenk argues, they may be using them for a different function, and he doubts venom is necessary to explain the effect of a Komodo dragon bite, arguing that shock and blood loss are the primary factors.
Other scientists such as Washington State University's Biologist Kenneth V. Kardong and Toxicologists Scott A. Weinstein and Tamara L. Smith, have stated that this allegation of venom glands "has had the effect of underestimating the variety of complex roles played by oral secretions in the biology of reptiles, produced a very narrow view of oral secretions and resulted in misinterpretation of reptilian evolution". According to these scientists "reptilian oral secretions contribute to many biological roles other than to quickly dispatch prey". These researchers concluded that, "Calling all in this clade venomous implies an overall potential danger that does not exist, misleads in the assessment of medical risks, and confuses the biological assessment of squamate biochemical systems".
REPRODUCTION
Mating occurs between May and August, with the eggs laid in September. During this period, males fight over females and territory by grappling with one another upon their hind legs, with the loser eventually being pinned to the ground. These males may vomit or defecate when preparing for the fight. The winner of the fight will then flick his long tongue at the female to gain information about her receptivity. Females are antagonistic and resist with their claws and teeth during the early phases of courtship. Therefore, the male must fully restrain the female during coitus to avoid being hurt. Other courtship displays include males rubbing their chins on the female, hard scratches to the back, and licking. Copulation occurs when the male inserts one of his hemipenes into the female's cloaca. Komodo dragons may be monogamous and form "pair bonds", a rare behavior for lizards. Female Komodos lay their eggs from August to September and may use several types of locality; in one study, 60% laid their eggs in the nests of orange-footed scrubfowl (a moundbuilder or megapode), 20% on ground level and 20% in hilly areas. The females make many camouflage nests/holes to prevent other dragons from eating the eggs. Clutches contain an average of 20 eggs, which have an incubation period of 7–8 months. Hatching is an exhausting effort for the neonates, which break out of their eggshells with an egg tooth that falls off soon after. After cutting themselves out, the hatchlings may lie in their eggshells for hours before starting to dig out of the nest. They are born quite defenseless and are vulnerable to predation. Sixteen youngsters from a single nest were on average 46.5 cm long and weighed 105.1 grams. Young Komodo dragons spend much of their first few years in trees, where they are relatively safe from predators, including cannibalistic adults, as juvenile dragons make up 10% of their diets. The habit of cannibalism may be advantageous in sustaining the large size of adults, as medium-sized prey on the islands is rare. When the young approach a kill, they roll around in fecal matter and rest in the intestines of eviscerated animals to deter these hungry adults. Komodo dragons take approximately three to five years to mature, and may live for up to 50 years.
PARTHENOGENESIS
A Komodo dragon at London Zoo named Sungai laid a clutch of eggs in late 2005 after being separated from male company for more than two years. Scientists initially assumed she had been able to store sperm from her earlier encounter with a male, an adaptation known as superfecundation. On 20 December 2006, it was reported that Flora, a captive Komodo dragon living in the Chester Zoo in England, was the second known Komodo dragon to have laid unfertilized eggs: she laid 11 eggs, and seven of them hatched, all of them male. Scientists at Liverpool University in England performed genetic tests on three eggs that collapsed after being moved to an incubator, and verified Flora had never been in physical contact with a male dragon. After Flora's eggs' condition had been discovered, testing showed Sungai's eggs were also produced without outside fertilization. On 31 January 2008, the Sedgwick County Zoo in Wichita, Kansas, became the first zoo in the Americas to document parthenogenesis in Komodo dragons. The zoo has two adult female Komodo dragons, one of which laid about 17 eggs on 19–20 May 2007. Only two eggs were incubated and hatched due to space issues; the first hatched on 31 January 2008, while the second hatched on 1 February. Both hatchlings were males.
Komodo dragons have the ZW chromosomal sex-determination system, as opposed to the mammalian XY system. Male progeny prove Flora's unfertilized eggs were haploid (n) and doubled their chromosomes later to become diploid (2n) (by being fertilized by a polar body, or by chromosome duplication without cell division), rather than by her laying diploid eggs by one of the meiosis reduction-divisions in her ovaries failing. When a female Komodo dragon (with ZW sex chromosomes) reproduces in this manner, she provides her progeny with only one chromosome from each of her pairs of chromosomes, including only one of her two sex chromosomes. This single set of chromosomes is duplicated in the egg, which develops parthenogenetically. Eggs receiving a Z chromosome become ZZ (male); those receiving a W chromosome become WW and fail to develop, meaning that only males are produced by parthenogenesis in this species.
It has been hypothesized that this reproductive adaptation allows a single female to enter an isolated ecological niche (such as an island) and by parthenogenesis produce male offspring, thereby establishing a sexually reproducing population (via reproduction with her offspring that can result in both male and female young). Despite the advantages of such an adaptation, zoos are cautioned that parthenogenesis may be detrimental to genetic diversity.
HISTORY
DISCOVERY BY THE WESTERN WORLD
Komodo dragons were first documented by Europeans in 1910, when rumors of a "land crocodile" reached Lieutenant van Steyn van Hensbroek of the Dutch colonial administration. Widespread notoriety came after 1912, when Peter Ouwens, the director of the Zoological Museum at Bogor, Java, published a paper on the topic after receiving a photo and a skin from the lieutenant, as well as two other specimens from a collector. The first two live Komodo dragons to arrive in Europe were exhibited in the Reptile House at London Zoo when it opened in 1927. Joan Beauchamp Procter made some of the earliest observations of these animals in captivity and she demonstrated the behaviour of one of these animals at a Scientific Meeting of the Zoological Society of London in 1928. The Komodo dragon was the driving factor for an expedition to Komodo Island by W. Douglas Burden in 1926. After returning with 12 preserved specimens and 2 live ones, this expedition provided the inspiration for the 1933 movie King Kong. It was also Burden who coined the common name "Komodo dragon." Three of his specimens were stuffed and are still on display in the American Museum of Natural History.
