Dyeing poison dart frog
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Dyeing poison dart frog | |
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D. tinctorius "yellow back" | |
Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Chordata |
Class: | Amphibia |
Order: | Anura |
Family: | Dendrobatidae |
Genus: | Dendrobates |
Species: | D. tinctorius
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Binomial name | |
Dendrobates tinctorius (Cuvier, 1797)
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Distribution of the five Dendrobates species, with D. tinctorius in purple |
The dyeing poison dart frog (Dendrobates tinctorius), also known as the cobalt poison frog, tinc (a nickname given by those in the hobby of keeping dart frogs), is a species of poison dart frog. It is among the most variably colored and largest species of poison dart frogs, typically reaching snout–vent lengths of about 50 mm (2.0 in). It is distributed in the eastern portion of the Guiana Shield, including parts of French Guiana, Guyana, Suriname , and Brazil.[1]These types of frogs usually like to stay in the ground as it is easier to catch prey.[3] They tend to also stay in bodies of water like rivers or climb trees.[4] Because of this they mostly inhabit near the Amazon Rainforest. To mate they have special rituals and leave their tadpoles in freshwater.[5]
Etymology
[edit]The specific name, tinctorius, comes, however, not from the variety of colors, but from the legends of some indigenous tribes. It has been said that tribe members used the frog poisons to cause green parrot feathers to grow different colors.
Distribution and habitat
[edit]The dyeing poison dart frog exists in discrete patches of the eastern Guiana Shield, being found at altitudes up to 600 m (2,000 ft).[1] It is found in regions of tropical primary rainforests, but is associated with areas with canopy gaps.[6][7] While this species can be found at sea level, it is mostly found in upland areas, for example in hills or at the base of mountains. The isolation of populations has presumably occurred as a result of the erosion of these highlands and the seasonal inundation of the inter-patch areas. A study shows that Dendrobates tinctorius tadpoles can survive in pools having a high level of KH, vertical height of 15 mi (79,000 ft) and salinity up to 955 ppm.[8]
Description
[edit]The dyeing poison dart frog is large for a poison dart frog, but may be smaller than Phyllobates terribilis and Ameerega trivittata. Small forms of D. tinctorius reach 3.5 cm (1.4 in) in snout–vent length; most variants are around 5 cm (2.0 in) in length or slightly bigger; some of the largest variants may reach 7 cm (2.8 in).[9][10] Although some variants are smaller or larger, differences tend to be average with some overlap in full size range (i.e., a large individual of a small variant often is comparable in size to a small individual of a large variant).[11]
Males are typically smaller and more slender than females, but they have larger toe discs. The toe discs of female dyeing poison dart frogs are circular while those of the males are heart-shaped. Also the females have arched backs as opposed to males who have curved ones.
Morphs
[edit]Dendrobates tinctorius is one of the most variably colored and patterned of all poison dart frogs, with more than 30 recognized variants or morphs. Each main variant or morph is unique to a locality or region, although there is also a level of individual variation in each. Typically, the body is primarily black, with an irregular pattern of yellow or whitish stripes running along the back, upper flanks and head, and an irregular pattern of blue stripes on the lower flanks, belly and throat. The legs typically are blue peppered with small black; the blue ranges from pale blue, sky blue or blue-gray to royal blue, cobalt blue, navy blue or greenish blue. In some variants or morphs, however, the body and legs may be primarily blue (as in the "azureus" of southern Suriname, now usually considered a morph of the dyeing poison dart frog), primarily yellow, or primarily whitish. The "Matécho" morph from Saül, French Guiana, is mostly yellow and with some black, with only a few specks of white on the toes and sometimes whitish on the underparts. Another variant, the "Citronella" morph from the vicinity of Kasikasima, Suriname, is primarily deep yellow with some black blotches on the back and head, and royal blue legs and underparts with tiny black spots.[9][10] Despite the large variation in appearance, the genetic differences between the different populations of the dyeing poison dart frog are very marginal.[11]
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D. tinctorius "Patricia"
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In Roura, French Guiana
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D. tinctorius "Regina"
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D. tinctorius "Powder Blue"
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D. tinctorius "Giant Orange"
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D. tinctorius "Citronella"
Poison
[edit]Like most species of the genus Dendrobates, D. tinctorius is highly toxic if consumed. It produces pumiliotoxins and allopumiliotoxins that the frog uses for self-defense. While pumiliotoxins are weaker than their derivative allopumiliotoxins and the batrachotoxins secreted by Phyllobates species, they are sufficiently toxic to discourage most animals from feeding on them. In the case of D. tinctorius, the toxins cause pain, cramping, and stiffness when the frogs are handled roughly. Due to the toxins of the frogs, animals that feed on D. tinctorius will typically learn to associate the bright colours of such frogs with the vile taste and pain that occurs after a frog is ingested. As it is such a variable species, different color variants of D. tinctorius have varying degrees of toxicity and many can cause serious effects on humans including death.
