Green anaconda
The green anaconda, also known as giant anaconda, common anaconda, common water boa or sucuri, is a non-venomous boa species found in South America. It is the heaviest and one of the longest known extant snake species. The term "anaconda" often refers to this species, though the term could also apply to other members of the genus Eunectes.
The green anaconda's scientific name is derived from the Greek εὐνήκτης, meaning "good swimmer", and the Latin murinus, meaning "of mice", for being thought to prey on mice. Fossils of the snake date back to the Late Pleistocene in the Gruta do Urso locality.
Description
The green anaconda is the world's heaviest and one of the world's longest snakes, reaching a length of up to long. More typical mature specimens reportedly can range up to, with adult females, with a mean length of about, being generally much larger than the males, which average around. Weights are less well studied, though reportedly range from in a typical adult. It is the largest snake native to the Americas. Although it is slightly shorter than the reticulated python, it is far bulkier; the bulk of a 4.5 m green anaconda is comparable to that of a 7.4 m reticulated python. Reports of anacondas or even longer also exist, but such claims must be regarded with caution, as no specimens of such lengths have ever been deposited in a museum and hard evidence is lacking. A US$50,000 cash reward is on offer for anyone who can catch an anaconda or more long. The longest and heaviest verified specimen encountered by Dr. Jesús Antonio Rivas, who had examined more than a thousand anacondas, was a female long and weighing.The color pattern consists of an olive green background overlaid with black blotches along the length of the body. The head is narrow compared to the body, usually with distinctive orange-yellow striping on either side. The eyes are set high on the head, allowing the snake to see out of the water while swimming without exposing its body.
Difficulties in determining maximum size
The remote location of the snake's habitat has historically made locating, capturing, and returning specimens difficult. Transporting very large specimens to museums, especially before substantial decay, is difficult. Skins can stretch substantially, increasing the snake's size by more than 50% if stretched during the tanning process. Reports without physical proof are considered dubious if from non-scientists, as such individuals may at worst be more interested in promoting themselves or telling a good tale, or at the least may not be sufficiently trained in proper measurement methods. Observational reports of animals which were not captured are even more dubious, as even trained scientists often substantially overestimate the size of anacondas prior to capture. According to the Guinness Book of World Records, this species has been perhaps subject to the most extreme size exaggerations of any living animal.Historical records
Numerous historical accounts of green anacondas are reported, often of improbable sizes. Several zoologists note rumors of snakes beyond 30 or 40 ft long, but in each case, their direct observations were limited to snakes around 20 ft in length. Numerous estimates and second-hand accounts abound, but are generally considered unreliable. To prove the point of overestimating, in Guyana in 1937, zoologist Alpheus Hyatt Verrill asked the expedition team he was with to estimate the length of a large, curled-up anaconda on a rock. The team's guesses ran from ; when measured, this specimen was found to be.Almost all specimens in excess of, including a much publicized specimen of long, have no voucher specimens including skins or bones.
The skin of one specimen, stretched to, has been preserved in the Instituto Butantan in São Paulo and is reported to have come from an anaconda of in length.
While in Colombia in 1978, herpetologist William W. Lamar had an encounter with a large female specimen long, estimated to weigh between.
In 1962, W.L. Schurz claimed to have measured a snake in Brazil of with a maximum girth of.
One female, reportedly measuring in length, shot in 1963 in Nariva Swamp, Trinidad, contained a 1.5 m caiman. A specimen of, reportedly with a weight of, was caught at the mouth of the Kassikaityu River in Guyana, having been restrained by 13 local men, and was later air-lifted for a zoo collection in the United States, but died in ill health shortly thereafter.
The largest size verified for E. murinus in captivity was for a specimen kept in Pittsburgh Zoo and PPG Aquarium, which grew to a length of by the time she died on July 20, 1960. When this specimen was long, she weighed. The estimated weight for an anaconda in the range of is at least.
National Geographic has published a weight up to for E. murinus, but this is almost certainly a mere estimation.
Weight can vary considerably in large specimens depending on environmental conditions and recent feedings, with Verrill's aforementioned specimen, having been extremely bulky, scaled at, whereas another specimen considered large at, weighed only.