STUDIES
The Dutch, realizing the limited number of individuals in the wild, outlawed sport hunting and heavily limited the number of individuals taken for scientific study. Collecting expeditions ground to a halt with the occurrence of World War II, not resuming until the 1950s and 1960s, when studies examined the Komodo dragon's feeding behavior, reproduction, and body temperature. At around this time, an expedition was planned in which a long-term study of the Komodo dragon would be undertaken. This task was given to the Auffenberg family, who stayed on Komodo Island for 11 months in 1969. During their stay, Walter Auffenberg and his assistant Putra Sastrawan captured and tagged more than 50 Komodo dragons. The research from the Auffenberg expedition would prove to be enormously influential in raising Komodo dragons in captivity. Research after that of the Auffenberg family has shed more light on the nature of the Komodo dragon, with biologists such as Claudio Ciofi continuing to study the creatures.
CONSERVATION
The Komodo dragon is a vulnerable species and is on the IUCN Red List. There are approximately 4,000 to 5,000 living Komodo dragons in the wild. Their populations are restricted to the islands of Gili Motang (100), Gili Dasami (100), Rinca (1,300), Komodo (1,700), and Flores (perhaps 2,000). However, there are concerns that there may presently be only 350 breeding females. To address these concerns, the Komodo National Park was founded in 1980 to protect Komodo dragon populations on islands including Komodo, Rinca, and Padar. Later, the Wae Wuul and Wolo Tado Reserves were opened on Flores to aid with Komodo dragon conservation.
Komodo dragons avoid encounters with humans. Juveniles are very shy and will flee quickly into a hideout if a human comes closer than about 100 metres. Older animals will also retreat from humans from a shorter distance away. If cornered, they will react aggressively by gaping their mouth, hissing, and swinging their tail. If they are disturbed further, they may start an attack and bite. Although there are anecdotes of unprovoked Komodo dragons attacking or preying on humans, most of these reports are either not reputable or caused by defensive bites. Only a very few cases are truly the result of unprovoked attacks by abnormal individuals, which lost their fear towards humans.
Volcanic activity, earthquakes, loss of habitat, fire, loss of prey due to poaching, tourism, and illegal poaching of the dragons themselves have all contributed to the vulnerable status of the Komodo dragon. Under Appendix I of CITES (the Convention on International Trade in Endangered Species), commercial trade of skins or specimens is illegal.
On Padar, a former population of the Komodo dragon became extinct, of which the last individuals were seen in 1975. It is widely assumed that the Komodo dragon died out on Padar after a strong decline of the populations of large ungulate prey, for which poaching was most likely responsible.
IN CAPTIVITY
Komodo dragons have long been great zoo attractions, where their size and reputation make them popular exhibits. They are, however, rare in zoos because they are susceptible to infection and parasitic disease if captured from the wild, and do not readily reproduce. As of May 2009, there were 13 European, 2 African, 35 North American, 1 Singaporean, and 2 Australian institutions that kept Komodo dragons.
The first Komodo dragons were displayed at London Zoo in 1927. A Komodo dragon was exhibited in 1934 at the National Zoo in Washington, D.C., but it lived for only two years. More attempts to exhibit Komodo dragons were made, but the lifespan of these animals was very short, averaging five years in the National Zoological Park. Studies done by Walter Auffenberg, which were documented in his book The Behavioral Ecology of the Komodo Monitor, eventually allowed for more successful managing and reproducing of the dragons in captivity.
A variety of behaviors have been observed from captive specimens. Most individuals are relatively tame within a short time, and are capable of recognizing individual humans and discriminating between familiar keepers. Komodo dragons have also been observed to engage in play with a variety of objects, including shovels, cans, plastic rings, and shoes. This behavior does not seem to be "food-motivated predatory behavior".
Even seemingly docile dragons may become unpredictably aggressive, especially when the animal's territory is invaded by someone unfamiliar. In June 2001, a Komodo dragon seriously injured Phil Bronstein, the then husband of actress Sharon Stone, when he entered its enclosure at the Los Angeles Zoo after being invited in by its keeper. Bronstein was bitten on his bare foot, as the keeper had told him to take off his white shoes and socks, which the keeper stated could potentially excite the Komodo dragon as they were the same color as the white rats the zoo fed the dragon. Although he escaped, Bronstein needed to have several tendons in his foot reattached surgically.
IN POPULARE CULTURE
Komodo dragons are used as a main theme in Komodo (1999), Curse of the Komodo (2004) and Komodo vs. Cobra (2005).
The comedy team of Bob and Ray performed a popular sketch entitled "The Komodo Dragon Expert."
The plot of the 1990 film, The Freshman, involves a university freshman, an aging mobster and a Komodo dragon.
In the 2012 James Bond film Skyfall, one of the Chinese henchmen in a casino that Bond visits in Macau is overtaken, dragged off and presumably killed by a Komodo dragon.
WIKIPEDIA
The Komodo dragon (Varanus komodoensis), also known as the Komodo monitor, is a large species of lizard found in the Indonesian islands of Komodo, Rinca, Flores, Gili Motang, and Padar. A member of the monitor lizard family Varanidae, it is the largest living species of lizard, growing to a maximum length of 3 metres in rare cases and weighing up to approximately 70 kilograms.
Their unusually large size has been attributed to island gigantism, since no other carnivorous animals fill the niche on the islands where they live. However, recent research suggests the large size of Komodo dragons may be better understood as representative of a relict population of very large varanid lizards that once lived across Indonesia and Australia, most of which, along with other megafauna, died out after the Pleistocene. Fossils very similar to V. komodoensis have been found in Australia dating to greater than 3.8 million years ago, and its body size remained stable on Flores, one of the handful of Indonesian islands where it is currently found, over the last 900,000 years, "a time marked by major faunal turnovers, extinction of the island's megafauna, and the arrival of early hominids by 880 ka [kiloannums]."
As a result of their size, these lizards dominate the ecosystems in which they live. Komodo dragons hunt and ambush prey including invertebrates, birds, and mammals. It has been claimed that they have a venomous bite; there are two glands in the lower jaw which secrete several toxic proteins. The biological significance of these proteins is disputed, but the glands have been shown to secrete an anticoagulant. Komodo dragon group behaviour in hunting is exceptional in the reptile world. The diet of big Komodo dragons mainly consists of deer, though they also eat considerable amounts of carrion. Komodo dragons also occasionally attack humans in the area of West Manggarai Regency where they live in Indonesia.
