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Kokoe Poison Frog

Phyllobates aurotaenia (Boulenger 1913)

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Description

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Phyllobates aurotaenia adults reach a maximum snout-vent length of 32 mm in males and 35 mm in females. The skin is slightly granular on the dorsum and smooth on the ventrum and limbs. The first finger is longer than the second, with all finger discs being narrow to moderately expanded. Toes are webless. Both maxillary and premaxillary teeth are present. Testes are unpigmented (Silverstone 1976). This species has a black ground color, with two thin golden, orange, or green dorsolateral stripes extending from the base of the thigh and meeting at the snout (Silverstone 1976; Myers et al. 1978). The dorsal surfaces of the limbs are covered in gold, orange, blue, or green dots, and the ventral surface is black with blue or green dots (Silverstone 1976). Dotting is relatively sparse on the venter and more concentrated on the limbs (Silverstone 1976). The stripes are green or light yellow, and the ventral dots are always blue on individuals from Serranía de Baudó (Silverstone 1976). On individuals from the upper San Juan drainage, the stripes are yellow, light or dark yellow-orange, or light brownish gold (Silverstone 1976). There is a second form; some individuals, from above the Playa de Oro on the upper Rio San Juan, are larger and have broader dorsolateral stripes that are sometimes blended together by an orangish dorsal suffusion into one yellow-orange or red-orange stripe (Silverstone 1976; Myers et al. 1978). Phyllobates aurotaenia juveniles are black with golden dorsolateral stripes, like P. terribilis juveniles. However, young P. aurotaenia have blue or green ventral spotting, which is not present in P. terribilis (Myers et al. 1978).Tadpoles of all Phyllobates species, including P. aurotaenia, have an emarginate, "normal" oral disc (meaning the oral disc is not umbelliform). The larval vent tube is dextral (Grant et al. 2006).There are two forms of Phyllobates aurotaenia, a narrow-striped, slightly smaller form, and a broad-striped, slightly larger form, which do not always occur in the same place (Silverstone 1976). In the western Atrato drainage, the broad-striped form is absent and the narrow-striped form occurs up to at least 500 m (Silverstone 1976). In the Playa de Oro, it is not clear whether the narrow-striped form occurs at lower elevation than the broad-striped form; the two forms may simply be separated by a deep ravine (Quebrada Bochoramá) and not by elevation (Silverstone 1976).Myers et al. (1978) speculates that there may be a cline between P. aurotaenia and P. bicolor, or hybridization, in the upper San Juan drainage. The largest specimens, which have the broad, fused dorsal stripes, come from above Playa de Oro on the upper Rio San Juan; these individuals more closely resemble P. bicolor in both coloration and size (Silverstone 1976; Myers et al. 1978). Phyllobates bicolor has a uniformly colored orange (red-orange, orange, or yellow-orange) dorsum lacking stripes. Phyllobates bicolor is also slightly larger (38.2 mm average size) than the broad-striped form of P. aurotaenia (32.1 mm average size), which is in turn larger than the narrow-striped form (26.3 mm average size).Silverstone (1976) comments that the narrow-striped form more closely resembles P. lugubris and P. vittatus, but is separated from them by a distributional gap in Panama.

Reference

Myers, C. W., Daly, J. W., and Malkin, B. (1978). ''A dangerously toxic new frog (Phyllobates) used by Emberá Indians of Western Colombia, with discussion of blowgun fabrication and dart poisoning.'' Bulletin of the American Museum of Natural History, 161, 307-366.

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Distribution and Habitat

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Phyllobates aurotaenia is found in the Chocó region of Colombia in the Atrato and San Juan drainages (Silverstone 1976). It lives in low-elevation inland rainforest at an altitude of 60 to 520 meters, west of the Cordillera Occidental (Silverstone 1976; Myers et al. 1978).
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Life History, Abundance, Activity, and Special Behaviors

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Phyllobates are usually diurnal species due to the advantage of greater visibility of their color markings, which warn predators that they possess skin toxins (Silverstone 1976). This species secretes skin batrachotoxins when under stress (Silverstone 1976; Myers et al. 1978). However, this species is secretive and can be hard to find even in areas where there are dense populations (Myers et al. 1978). Calls are usually made from a concealed location under fallen leaves or logs, but occasionally while sitting on fallen leaves (Silverstone 1976). The call has been described as a "loud, bird-like, whirring twitter, consisting of rapidly repeating notes" (Silverstone 1976), with a duration of 4-11 seconds (Silverstone 1976). This call is repeated after intervals lasting from several seconds up to 45 seconds (Silverstone 1976). The dominant frequency is higher than 2000 Hz (Myers et al. 1978).
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Life History, Abundance, Activity, and Special Behaviors

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This species does not occur in any protected areas and is rapidly losing its habitat.
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Relation to Humans