Current estimates of maximal size
Size presents challenges to attain breeding condition in larger female anacondas. While larger sizes provide the benefit of a larger number of offspring per clutch, the breeding frequency of the individuals reduces with size, indicating that a point exists at which the advantage of a larger clutch size is negated by the female no longer being able to breed. For the anaconda, this limit was estimated at about in total length. This is consistent with the results of a revision of the size at maturity and maximum size of several snakes from North America, which found that the maximum size is between 1.5 and 2.5 the size at maturity. The minimum size of breeding anacondas in a survey of 780 individuals was in snout-vent length, indicating that maximum size attained by anacondas following this pattern would be in snout-vent length. However, most anacondas are captured from the llanos, which is more accessible to humans and has smaller prey available, while the rainforest, which is much less explored and has more plentiful large prey, may be home to larger snakes.Scientific and common names
In the famous 10th edition of Systema Naturae of 1758, Carl Linnaeus cited descriptions by Albertus Seba and by Laurens Theodorus Gronovius to erect the distinct species murina of his new genus Boa, which contained eight other species, including Boa constrictor. The generic name Boa came from an ancient Latin word for a type of large snake. The first specimens of Boa murina were of immature individuals from 2.5 to 3.0 ft in length. In 1830, Johann Georg Wagler erected the separate genus Eunectes for Linnaeus's Boa murina after more and larger specimens were known and described. Because of the masculine gender of Eunectes, the feminine Latin specific name murina was changed to murinus.Linnaeus almost certainly chose the scientific name Boa murina based on the original Latin description given by A. Seba in 1735: "Serpens testudinacea americana, murium insidiator" . The Latin adjective murinus in this case would mean "of mice" or "connected with mice," understood in context as "preying on mice", and not as "mouse-gray-colored" as now often wrongly indicated for E. murinus. Early English-language sources, such as George Shaw, referred to the Boa murina as the "rat boa" and the Penny Cyclopaedia entry for boa explained: "The trivial name murina was given to it from being said to lie in wait for mice." Linnaeus described the appearance of the Boa murina in Latin as rufus maculis supra rotundatis and made no reference to a gray coloration. Early descriptions of the green anaconda by different authors variously referred to the general color like brown, glaucous, green, or gray.
Common names for E. murinus include green anaconda, anaconda, common anaconda, and water boa.
Distribution and habitat
Eunectes murinus is found in South America east of the Andes, in countries including Colombia, Venezuela, the Guianas, Ecuador, Peru, Bolivia, Brazil, the island of Trinidad, and as far south as northern Paraguay. The type locality given is "America".Anacondas live in swamps, marshes, and slow-moving streams, mainly in the tropical rainforests of the Amazon and Orinoco basins. They are cumbersome on land, but stealthy and sleek in the water. Their eyes and nasal openings are on top of their heads, allowing them to lie in wait for prey while remaining nearly completely submerged.
Behavior
The primarily nocturnal anaconda species tend to spend most of its life in or around water. They have the potential to reach high speeds when swimming. They tend to float beneath the surface of the water with their snouts above the surface. When prey passes by or stops to drink, the anaconda strikes and coils around it with its body. The snake then constricts until it has suffocated the prey.Feeding
Primarily aquatic, they eat a wide variety of prey, almost anything they can manage to overpower, including fish, birds, a variety of mammals, and other reptiles. Particularly large anacondas may consume large prey such as tapirs, deer, capybaras, and caimans, but such large meals are not regularly consumed. The green anaconda's eyes and nose are located on the top of the head, allowing the snake to breathe and watch for prey while the vast majority of the body is hidden underwater. Many local stories and legends report the anaconda as a man-eater, but little evidence supports any such activity. They employ constriction to subdue their prey. Cannibalism among green anacondas is also known, most recorded cases involving a larger female consuming a smaller male. While the exact reason for this is not understood, scientists cite several possibilities, including the dramatic sexual dimorphism in the species, and the possibility that a female anaconda requires additional food intake after breeding to sustain the long period of gestation. The nearby male simply provides the opportunistic female a ready source of nutrition.Reproduction
This species is solitary until the mating season, which occurs during the rainy season, and can last for several months, usually from April to May. During this time, males must find females. Typically, female snakes lay down a trail of pheromones for the males to follow, but how the males of this species track a female's scent is still unclear. Another possibility is that the female releases an airborne stimulant. This theory is supported by the observation of females that remain motionless, while many males move towards them from all directions. Male anacondas also frequently flick their tongues to sense chemicals that signal the presence of a female.Many males can often find the same female. Although more than one male may not be necessary, this results in odd clusters referred to as "breeding balls", in which up to 12 males wrap around the same female and attempt to copulate. The group could stay in this position for two to four weeks. This ball acts as a slow-motion wrestling match between the males, each one fighting for the opportunity to mate with the female.
During mating, males make use of their spurs to arouse the female. They aggressively press their cloacal regions hard against the female body, while continuously scratching her with their spurs. This can produce a scratching sound. Mating approaches its climax when the stimulus of the males' spurs induces the female snake to raise her cloacal region, allowing the cloacae of the two snakes to move together. The male then coils his tail, surrounding the female and they copulate. The strongest and largest male is often the victor. However, females are physically much larger and stronger and may decide to choose from among the males. Courtship and mating occur almost exclusively in water.
Mating is followed by a gestation period of six to seven months. The species is ovoviviparous, with females giving birth to live young. Litters usually consist of 20 to 40 offspring, although as many as 100 may be produced. After giving birth, females may lose up to half their weight.
Neonates are around 70–80 cm long and receive no parental care. Because of their small size, they often fall prey to other animals. Should they survive, they grow rapidly until they reach sexual maturity in their first few years, after which their rate of growth continues at a slower pace.
However, when no male anacondas are available to provide offspring, facultative parthenogenesis is possible. In August 2014, West Midlands Safari Park announced that on 12 August 2014 a female green anaconda, which was being kept with another female anaconda, through parthenogenesis had given birth to three young.