Mating begins between May and August, and the eggs are laid in September. About 20 eggs are deposited in abandoned megapode nests or in a self-dug nesting hole. The eggs are incubated for seven to eight months, hatching in April, when insects are most plentiful. Young Komodo dragons are vulnerable and therefore dwell in trees, safe from predators and cannibalistic adults. They take 8 to 9 years to mature, and are estimated to live up to 30 years.
Komodo dragons were first recorded by Western scientists in 1910. Their large size and fearsome reputation make them popular zoo exhibits. In the wild, their range has contracted due to human activities, and they are listed as vulnerable by the IUCN. They are protected under Indonesian law, and a national park, Komodo National Park, was founded to aid protection efforts.
ETYMOLOGY
The Komodo dragon is also known as the Komodo monitor or the Komodo Island monitor in scientific literature, although this is not very common. To the natives of Komodo Island, it is referred to as ora, buaya darat (land crocodile), or biawak raksasa (giant monitor).
EVOLUTIONARY HISTORY
The evolutionary development of the Komodo dragon started with the Varanus genus, which originated in Asia about 40 million years ago and migrated to Australia. Around 15 million years ago, a collision between Australia and Southeast Asia allowed the varanids to move into what is now the Indonesian archipelago, extending their range as far east as the island of Timor. The Komodo dragon was believed to have differentiated from its Australian ancestors 4 million years ago. However, recent fossil evidence from Queensland suggests the Komodo dragon evolved in Australia before spreading to Indonesia. Dramatic lowering of sea level during the last glacial period uncovered extensive stretches of continental shelf that the Komodo dragon colonized, becoming isolated in their present island range as sea levels rose afterwards.
DESCRIPTION
In the wild, an adult Komodo dragon usually weighs around 70 kg, although captive specimens often weigh more. According to the Guinness Book of World Records, an average adult male will weigh 79 to 91 kg and measure 2.59 m, while an average female will weigh 68 to 73 kg and measure 2.29 m. The largest verified wild specimen was 3.13 m long and weighed 166 kg, including undigested food. The Komodo dragon has a tail as long as its body, as well as about 60 frequently replaced, serrated teeth that can measure up to 2.5 cm in length. Its saliva is frequently blood-tinged, because its teeth are almost completely covered by gingival tissue that is naturally lacerated during feeding. This creates an ideal culture for the bacteria that live in its mouth. It also has a long, yellow, deeply forked tongue. Komodo dragon skin is reinforced by armoured scales, which contain tiny bones called osteoderms that function as a sort of natural chain-mail. This rugged hide makes Komodo dragon skin poorly suited for making into leather.
SENSES
As with other Varanids, Komodo dragons have only a single ear bone, the stapes, for transferring vibrations from the tympanic membrane to the cochlea. This arrangement means they are likely restricted to sounds in the 400 to 2,000 hertz range, compared to humans who hear between 20 and 20,000 hertz. It was formerly thought to be deaf when a study reported no agitation in wild Komodo dragons in response to whispers, raised voices, or shouts. This was disputed when London Zoological Garden employee Joan Proctor trained a captive specimen to come out to feed at the sound of her voice, even when she could not be seen.
The Komodo dragon can see objects as far away as 300 m, but because its retinas only contain cones, it is thought to have poor night vision. The Komodo dragon is able to see in color, but has poor visual discrimination of stationary objects.
The Komodo dragon uses its tongue to detect, taste, and smell stimuli, as with many other reptiles, with the vomeronasal sense using the Jacobson's organ, rather than using the nostrils. With the help of a favorable wind and its habit of swinging its head from side to side as it walks, a Komodo dragon may be able to detect carrion from 4–9.5 km away. It only has a few taste buds in the back of its throat. Its scales, some of which are reinforced with bone, have sensory plaques connected to nerves to facilitate its sense of touch. The scales around the ears, lips, chin, and soles of the feet may have three or more sensory plaques.
BEHAVIOUR AND ECOLOGY
The Komodo dragon prefers hot and dry places, and typically lives in dry, open grassland, savanna, and tropical forest at low elevations. As an ectotherm, it is most active in the day, although it exhibits some nocturnal activity. Komodo dragons are solitary, coming together only to breed and eat. They are capable of running rapidly in brief sprints up to 20 km/h, diving up to 4.5 m, and climbing trees proficiently when young through use of their strong claws. To catch out-of-reach prey, the Komodo dragon may stand on its hind legs and use its tail as a support. As it matures, its claws are used primarily as weapons, as its great size makes climbing impractical.
For shelter, the Komodo dragon digs holes that can measure from 1–3 m wide with its powerful forelimbs and claws. Because of its large size and habit of sleeping in these burrows, it is able to conserve body heat throughout the night and minimize its basking period the morning after. The Komodo dragon hunts in the afternoon, but stays in the shade during the hottest part of the day. These special resting places, usually located on ridges with cool sea breezes, are marked with droppings and are cleared of vegetation. They serve as strategic locations from which to ambush deer.
DIET
Komodo dragons are carnivores. Although they eat mostly carrion, they will also ambush live prey with a stealthy approach. When suitable prey arrives near a dragon's ambush site, it will suddenly charge at the animal and go for the underside or the throat. It is able to locate its prey using its keen sense of smell, which can locate a dead or dying animal from a range of up to 9.5 km. Komodo dragons have been observed knocking down large pigs and deer with their strong tails.
Komodo dragons eat by tearing large chunks of flesh and swallowing them whole while holding the carcass down with their forelegs. For smaller prey up to the size of a goat, their loosely articulated jaws, flexible skulls, and expandable stomachs allow them to swallow prey whole. The vegetable contents of the stomach and intestines are typically avoided. Copious amounts of red saliva the Komodo dragons produce help to lubricate the food, but swallowing is still a long process (15–20 minutes to swallow a goat). A Komodo dragon may attempt to speed up the process by ramming the carcass against a tree to force it down its throat, sometimes ramming so forcefully, the tree is knocked down. To prevent itself from suffocating while swallowing, it breathes using a small tube under the tongue that connects to the lungs. After eating up to 80% of its body weight in one meal, it drags itself to a sunny location to speed digestion, as the food could rot and poison the dragon if left undigested for too long. Because of their slow metabolism, large dragons can survive on as little as 12 meals a year. After digestion, the Komodo dragon regurgitates a mass of horns, hair, and teeth known as the gastric pellet, which is covered in malodorous mucus. After regurgitating the gastric pellet, it rubs its face in the dirt or on bushes to get rid of the mucus, suggesting, like humans, it does not relish the scent of its own excretions.