In the northwest of the Brazilian Amazon rainforest, there was a report of envenomation by this species. The patients were two photographers, 47 and 30 years old and both men. One photographer quickly captured the frog and held it for about five seconds with his own hands, before releasing it and washing his hands in a nearby stream. The other photographer kept the frog from moving by placing both his hands on top. Neither of them suffered hand injuries. Both photographed the poison dart frog for about five minutes without touching it again. However, 20 minutes after the first contact, the photographer who initially handled it began to feel numbness in his right arm, mainly at the height of the forearm. The other photographer, who after taking photos had touched his mouth without first washing his hands, felt a slight numbness in his lower lip. After 40 minutes, they no longer felt symptoms. Their symptoms could have been aggravated if the contact with the animal had lasted longer or if there had been a wound at the points of contact.[12]
The main alkaloid carried by this species is pumiliotoxin (PTX), which is highly toxic. PTX interferes with the muscle contractions by affecting the calcium channels, causing locomotor difficulties, clonic convulsions, paralysis or even death. D. tinctorius toxin can lead to cardio-respiratory problems, mainly through the neurotoxic action, which affects the sodium and potassium channels, impairing the muscle contraction, and consequently, the heart and breathing muscles.[12]
References
[edit]- ^ a b c IUCN SSC Amphibian Specialist Group. (2023). "Dendrobates tinctorius". IUCN Red List of Threatened Species. 2023: e.T55204A61395760. doi:10.2305/IUCN.UK.2023-1.RLTS.T55204A61395760.en. Retrieved 27 August 2024.
- ^ "Appendices | CITES". cites.org. Retrieved 2022-01-14.
- ^ Rojas, Bibiana; Pašukonis, Andrius (2019-09-17). "From habitat use to social behavior: natural history of a voiceless poison frog, Dendrobates tinctorius". PeerJ. 7: e7648. doi:10.7717/peerj.7648. ISSN 2167-8359. PMC 6753930. PMID 31576237.
- ^ Rojas, Bibiana (September 2015). "Mind the gap: treefalls as drivers of parental trade-offs". Ecology and Evolution. 5 (18): 4028–4036. doi:10.1002/ece3.1648. ISSN 2045-7758. PMC 4588652. PMID 26445657.
- ^ Rojas, Bibiana (April 2014). "Strange parental decisions: fathers of the dyeing poison frog deposit their tadpoles in pools occupied by large cannibals". Behavioral Ecology and Sociobiology. 68 (4): 551–559. doi:10.1007/s00265-013-1670-y. ISSN 0340-5443.
- ^ Born, Marga; Bongers, Franz; Poelman, Erik; Sterck, Frank (June 2010). "Dry-season retreat and dietary shift of the dart-poison frog Dendrobates tinctorius (Anura: Dendrobatidae)". Phyllomedusa. 9 (1): 37–52. doi:10.11606/issn.2316-9079.v9i1p37-52. Retrieved 20 April 2015.
- ^ Rojas, Bibiana; Endler, John A. (22 Jun 2013). "Sexual dimorphism and intra-populational colour pattern variation in the aposematic frog Dendrobates tinctorius". Evolutionary Ecology. 27 (4): 739–753. Bibcode:2013EvEco..27..739R. doi:10.1007/s10682-013-9640-4. S2CID 13669947.
- ^ Fouilloux, Chloe A.; Rojas, Shirley Jennifer Serrano; Carvajal-Castro, Juan David; Valkonen, Janne K.; Gaucher, Philippe; Fischer, Marie-Therese; Pašukonis, Andrius; Rojas, Bibiana (2021). "Pool choice in a vertical landscape: Tadpole-rearing site flexibility in phytotelm-breeding frogs". Ecology and Evolution. 11 (13): 9021–9038. Bibcode:2021EcoEv..11.9021F. doi:10.1002/ece3.7741. ISSN 2045-7758. PMC 8258215. PMID 34257942.
- ^ a b "Dyeing Poison Dart Frog". frogsandco.com. 2 April 2021. Retrieved 3 December 2023.
- ^ a b "Dendrobates tinctorius - Morphguide" (in German). tinctorius.ch. Retrieved 3 December 2023.
- ^ a b Wollenberg, Katharina C.; Veith, Michael; Noonan, Brice P.; Lötters, Stefan (2006). Quattro, J. M (ed.). "Polymorphism Versus Species Richness—systematics of Large Dendrobates from the Eastern Guiana Shield (Amphibia: Dendrobatidae)". Copeia. 6 (4): 623. doi:10.1643/0045-8511(2006)6[623:PVSROL]2.0.CO;2. S2CID 51861356.
- ^ a b Corrêa, Bruno Alessandro Augusto Peña; Sena, Vitor Matheus Alcântara de; Matsushita, Rubens Hisanari; Citeli, Nathalie Kaladinsky (2020-12-21). "Report of envenomation in humans by handling a dyeing poison frog Dendrobates tinctorius (SCHNEIDER, 1799) (Anura: Dendrobatidae) in the Amazon, Brazil". Revista da Sociedade Brasileira de Medicina Tropical. 54: e04612020. doi:10.1590/0037-8682-0461-2020. ISSN 0037-8682. PMC 7747814. PMID 33338114.
Further reading
[edit]- Ringler, Eva; Rojas, Bibiana; Ringler, Max; Hödl, Walter (October 2012). "Characterization of Nine Polymorphic Micro Satellite Loci in the Dyeing Poison Frog Dendrobates Tinctorius (Dendrobatidae), and Their Cross-Species Utility in Two Other Dendrobatoid Species". The Herpetological Journal. 22 (4): 263–265. ISSN 0268-0130.