Opisthocomus hoazin are found throughout the Amazon in northern and central South America (Stotz et. al., 1996).
Biogeographic Regions: neotropical (Native )
- Clements, J. F., T. S. Schulenberg, M. J. Iliff, D. Roberson, T. A. Fredericks, B. L. Sullivan, and C. L. Wood. 2014. The eBird/Clements checklist of birds of the world: Version 6.9. Downloaded from http://www.birds.cornell.edu/clementschecklist/download/
Adult Hoatzins are approximately 24 to 26 inches in length. They have blue skin covering their faces and their eyes are red. The outer feathers are primarily chestnut-brown and the long tail is bronze-green and ends in a white band. The heads of Hoatzins are topped with a crest of reddish-brown feathers. The young are born without feathers but develop a layer of black down shortly after birth. A distinguishing feature of young Hoatzins are the pair of functional wing claws which are found on the ends of their wings on the first and second fingers. This feature is lost when the bird matures into an adult (De Schauensee, 1964, Grahm, 1990, Strahl and Grajal, 1991, Zahler, 1997).
Other Physical Features: endothermic ; bilateral symmetry
The habitat of O. hoazin includes swamps, fresh water marshes, gallery forests, and the banks of rivers, lakes and streams (Stotz et. al., 1996, Strahl and Grajal, 1991).
Terrestrial Biomes: rainforest
Habitat and Ecology
Hoatzins are primarily folivores. Although they typically feed on less than twelve species of plants, they are capable of eating the leaves of more than fifty different species. The leaves of tropical legume plants are an example of a leaf that Hoatzins commonly feed on. Other foods that are sometimes included in the diet of Hoatzins include some flowers and fruits. Opisthocomus hoazin have developed a special system that allows them to feed on leaves. They have an enlarged crop in which symbiotic bacteria are stored and used to break down the cell walls of the leaves, allowing for them to be digested. This process is called foregut fermentation and O. hoazin are the only birds with this type of digestive system. The bacteria within the crop also act as a source of nutrients for Hoatzins by occasionally getting moved into their stomachs. The bacteria are introduced to young Hoatzins when an adult regurgitates a sticky substance containing large amounts of the bacteria and feeds it to the young.
Plant Foods: leaves; fruit; flowers
Primary Diet: herbivore (Folivore )
- Strahl, S., A. Grajal. 1991. A bird with the guts to eat leaves. Natural History, Aug. '91: 48-55.
- Zahler, P. 1997. Crazy Like a Hoatzin. International Wildlife, 27: 35-39.
Life History and Behavior
Perception Channels: visual ; tactile ; acoustic ; chemical
Opisthocomus hoazin do not begin breeding until after their first year of life. The breeding season of O. hoazin occurs during the same time as the rainy season of their territory. Hoatzins build their nests on branches over the water about 6 to 15 feet above the surface. They normally lay two to three eggs and the incubation period lasts thirty-two days. Both male and female brood the young, which typically remain in the nest for two to three weeks after they hatch (Grahm, 1990, Strahl, 1988, Strahl and Grajal, 1991, Zahler, 1997).
Key Reproductive Features: iteroparous ; gonochoric/gonochoristic/dioecious (sexes separate); sexual ; oviparous
Although Opisthocomus hoazin is not considered an endangered species, human actions such as hunting and the destruction of their habitat are a growing threat to Hoatzin populations throughout South America (Strahl and Grajal, 1991). Currently the IUCN rates this species as being of "Least Concern" with respect to conservation.
US Migratory Bird Act: no special status
CITES: no special status
IUCN Red List of Threatened Species: least concern
IUCN Red List Assessment
Red List Category
Red List Criteria
Relevance to Humans and Ecosystems
Hoatzins are frequently hunted throughout South America (Strahl and Grajal, 1991).
The Hoatzin (Opisthocomus hoazin), also known as the Hoactzin, Stinkbird, or Canje Pheasant, is a species of tropical bird found in swamps, riverine forest and mangrove of the Amazon and the Orinoco delta in South America. It is notable for having chicks that possess claws on two of their wing digits.
It is the only member of the genus Opisthocomus (Ancient Greek: "wearing long hair behind", referring to its large crest[clarification needed]), which in turn is the only extant genus in the family Opisthocomidae. The taxonomic position of this family has been greatly debated, and is still far from clear.
It is a roughly pheasant-sized bird some 65 centimetres (26 in) long, with a long neck and small head. It is brown in colour, with paler underparts and has an unfeathered blue face with maroon eyes, and its head is topped by a spiky, rufous crest. The Hoatzin is herbivorous, it eats leaves and fruit, and has an unusual digestive system with an enlarged crop used for fermentation of vegetable matter, in a manner broadly analogous to the digestive system of mammalian ruminants. The name Stinkbird is related to a strong smell produced by this bird, perhaps due to the consumption and fermentation of leaves.
Taxonomy, systematics and evolution
The Hoatzin was originally described by German zoologist Statius Müller in 1776.