The largest animals eat first, while the smaller ones follow a hierarchy. The largest male asserts his dominance and the smaller males show their submission by use of body language and rumbling hisses. Dragons of equal size may resort to "wrestling". Losers usually retreat, though they have been known to be killed and eaten by victors.
The Komodo dragon's diet is wide-ranging, and includes invertebrates, other reptiles (including smaller Komodo dragons), birds, bird eggs, small mammals, monkeys, wild boar, goats, deer, horses, and water buffalo. Young Komodos will eat insects, eggs, geckos, and small mammals. Occasionally, they consume humans and human corpses, digging up bodies from shallow graves. This habit of raiding graves caused the villagers of Komodo to move their graves from sandy to clay ground and pile rocks on top of them to deter the lizards. The Komodo dragon may have evolved to feed on the extinct dwarf elephant Stegodon that once lived on Flores, according to evolutionary biologist Jared Diamond.
The Komodo dragon drinks by sucking water into its mouth via buccal pumping (a process also used for respiration), lifting its head, and letting the water run down its throat.
SALIVA
Auffenberg described the Komodo dragon as having septic pathogens in its saliva (he described the saliva as "reddish and copious"), specifically the bacteria E. coli, Staphylococcus sp., Providencia sp., Proteus morgani, and P. mirabilis. He noted, while these pathogens can be found in the mouths of wild Komodo dragons, they disappear from the mouths of captive animals, due to cleaner diets and the use of antibiotics. This was verified by taking mucous samples from the external gum surfaces of the upper jaws of two freshly captured individuals. Saliva samples were analyzed by researchers at the University of Texas, who found 57 strains of bacteria growing in the mouths of three wild Komodo dragons, including Pasteurella multocida. The rapid growth of these bacteria was noted by Fredeking: "Normally it takes about three days for a sample of P. multocida to cover a Petri dish; ours took eight hours. We were very taken aback by how virulent these strains were". This study supported the observation that wounds inflicted by the Komodo dragon are often associated with sepsis and subsequent infections in prey animals. How the Komodo dragon is unaffected by these virulent bacteria remains a mystery.Research in 2013 suggested that the bacteria in the mouths of komodo dragons are ordinary and similar to those found in other carnivores. They actually have surprisingly good mouth hygiene. As Bryan Fry put it: "After they are done feeding, they will spend 10 to 15 minutes lip-licking and rubbing their head in the leaves to clean their mouth... Unlike people have been led to believe, they do not have chunks of rotting flesh from their meals on their teeth, cultivating bacteria." The observation of prey dying of sepsis would then be explained by the natural instinct of water buffalos, who are not native to the islands where the Komodo dragon lives, to run into water when attacked. The warm, feces filled water would then cause the infections. The study used samples from 16 captive dragons (10 adults and six neonates) from three U.S. zoos.
VENOM
In late 2005, researchers at the University of Melbourne speculated the perentie (Varanus giganteus), other species of monitors, and agamids may be somewhat venomous. The team believes the immediate effects of bites from these lizards were caused by mild envenomation. Bites on human digits by a lace monitor (V. varius), a Komodo dragon, and a spotted tree monitor (V. scalaris) all produced similar effects: rapid swelling, localized disruption of blood clotting, and shooting pain up to the elbow, with some symptoms lasting for several hours.
In 2009, the same researchers published further evidence demonstrating Komodo dragons possess a venomous bite. MRI scans of a preserved skull showed the presence of two glands in the lower jaw. The researchers extracted one of these glands from the head of a terminally ill specimen in the Singapore Zoological Gardens, and found it secreted several different toxic proteins. The known functions of these proteins include inhibition of blood clotting, lowering of blood pressure, muscle paralysis, and the induction of hypothermia, leading to shock and loss of consciousness in envenomated prey. As a result of the discovery, the previous theory that bacteria were responsible for the deaths of Komodo victims was disputed.
Kurt Schwenk, an evolutionary biologist at the University of Connecticut, finds the discovery of these glands intriguing, but considers most of the evidence for venom in the study to be "meaningless, irrelevant, incorrect or falsely misleading". Even if the lizards have venom-like proteins in their mouths, Schwenk argues, they may be using them for a different function, and he doubts venom is necessary to explain the effect of a Komodo dragon bite, arguing that shock and blood loss are the primary factors.
Other scientists such as Washington State University's Biologist Kenneth V. Kardong and Toxicologists Scott A. Weinstein and Tamara L. Smith, have stated that this allegation of venom glands "has had the effect of underestimating the variety of complex roles played by oral secretions in the biology of reptiles, produced a very narrow view of oral secretions and resulted in misinterpretation of reptilian evolution". According to these scientists "reptilian oral secretions contribute to many biological roles other than to quickly dispatch prey". These researchers concluded that, "Calling all in this clade venomous implies an overall potential danger that does not exist, misleads in the assessment of medical risks, and confuses the biological assessment of squamate biochemical systems".
REPRODUCTION
Mating occurs between May and August, with the eggs laid in September. During this period, males fight over females and territory by grappling with one another upon their hind legs, with the loser eventually being pinned to the ground. These males may vomit or defecate when preparing for the fight. The winner of the fight will then flick his long tongue at the female to gain information about her receptivity. Females are antagonistic and resist with their claws and teeth during the early phases of courtship. Therefore, the male must fully restrain the female during coitus to avoid being hurt. Other courtship displays include males rubbing their chins on the female, hard scratches to the back, and licking. Copulation occurs when the male inserts one of his hemipenes into the female's cloaca. Komodo dragons may be monogamous and form "pair bonds", a rare behavior for lizards. Female Komodos lay their eggs from August to September and may use several types of locality; in one study, 60% laid their eggs in the nests of orange-footed scrubfowl (a moundbuilder or megapode), 20% on ground level and 20% in hilly areas. The females make many camouflage nests/holes to prevent other dragons from eating the eggs. Clutches contain an average of 20 eggs, which have an incubation period of 7–8 months. Hatching is an exhausting effort for the neonates, which break out of their eggshells with an egg tooth that falls off soon after. After cutting themselves out, the hatchlings may lie in their eggshells for hours before starting to dig out of the nest. They are born quite defenseless and are vulnerable to predation. Sixteen youngsters from a single nest were on average 46.5 cm long and weighed 105.1 grams. Young Komodo dragons spend much of their first few years in trees, where they are relatively safe from predators, including cannibalistic adults, as juvenile dragons make up 10% of their diets. The habit of cannibalism may be advantageous in sustaining the large size of adults, as medium-sized prey on the islands is rare. When the young approach a kill, they roll around in fecal matter and rest in the intestines of eviscerated animals to deter these hungry adults. Komodo dragons take approximately three to five years to mature, and may live for up to 50 years.