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Phyllobates aurotaenia is one of only three species of frogs (P. aurotaenia, P. bicolor, P. terribilis) known to be used for poisoning darts (Myers et al. 1978). Various Chocó tribes in western Colombia have used these frogs to poison darts for dart-guns. The frogs primarily secrete the steroidal alkaloids batrachotoxin, homobatrachotoxin, and batrachotoxinin A, which cause depolarization of nerves and muscles, cardiac arrhythmias, and cardiac failure if taken internally and skin numbness when encountered externally. To extract the poison, the Chocó impale P. aurotaenia and P. bicolor lengthwise on sticks, and may also heat the spitted frogs to increase the amount of skin secretions; darts are then rubbed against the skin of the impaled frog. This is in contrast to the treatment of P. terribilis which has much higher levels of skin toxins; for this species, darts are simply rubbed across the back of the live frog (Myers et al. 1978). Per frog, the larger P. terribilis have about 27x the amount of batrachotoxin-homobatrachotoxin as the smaller P. aurotaenia. When normalized for skin weight, P. terribilis has about nine times the amount of batrachotoxin-homobatrachotoxin in the same amount of skin (100 mg) as P. aurotaenia. For batrachotoxinin A, P. terribilis has 4x the amount of toxin per frog as the smaller P. aurotaenia, or 1.3x as much toxin by equivalent skin weight. The third species of frog used for poisoning darts, P. bicolor, seems to be roughly equivalent in toxicity to P. aurotaenia (Myers et al. 1978).The Chocó name for P. aurotaenia, kökoé, is pronounced "kohng-KWAY" (Silverstone 1976).
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Phyllobates aurotaenia

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Phyllobates aurotaenia is a member of the frog family Dendrobatidae,[1][2] which are found in the tropical environments of Central and South America. First described by zoologist George Albert Boulenger in 1913,[3] P. aurotaenia is known for being the third most poisonous frog in the world. It is the smallest of the poison dart frogs in the Phyllobates genus and is endemic to the Pacific coast of Colombia.[4]

Wild specimens store batrachotoxin in glands in their skin, which can be fatal to humans in doses as small as 100 µg.[5] The unique lethality of their poison is a trait often exploited by certain Native American peoples of Colombia for hunting.[4] The members of this species are characterized by: black dorsums, sometimes covered by orange suffusions; green, yellow, orange, or brownish gold dorsolateral stripes; and black abdomens with blue or green dots. The name Phyllobates aurotaenia is currently applied to two forms: a smaller, large-stripe form and a larger, small-stripe form. These forms are separated by a ravine yet retain the ability to interbreed.[4] The number and range of P. aurotaenia is declining, primarily due to loss of habitat, and is currently classified as Least Concern by the IUCN.[1]

Range and habitat :3

P. aurotaenia is found in the wet forests of the Choco region of Colombia, west of the Andes, in the Atrato and San Juan drainages.[4] It lives on the ground of humid lowland and submontane forests, typically between altitudes of 60 and 520 meters, and is found in primary and secondary forest but not in degraded areas.[1][4]

As a vivarium subject, this frog is an active animal that will make use of vertical space. Kokoe dart frogs are highly social frogs that require high humidity, cool temperatures, and larger prey items than many dart frogs.

Mating :3

P. aurotaenia usually performs mating calls while concealed beneath fallen leaves or logs, but occasionally while sitting on top of leaf litter.[4] Their calls have been described as a loud, bird-like whirring twitter that consists of rapidly repeated notes, repeated at irregular intervals of several seconds and lasting up to 45 seconds.[4]

These frogs do not engage in wrestling behavior among each other as do many other dart frogs. Males vying for a female will face off, calling loudly until one backs down. Unlike the other Phyllobates species, these frogs will not breed in coconut shells; they prefer to lay their eggs inside a narrow tube (small film canisters or nut pods) on the ground. Female P. aurotaenia lay their clutch of eggs, averaging 15-20, in leaf-litter and the male takes the tadpoles to slow-flowing water after the eggs hatch.[1]

Toxicity

P. aurotaenia is one of the most lethal species of the poison dart frogs, which is attributed to their storage and release of batrachotoxin from cutaneous granular glands scattered throughout the frogs’ bodies.[6][7] This extremely potent toxin is a steroidal alkaloid which, in mammals, acts by irreversibly binding to and permanently opening sodium ion channels within nerve and muscle cells.[5] This prevents repolarization of the cell membrane and halts further signaling, resulting in paralysis and often death as any affected muscle becomes locked in the contracted state. In order to avoid self-intoxication the frogs have developed modified sodium channels to prevent the binding of batrachotoxin.[8]

Although wild frogs are extremely deadly, frogs raised in captivity are generally non-toxic.[9][10] It has therefore been proposed that the frogs do not synthesize batrachotoxin themselves, but it is instead obtained from their environment. Evidence suggests that the frogs accumulate this toxin through their diet of various beetles (ex: melyrid beetles), millipedes, and flies as well as the unique composition of leaf litter on the forest floor.[9][10]

