HOME

TheInfoList



Click Here for Items Related To - Toxic Bird
OR:
Toxic Bird on:   [Wikipedia]   [Google]   [Amazon]

Toxic birds are birds that use toxins to defend themselves from predators. No species of bird is known to actively inject or produce venom, but the discovered toxic birds are known to be poisonous to touch and eat. These birds usually sequester poison from animals and plants they feed on, especially poisonous insects. Birds with known toxic traits include the
pitohui The pitohuis are bird species endemic to New Guinea. The onomatopoeic name is thought to be derived from that used by New Guineans from nearby Dorey (Manokwari), but it is also used as the name of a genus '' Pitohui'' which was established by the ...
and ifrita birds from Papua New Guinea, the European quail, the spur-winged goose, hoopoes, the bronzewing pigeon, and the
red warbler The red warbler (''Cardellina rubra'') is a small passerine bird of the New World warbler family Parulidae endemic to the highlands of Mexico, north of the Isthmus of Tehuantepec. It is closely related to, and forms a superspecies with, the ...
, among others. The pitohui, the ifrita, and the rufous or little shrikethrush all sequester batrachotoxin in their skin and feathers. The African spur-winged goose is toxic to eat as it sequesters poison in its tissues, from the
blister beetle Blister beetles are beetles of the family Meloidae, so called for their defensive secretion of a blistering agent, cantharidin. About 7,500 species are known worldwide. Many are conspicuous and some are aposematically colored, announcing their ...
s that it feeds on. European quail are also known to be toxic and are able to cause coturnism at certain stages in their migrations.


Initial research

The first research done on toxic birds was published in 1992 by Dumbacher ''et al.'', which found traces of the
neurotoxin Neurotoxins are toxins that are destructive to nerve tissue (causing neurotoxicity). Neurotoxins are an extensive class of exogenous chemical neurological insultsSpencer 2000 that can adversely affect function in both developing and mature ner ...
homobatrachotoxin, a steroid alkaloid with the ability to polarize Na+ channels, in the feathers and body tissue of many species of New Guinea passerine birds of the genus ''Pitohui'' and ''Ifrita''. Before 1992, the toxins of the passerine birds of New Guinea had only been found in three species of poison dart frogs in Western
Colombia Colombia (, ; ), officially the Republic of Colombia, is a country in South America with insular regions in North America—near Nicaragua's Caribbean coast—as well as in the Pacific Ocean. The Colombian mainland is bordered by the Car ...
(''Phyllobates terribilis'', ''Phyllobates bicolor'', ''Phyllobates aurotaenia''). Phyllobates kept in captivity do not develop the toxins, and the extent of the toxicity varies both in the pitohuis across their range. Both of these facts suggest that the toxins are obtained from diet. Toxic insects, primarily beetles, in the diets of these toxic birds are the most common sources for the bird’s toxicity. In the New Guinea bird species of Pitohui and Ifrita, the beetles of genus '' Choresine'', natively known as ''nanisani'', are pivotal food sources, and toxin sources, of these birds.


Use of toxins

Poison is the only form of toxic weaponry that has evolved within birds, and it appears to have been gained in particular independent clusters of avian lineages (e.g., Pitohui and Ifrita). These clusters appear near the tips of the phylogeny which, combined with the higher rate of loss than gain, suggests that many lineages have likely evolved the ability to sequester poisons through time, but have subsequently lost that ability. It is hypothesized that this chemical defence is effectively used against predators such as snakes, raptors, and some arboreal marsupials. It is also hypothesized that skin/feather toxicity is used as a defence against ectoparasites. Batrachotoxins have been found to be poisonous to distantly related orders of insects, which suggests that batrachotoxins may well be effective against a wide range of ectoparasite arthropods. These ectoparasites have been found to play a role in the reproduction of birds in the genus ''Pitohui'' and ''Ifrita'', in which their presence on the host increases time and energy spent during reproduction periods. The development of batrachotoxin in toxic birds has led to an advantage of these birds against ectoparasites, as they deter parasites from finding sanctuary on bird body tissue and feathers with the toxin, which suggests ectoparasites to be an important evolutionary force in sexual selection.


Origins of batrachotoxins in birds

The search for batrachotoxins in organisms consumed by birds has yet to indicate an exogenous source. Stomach content studies reveal a variety of arthropods, mostly insects, and occasional fruits, but chemical analyses of these materials fail to reveal the presence of toxins. One can only speculate on sources of avian batrachotoxins if they are not synthesized '' de novo''. The occurrence of batrachotoxins in muscle, viscera, and deep regions of the skin argues against these substances being topically applied, i.e., through “anting,” a behavior common in passerines where arthropods, fruits, or other materials are smeared directly onto the plumage. Perhaps birds sequester batrachotoxins produced by microorganisms in a way analogous to that in which
pufferfish Tetraodontidae is a family of primarily marine and estuarine fish of the order Tetraodontiformes. The family includes many familiar species variously called pufferfish, puffers, balloonfish, blowfish, blowies, bubblefish, globefish, swellfis ...
may obtain tetrodotoxin, another neurotoxin, from bacteria in their skin.


See also

* List of poisonous animals * Poisonous amphibians * List of venomous animals * Venomous snake * Venomous fish * Venomous mammals


References

{{reflist Birds Poisonous animals