PARTHENOGENESIS
A Komodo dragon at London Zoo named Sungai laid a clutch of eggs in late 2005 after being separated from male company for more than two years. Scientists initially assumed she had been able to store sperm from her earlier encounter with a male, an adaptation known as superfecundation. On 20 December 2006, it was reported that Flora, a captive Komodo dragon living in the Chester Zoo in England, was the second known Komodo dragon to have laid unfertilized eggs: she laid 11 eggs, and seven of them hatched, all of them male. Scientists at Liverpool University in England performed genetic tests on three eggs that collapsed after being moved to an incubator, and verified Flora had never been in physical contact with a male dragon. After Flora's eggs' condition had been discovered, testing showed Sungai's eggs were also produced without outside fertilization. On 31 January 2008, the Sedgwick County Zoo in Wichita, Kansas, became the first zoo in the Americas to document parthenogenesis in Komodo dragons. The zoo has two adult female Komodo dragons, one of which laid about 17 eggs on 19–20 May 2007. Only two eggs were incubated and hatched due to space issues; the first hatched on 31 January 2008, while the second hatched on 1 February. Both hatchlings were males.
Komodo dragons have the ZW chromosomal sex-determination system, as opposed to the mammalian XY system. Male progeny prove Flora's unfertilized eggs were haploid (n) and doubled their chromosomes later to become diploid (2n) (by being fertilized by a polar body, or by chromosome duplication without cell division), rather than by her laying diploid eggs by one of the meiosis reduction-divisions in her ovaries failing. When a female Komodo dragon (with ZW sex chromosomes) reproduces in this manner, she provides her progeny with only one chromosome from each of her pairs of chromosomes, including only one of her two sex chromosomes. This single set of chromosomes is duplicated in the egg, which develops parthenogenetically. Eggs receiving a Z chromosome become ZZ (male); those receiving a W chromosome become WW and fail to develop, meaning that only males are produced by parthenogenesis in this species.
It has been hypothesized that this reproductive adaptation allows a single female to enter an isolated ecological niche (such as an island) and by parthenogenesis produce male offspring, thereby establishing a sexually reproducing population (via reproduction with her offspring that can result in both male and female young). Despite the advantages of such an adaptation, zoos are cautioned that parthenogenesis may be detrimental to genetic diversity.
HISTORY
DISCOVERY BY THE WESTERN WORLD
Komodo dragons were first documented by Europeans in 1910, when rumors of a "land crocodile" reached Lieutenant van Steyn van Hensbroek of the Dutch colonial administration. Widespread notoriety came after 1912, when Peter Ouwens, the director of the Zoological Museum at Bogor, Java, published a paper on the topic after receiving a photo and a skin from the lieutenant, as well as two other specimens from a collector. The first two live Komodo dragons to arrive in Europe were exhibited in the Reptile House at London Zoo when it opened in 1927. Joan Beauchamp Procter made some of the earliest observations of these animals in captivity and she demonstrated the behaviour of one of these animals at a Scientific Meeting of the Zoological Society of London in 1928. The Komodo dragon was the driving factor for an expedition to Komodo Island by W. Douglas Burden in 1926. After returning with 12 preserved specimens and 2 live ones, this expedition provided the inspiration for the 1933 movie King Kong. It was also Burden who coined the common name "Komodo dragon." Three of his specimens were stuffed and are still on display in the American Museum of Natural History.
STUDIES
The Dutch, realizing the limited number of individuals in the wild, outlawed sport hunting and heavily limited the number of individuals taken for scientific study. Collecting expeditions ground to a halt with the occurrence of World War II, not resuming until the 1950s and 1960s, when studies examined the Komodo dragon's feeding behavior, reproduction, and body temperature. At around this time, an expedition was planned in which a long-term study of the Komodo dragon would be undertaken. This task was given to the Auffenberg family, who stayed on Komodo Island for 11 months in 1969. During their stay, Walter Auffenberg and his assistant Putra Sastrawan captured and tagged more than 50 Komodo dragons. The research from the Auffenberg expedition would prove to be enormously influential in raising Komodo dragons in captivity. Research after that of the Auffenberg family has shed more light on the nature of the Komodo dragon, with biologists such as Claudio Ciofi continuing to study the creatures.
CONSERVATION
The Komodo dragon is a vulnerable species and is on the IUCN Red List. There are approximately 4,000 to 5,000 living Komodo dragons in the wild. Their populations are restricted to the islands of Gili Motang (100), Gili Dasami (100), Rinca (1,300), Komodo (1,700), and Flores (perhaps 2,000). However, there are concerns that there may presently be only 350 breeding females. To address these concerns, the Komodo National Park was founded in 1980 to protect Komodo dragon populations on islands including Komodo, Rinca, and Padar. Later, the Wae Wuul and Wolo Tado Reserves were opened on Flores to aid with Komodo dragon conservation.
Komodo dragons avoid encounters with humans. Juveniles are very shy and will flee quickly into a hideout if a human comes closer than about 100 metres. Older animals will also retreat from humans from a shorter distance away. If cornered, they will react aggressively by gaping their mouth, hissing, and swinging their tail. If they are disturbed further, they may start an attack and bite. Although there are anecdotes of unprovoked Komodo dragons attacking or preying on humans, most of these reports are either not reputable or caused by defensive bites. Only a very few cases are truly the result of unprovoked attacks by abnormal individuals, which lost their fear towards humans.
Volcanic activity, earthquakes, loss of habitat, fire, loss of prey due to poaching, tourism, and illegal poaching of the dragons themselves have all contributed to the vulnerable status of the Komodo dragon. Under Appendix I of CITES (the Convention on International Trade in Endangered Species), commercial trade of skins or specimens is illegal.