Value

P. aurotaenia is one of three species known to be used for poisoning darts; the others being P. terribilis and P. bicolor.[11] The Chocó Native Americans of the upper San Juan drainage region of Colombia attract and capture these species by imitating their calls.[4] Because they release their poison only under stress, the poison is extracted by piercing the frogs through the mouth with a wooden skewer and holding them over a fire.[4] The Chocóan people then coat their darts by rubbing the darts across the backs of the frogs.[4]

References

  1. ^ a b c d e IUCN SSC Amphibian Specialist Group (2017). "Phyllobates aurotaenia". IUCN Red List of Threatened Species. 2017: e.T55261A85887593. doi:10.2305/IUCN.UK.2017-2.RLTS.T55261A85887593.en. Retrieved 18 November 2021.
  2. ^ a b Frost, Darrel R. (2017). "Phyllobates aurotaenia (Boulenger, 1913)". Amphibian Species of the World: an Online Reference. Version 6.0. American Museum of Natural History. Retrieved 27 June 2017.
  3. ^ George, A.B. (1913). "On a collection of Batrachians and reptiles made by Dr. HGF Spurrell, FZS, in the Choco, Colombia". Proceedings of the Zoological Society of London. 48 (4): 1019–1038.
  4. ^ a b c d e f g h i j Silverstone, PA. (1976). "A revision of the poison arrow frogs of the genus Phyllobates Bibron in Sagra (Family Dendrobatidae)". Natural History Museum of Los Angeles County Science Bulletin. 27: 1–53.
  5. ^ a b Warnick, J.E.; Albuquerque, E.X.; Samsone, F.M. (1971). "The Pharmacology of Batrachotoxin. I. Effects on the Contractile Mechanism and on Neuromuscular Transmission of Mammalian Skeletal Muscle". The Journal of Pharmacology and Experimental Therapeutics. 176 (3): 497–510. PMID 4329451.
  6. ^ Myers, C.W.; Daly, J.W. (1983). "Dart-poison frogs". Scientific American. 248 (2): 120–133. doi:10.1038/scientificamerican0283-120. PMID 6836257.
  7. ^ Daly, J.W.; Meyers, C.W.; Whittaker, N. (1987). "Further Classification of Skin Alkaloids from Neotropical Poison Frogs (Dendrobatidae), with a General Survey of Toxic/Noxious Substances in the Amphibia". Toxicon. 25 (10): 1023–1095. doi:10.1016/0041-0101(87)90265-0. PMID 3321567.
  8. ^ Daly, J.W.; Garraffo, H.M.; Myers, C.W. (1997). "The Origin of Frog Skin Alkaloids: An Enigma?". Pharmaceutical News. 4 (4): 9–14.
  9. ^ a b Daly, J.W.; Garraffo, H.M.; Spande, T.F.; Jaramillo, C.; Rand, A.S. (1994). "Dietary Source for Skin Alkaloids of Poison Frogs (Dendrobatidae)". Journal of Chemical Ecology. 20 (4): 943–954. doi:10.1007/bf02059589. PMID 24242207. S2CID 30642213.
  10. ^ a b Daly, J.W.; Garraffo, H.M.; Jain, P.; Spande, T.F.; Snelling, R.R.; Jaramillo, C.; Rand, A.S. (2000). "Arthropod--Frog Connection: Decahydroquinoline and Pyrrolizidine Alkaloids Common to Microsympatric Myrmicine Ants and Dendrobatid Frogs". Journal of Chemical Ecology. 26 (1): 73–85. doi:10.1023/a:1005437427326. S2CID 34040679.
  11. ^ Myers, C.W.; Daly, J.W.; Malkin, B. (1978). "A dangerously toxic new frog (Phyllobates) used by Emberá Indians of Western Colombia, with discussion of blowgun fabrication and dart poisoning". Bulletin of the American Museum of Natural History. 161: 307–366.
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Phyllobates aurotaenia: Brief Summary

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Phyllobates aurotaenia is a member of the frog family Dendrobatidae, which are found in the tropical environments of Central and South America. First described by zoologist George Albert Boulenger in 1913, P. aurotaenia is known for being the third most poisonous frog in the world. It is the smallest of the poison dart frogs in the Phyllobates genus and is endemic to the Pacific coast of Colombia.

Wild specimens store batrachotoxin in glands in their skin, which can be fatal to humans in doses as small as 100 µg. The unique lethality of their poison is a trait often exploited by certain Native American peoples of Colombia for hunting. The members of this species are characterized by: black dorsums, sometimes covered by orange suffusions; green, yellow, orange, or brownish gold dorsolateral stripes; and black abdomens with blue or green dots. The name Phyllobates aurotaenia is currently applied to two forms: a smaller, large-stripe form and a larger, small-stripe form. These forms are separated by a ravine yet retain the ability to interbreed. The number and range of P. aurotaenia is declining, primarily due to loss of habitat, and is currently classified as Least Concern by the IUCN.

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