On Padar, a former population of the Komodo dragon became extinct, of which the last individuals were seen in 1975. It is widely assumed that the Komodo dragon died out on Padar after a strong decline of the populations of large ungulate prey, for which poaching was most likely responsible.
IN CAPTIVITY
Komodo dragons have long been great zoo attractions, where their size and reputation make them popular exhibits. They are, however, rare in zoos because they are susceptible to infection and parasitic disease if captured from the wild, and do not readily reproduce. As of May 2009, there were 13 European, 2 African, 35 North American, 1 Singaporean, and 2 Australian institutions that kept Komodo dragons.
The first Komodo dragons were displayed at London Zoo in 1927. A Komodo dragon was exhibited in 1934 at the National Zoo in Washington, D.C., but it lived for only two years. More attempts to exhibit Komodo dragons were made, but the lifespan of these animals was very short, averaging five years in the National Zoological Park. Studies done by Walter Auffenberg, which were documented in his book The Behavioral Ecology of the Komodo Monitor, eventually allowed for more successful managing and reproducing of the dragons in captivity.
A variety of behaviors have been observed from captive specimens. Most individuals are relatively tame within a short time, and are capable of recognizing individual humans and discriminating between familiar keepers. Komodo dragons have also been observed to engage in play with a variety of objects, including shovels, cans, plastic rings, and shoes. This behavior does not seem to be "food-motivated predatory behavior".
Even seemingly docile dragons may become unpredictably aggressive, especially when the animal's territory is invaded by someone unfamiliar. In June 2001, a Komodo dragon seriously injured Phil Bronstein, the then husband of actress Sharon Stone, when he entered its enclosure at the Los Angeles Zoo after being invited in by its keeper. Bronstein was bitten on his bare foot, as the keeper had told him to take off his white shoes and socks, which the keeper stated could potentially excite the Komodo dragon as they were the same color as the white rats the zoo fed the dragon. Although he escaped, Bronstein needed to have several tendons in his foot reattached surgically.
IN POPULARE CULTURE
Komodo dragons are used as a main theme in Komodo (1999), Curse of the Komodo (2004) and Komodo vs. Cobra (2005).
The comedy team of Bob and Ray performed a popular sketch entitled "The Komodo Dragon Expert."
The plot of the 1990 film, The Freshman, involves a university freshman, an aging mobster and a Komodo dragon.
In the 2012 James Bond film Skyfall, one of the Chinese henchmen in a casino that Bond visits in Macau is overtaken, dragged off and presumably killed by a Komodo dragon.
WIKIPEDIA
(Photo RN-2) Photo taken by a professional photographer to send to Italy of Domenico Caluccio and family at his fruit shop in Blakehurst, 1956. From left, Anita Coluccio, born Rocella Jonica, Reggio Calabria, migrated to Australia 1953, baby Rosemarie Caluccio, born Australia and Domenico Coluccio.
Look familiar? This is Twilight who I rerooted for Peggy but looks like this little lady has decided to migrate to Australia and I couldn't be happier!!
A decorated Karen Community veteran.
Werribee RSL Pre Anzac March
Watton Street Cenotaph
Werribee
Victoria.
Bordy Weeku (aged 90) joined the British Army in 1937, and trained in India.
He migrated to Australia in 2003, after spending almost 20 years in a refugee camp, on the Thai-Burma border.
Your host Wade Chambers migrated to Australia in 1979 and worked for twenty years as a professor at Deakin University. He is widely travelled and enjoys walking, talking and films.
William Mitchell along with his wife Helen and children migrated to Australia arriving in 1882 in Maryborough on the Scottish Wizard.
Window in memory of Charles Marsden, choirmaster & teacher.
“MARSDEN.—On the 14th February, at his son-in-law’s (Mr. H. G. Bolitho) residence, Main North-road, Prospect, Charles Marsden, aged 86 years.” [Express & Telegraph 15 Feb 1921]
“Mr. Charles Marsden . . . was a well known resident of Bowden. He was born in Lancashire. England, and at the age of 30 years he migrated to Australia. For many years Mr. Marsden was employed in the South Australian Railways Department. He was a member of the Star of Freedom Tent, I.O.R., for 55 years. . . a member of the Albert Lodge. . . the choir leader at the Church of the Good .Shepherd, Bowden. . . Three sons, two daughters, and several grandchildren survive.” [Register 16 Feb 1921]
Church foundation stone 1 May 1885 by Dr Kennion, architects Henderson & Marryat, opened 25 Jul 1885, extensions (nave completed & chancel extended) corner stone 5 Feb 1893 by Mrs Kennion, porch foundation stone 8 Mar 1936 by Mrs Everitt, closed, used by gymnastics group, now restored as a church.
Joseph Bell, the Chief Engineer on the RMS Titanic was born in Farlam, near Brampton, Cumbria.
This is the service of commemoration that took place on Sunday 15th April 2012 marking 100 years since the loss
First years and training
Firstborn Son of John Bell, Sr. and Margaret Watson, both agricultural entrepreneurs, Joseph Bell grew up in Farlam, a small village belonging to the Rural District of Brampton, in the county of Cumberland; he had three siblings: Jane (1864), Richard (1865) and John jr. (1868).[1] His mother Margaret died shortly after giving birth to her last child.
Joseph Bell, initially, attended as a child a private elementary school in the village of Farlam and, after the death of his mother, he moved with his father and his brothers to Carlisle, between the districts of Edentown and Stanwix; Joseph and the brothers attended Carlisle's Academy William Harrison. In time, the younger brother John decided to migrate to Australia, embarking on the transatlantic SS Great Britain, while the rest of the family remained in Carlisle.
After leaving Carlisle, Joseph Bell moved to Newcastle, doing apprenticeship as an engine editor at Robert Stephenson and Company.[1] In 1885, Bell was hired by the White Star Line and worked on many ships that traded with New Zealand and the United States. In 1891 he was promoted to chief mechanical engineer.
Sister Jane married William Hugh Lowthian in 1886 and spent many years living in Ripley, Derbyshire, where he was a bank manager. It was probably at this time that Joseph met Maud Bates, whom he married in 1893; the couple had 4 children: Frances John, called Frank (1896), Marjorie Clare (1899), Eileen Maud (1901), and Ralph Douglas (1908).
In 1911, Joseph found lodging in Belfast, along with his wife and younger son. The two daughters remained at Ripley, cared for by both a housekeeper and her uncles (Bell's sister and brother-in-law), while the then fifteen-year-old Frank was studying at the Grosvenor College in Carlisle and later an apprenticeship at the Harland and Wolff shipyards.
On the Titanic
After serving on the Olympic, he transferred to the Titanic, where he was given the post of chief engineer. On the night of April 14, shortly before the Titanic hit an iceberg, Bell received an order from the bridge to either stop or reverse the engines (accounts vary), in an attempt to slow the ship. Despite the crew's best efforts, the Titanic could not avoid the immense block of ice. As the ship began to sink, Bell and the engineers remained in the engine room, urging the stokers and firemen to keep the boilers active, allowing the pumps to continue their work and ensuring the electricity remained on as long as possible. According to legend, Bell and his men worked to keep the lights and the power on in order for distress signals to get out and they all died in the bowels of the Titanic. However, according to the historical record, when it became obvious that nothing more could be done, and the flooding was too severe for the pumps to cope, they all came up onto Titanic's open well deck, but by this time all the lifeboats had already left. Greaser Frederick Scott testified to seeing all the engineers gathered at the aft end of the starboard Boat Deck at the end.[2][3] Bell's body was never recovered.
After Bell's death, the wife and the brother-in-law, William Ralph, inherited the farm of Farlam, of which Joseph had become its full owner since 1904, after his father's death; the farm was immediately sold because both Bell's wife and children never went to Farlam.
At the Church of the Holy Faith in Waterloo, near Liverpool, a plate has been affixed to commemorate Bell; an epitaph was also erected in his memory in the small cemetery of Farlam.
More from this set here: www.flickr.com/photos/davidambridge/sets/72157629467082388/
Window in memory of Charles Marsden, choirmaster & teacher.
“MARSDEN.—On the 14th February, at his son-in-law’s (Mr. H. G. Bolitho) residence, Main North-road, Prospect, Charles Marsden, aged 86 years.” [Express & Telegraph 15 Feb 1921]
“Mr. Charles Marsden . . . was a well known resident of Bowden. He was born in Lancashire. England, and at the age of 30 years he migrated to Australia. For many years Mr. Marsden was employed in the South Australian Railways Department. He was a member of the Star of Freedom Tent, I.O.R., for 55 years. . . a member of the Albert Lodge. . . the choir leader at the Church of the Good .Shepherd, Bowden. . . Three sons, two daughters, and several grandchildren survive.” [Register 16 Feb 1921]
Church foundation stone 1 May 1885 by Dr Kennion, architects Henderson & Marryat, opened 25 Jul 1885, extensions (nave completed & chancel extended) corner stone 5 Feb 1893 by Mrs Kennion, porch foundation stone 8 Mar 1936 by Mrs Everitt, closed, used by gymnastics group, now restored as a church.
Window in memory of Charles Marsden, choirmaster & teacher. One section broken & replaced by board.
“MARSDEN.—On the 14th February, at his son-in-law’s (Mr. H. G. Bolitho) residence, Main North-road, Prospect, Charles Marsden, aged 86 years.” [Express & Telegraph 15 Feb 1921]
“Mr. Charles Marsden . . . was a well known resident of Bowden. He was born in Lancashire. England, and at the age of 30 years he migrated to Australia. For many years Mr. Marsden was employed in the South Australian Railways Department. He was a member of the Star of Freedom Tent, I.O.R., for 55 years. . . a member of the Albert Lodge. . . the choir leader at the Church of the Good .Shepherd, Bowden. . . Three sons, two daughters, and several grandchildren survive.” [Register 16 Feb 1921]
Church foundation stone 1 May 1885 by Dr Kennion, architects Henderson & Marryat, opened 25 Jul 1885, extensions (nave completed & chancel extended) corner stone 5 Feb 1893 by Mrs Kennion, porch foundation stone 8 Mar 1936 by Mrs Everitt, closed, used by gymnastics group, now restored as a church.
Nunzio Attivissimo was born in Italy 90 years ago, and migrated to Australia after serving time during the war in Germany and Poland.
Nunzio lived in Cloverdale and worked on a grape block with his brother. He also picked fruit and vegetables in the local area.
Nunzio now spends much of his day walking around the streets in town.
Nunzio offered to pay me $10,000 for taking his picture.
Window in memory of Charles Marsden, choirmaster & teacher.
“MARSDEN.—On the 14th February, at his son-in-law’s (Mr. H. G. Bolitho) residence, Main North-road, Prospect, Charles Marsden, aged 86 years.” [Express & Telegraph 15 Feb 1921]
“Mr. Charles Marsden . . . was a well known resident of Bowden. He was born in Lancashire. England, and at the age of 30 years he migrated to Australia. For many years Mr. Marsden was employed in the South Australian Railways Department. He was a member of the Star of Freedom Tent, I.O.R., for 55 years. . . a member of the Albert Lodge. . . the choir leader at the Church of the Good .Shepherd, Bowden. . . Three sons, two daughters, and several grandchildren survive.” [Register 16 Feb 1921]
Church foundation stone 1 May 1885 by Dr Kennion, architects Henderson & Marryat, opened 25 Jul 1885, extensions (nave completed & chancel extended) corner stone 5 Feb 1893 by Mrs Kennion, porch foundation stone 8 Mar 1936 by Mrs Everitt, closed, used by gymnastics group, now restored as a church.
I travelled to the UK in May 2010 for my sentimental journey back to the place where I was born in Bury Lancashire. My parents migrated to Australia in 1955, and I had never been back before.
I only really keep in touch with one original relative now and that is my 90yo aunt, and I have got to know her grandchildren fairly well. This is my aunts great grandchild.
10yo Tegan is the daughter of Jayne and partner Lee.
Tegan seemed to think my accent was entertaining, and I finally found a 10yo who wanted to discuss British politics.
She's the one on the RIGHT
My sentimental journey back to my birthplace.
Sentimental Theme
When researching Cecil Morgan (Colin Meyers) I came across two soldiers with the last name Meyers from Goulburn, These two soldiers then had the same Next of Kin listed on their Enlistment papers. This Next of Kin was their Father Frederick William Meyers. Given that Goulburn was a smaller country town the evidence I have gathered lead to the conclusion that Colin was a cousin of Arthur and Cecil Meyers. The fact that Colin used his cousin Cecil's name upon enlisting adds to this evidence. Due to the enlistment dates and the age of Colin's cousins it is very likely that they enlisted to go looking/ follow their younger cousin to the war.
This attestation paper shows that Arthur Meyers enlisted on the 18th of April 1916. He was 42 years old when he enlisted and worked as a wharf labourer. Arthur is a British Subject meaning sometime during his early life his family must have migrated to Australia. Both Cecil and Colin, are Natural Born Australians so did not migrate to Australia. It is possible that both Arthur and Colin's parents migrated at the same time with Arthur and possibly some of Colin's four sisters (birth places unknown).
References:
Australian Military Forces, Australian Imperial Force. (1916). 'Attestation Paper of Persons Enlisted for Service Abroad: Private Arthur Edward Meyers.' Australian Imperial Force.
This artefact is a part of this exhibition because its adds depth to the personal history of Colin Meyers and his story. This artefact gives important information about the person that was Arthur Edward Meyers.
Further documentation on Arthur Meyers can be found with a simple search on recordsearch.naa.gov.au
Outside mosque in Mecca:
These are some of my favourite photos I took when I was in the Middle East in January of 2006. I travelled with my father, uncle and grandfather to Saudi Arabia to complete the Hajj (pilgrimage to Mecca) with some other family friends. Afterwards we met up with my younger sister and went to Lebanon to visit my grandfather's family who he left when he migrated to Australia.
This trip was a life changing experience and I absolutely loved it. Hope to go back someday, but not before I grasp the Arabic language... Could be a while...
Name: Kina Parson
Doll: P4F Kina
Origin: Italian
Favourite Colour: Pink
Favourite Food: Gelati
Favourite Animal: All of them!
Kina's life started out rocky, when her grandparents chucked her Mum, Dad and older sister out on the streets in the town of Frascati, near the capital of Italy. When her family migrated to Australia her parents wanted the best lives they could have for the girls, so they sent them to an acting/modelling school, so Kina has grown up being a model. She also loves to sing and has tried unsuccessfully to design clothing. When she retires from being a model (which she hopes won't be too soon) she wants to be a teacher. Kina, with the help from her sister Dia and her parents, thinks she can win 'Bratz Runway Models'.
Glass dome enclosing a profusion of porcelain flowers, a dove, and metal leaves atop an old grave inside the Nichols Point Cemetery, Mildura (www.australiancemeteries.com/vic/mildura/nicholspnt.htm).
Many of the older graves in this cemetery had one or more of these attached to the top of them; it is the first time that I've seen so many in one place.
From examining the dates on some of the graves as I walked around I was able to ascertain that this type of memorial decoration seemed to be popular between 1920-1950. Presuming that the greater longevity of ceramic flowers under glass - as opposed to the constant expense of buying fresh flowers - was a determining factor in why they were so prolific.
Interestingly, from what I've been able to determine, these types of funerary flower arrangements also appeared in cemeteries in Wales and Ireland, suggesting that the custom migrated to Australia (and specifically Mildura) with citizens from these countries.
The Nichols Point Cemetery is located some way out of town near the Murray River, and the dry red soil under foot provided an unusual contrast to the usual cemetery scenery.
Gérard is a French Australian. He migrated to Australia in the early 60's and lived in a boarding house in Melbourne run by a Portuguese ex-prostitute who had sworn off men and populated by lots of cool, young guys from all over the world trying to make a go of it in a new country.
Taken and processed with an iPhone
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Samuel Vickery [ not him in the photo ] HIS REGIMENTS UNIFORM
1843 Devon England
1929 Many Peaks Qld Australia.
He served in the 80th at foot Staffordshire Regiment for many years.
Seeing service in the
Zulu Wars ,
First Boer War.
Punjab India
Afghanistan.
Before migrating to Australia 1885. on board SS JUMA
He adopted my Grand mother Edith Ellen Morton & Thomas Claude Vickery
In 1876 the 80th were ordered to South Africa, arriving in Natal in 1877.Members of the regiment built Fort Amiel, named after Major Charles Frederick Amiel.They subsequently took part in the Anglo-Zulu War of 1879-80, initially suffering heavy casualties before playing a major part in the Battle of Ulundi under the command of Major (later General) Charles Tucker. Tucker went on to be colonel of the South Staffordshire Regiment. The regiment left South Africa in 1880, sailing to Ireland where they were stationed in Tralee .
The Regiment's penultimate Battle Honour 'Central India' was won during the Indian Mutiny. After arriving in Calcutta in Feb 1858 they took part in the closing stages of the mutiny, making endless marches in minor punitive expeditions lasting some twelve months. [ Just before Sam joined up ] He got to India in 1864 aged 18. and did general service there for 6 years
Their services in South Africa during 1878 and 79 won the Regiment its final battle honour. They took part in various operations against Sekukuni of the Basuto tribe during 1878, till this action was suspended due to the impending Zulu War.
The Zulu War started on Jan 11 1879 when British Forces invaded Zululand. The first major battle took place at Inyezance when the No 1 column was attacked by the Zulus. This attack was repulsed. The Zulus later attacked and took the British Camp at Isandhlwana on Jan 22 1879 when over 1000 British and Colonial soldiers were slaughtered. British Honour was restored later that day when the hospital and stores at Rorke's Drift were successfully held by only a few men. A further two reverses were to take place, one on March 12 when a company of the 80th were attacked and many killed at Myer's Drift in the Intimbi River. The second occurred at Hlobane Mountain on March 28. However, serious damage was done to the Zulu forces on March 29 at Kambula, when a Zulu force of 20,000 was chased off the battlefield. During the invasion of Zululand on April 2 the British Forces were attacked by 12,000 Zulus who were driven off.
The Final battle against the Zulus was on July 4 at Ulundi when a force of 20,000 Zulus were defeated and Ulundi and other Kraals in the area were burnt. On Aug 15 the principal Chiefs of the Zulus surrendered and on Aug 28 the Zulu King Cetshwayo was captured, bringing the war to an end.
At the conclusion of the Zulu War the Regiment continued their task of defeating Sekukuni. Following a number of small confrontations the Sekukuni town stronghold was captured on Nov 28 1879.
During 1881 the 80th Regiment of Foot (Staffordshire Volunteers) were amalgamated with the 38th Regiment of Foot to form the South Staffordshire Regiment.