The Hoatzin is arguably the most enigmatic living bird in regard to its phylogenetic relationships. No satisfying evolutionary hypothesis has been proposed, and the situation has actually become worse with the availability of DNA sequence data.
There has been much debate about the Hoatzin's relationships with other birds. Because of its distinctness it has been given its own family, the Opisthocomidae, and its own suborder, the Opisthocomi. At various times, it has been allied with such taxa as the tinamous, the Galliformes (gamebirds), the rails, the bustards, seriemas, sandgrouse, doves, turacos, other Cuculiformes, and mousebirds. Altogether, it has been most frequently suggested to be related to Galliformes, turacos, or the anis (New World cuckoos).
History of the debate
Placement with the gamebirds is historical, based mainly on phenetic considerations of external morphology, which are considered unreliable and generally dismissed today; the gamebirds together with the waterfowl belong to the fowl clade whereas the Hoatzin does not. Cladistic analysis of skeletal characters, on the other hand, supports a relationship of the Hoatzin to the seriema family Cariamidae, and more distantly to the turaco and cuckoo families. However, cuckoos have zygodactyl feet (two toes forward, two backward) and turacos are semi-zygodactylous, whereas the Hoatzin has the more typical anisodactyl foot with three toes forward, one backwards. The evolution of avian dactyly, on the other hand, is not entirely resolved to satisfaction.
Sibley and Ahlquist in 1990 considered it likely to be a basal cuckoo based on DNA-DNA hybridization. Avise et al. in 1994 found mtDNA cytochrome b sequence data to agree with Sibley and Ahlquist's previous treatment. Subsequently, Hughes and Baker in 1999 proclaimed to have "resolved" the relationships of the Hoatzin to be with turacos, based on their own analysis of 6 sets of mtDNA and one of nDNA sequences.
However, using mt and nDNA sequences of increased length, Sorenson et al. in 2003 noted that all three previous DNA studies were apparently flawed due to errors in methodology, small sample size, and sequencing errors; their study strongly suggested against a close relationship between the Hoatzin and cuckoos or turacos. It was not possible, though, to reliably determine the Hoatzin's closest living relatives. Even though it tended to group with doves, this was not at all well-supported, with little more than 10% likelihood at best that such an arrangement was accurate according to Sorenson et al.'s analysis.
Fain and Houde in 2004 proposed a dichotomy in the Neoaves (neognaths excluding fowl) based on β-fibrinogen intron 7 (FGB-int7) sequences. In their suggested phylogeny, the Hoatzin was a basal member of the Metaves, a proposed clade that would include many other historically problematic bird families, such as flamingos, grebes, tropicbirds, sandgrouse and mesites. While the doves did also group with the "Metaves", no close relationship between these and the Hoatzin within Metaves was recovered.
While the other major neoavain lineage, Coronaves, largely agreed in its internal phylogeny with what is currently emerging as consensus,[note 1] the interrelationships of the "Metaves" were not resolvable. Nor do supposed metavian groupings like flamingos and nightjars or tropicbirds and hummingbirds seem to have a factual basis rather than being artifactually grouped based on molecular homoplasies or lack of informative characters within the group, as Fain and Houde originally suggested.
It seems probable that the taxa included in the Metaves by Fain and Houde contain some good clades, such as Caprimulgiformes, the Mirandornithes, or the Apodiformes. Considering that some "odd Gruiformes" which might be each other's closest living relatives make up most of the remaining Metaves, doves, the Hoatzin, and sandgrouse would remain as "Metaves incerta sedis" (Metaves with uncertain placement). This would seem to suggest that the Hoatzin is at least more closely related to doves than to many of the other purported 'coronavian' families that previously have been suggested. Subsequent multigene studies of Ericson et al. 2006 and of Hackett et al. 2008 corroborated the Metaves clades, dependent on the inclusion of one and two genes respectively, but the latter did not recover Hoatzin with Metaves.
More recently, Houde embarked on sequencing the entire genome of the Hoatzin. As of 2011, it was reported that more than 1.4 billion pase pairs of Hoatzin DNA had been sequenced, roughly equal to its entire haploid genome, but that only about 2.4% of its genome had yet been assembled. Completion of this project would be welcomed for more reasons than resolution of Hoatzin relationships. Out of the diverse Class Aves, the genomes of no more than 4 species of birds including of the waterfowl/fowl and songbirds have been sequenced. Moreover, much might be learned by coordinating these efforts with that of the metagenomic analysis of the Hoatzin foregut ruminant bacterial microflora.
As regards other material evidence, the undisputed fossil record of the hoatzins consists of a single backside of the cranium of a fossil hoatzin, specimen UCMP 42823. It is of Miocene origin[note 2] and was recovered in the upper Magdalena River Valley, Colombia in the well know fauna of La Venta. This has been placed into a distinct, less derived genus, Hoazinoides, but clearly would be placed into the same family as the extant species. It markedly differs insofar as that the cranium of the living Hoatzin is characteristic, being much domed, rounded, and shortened, and that these autapomorphies were less pronounced in the Miocene bird. Miller discussed these findings in the light of the supposed affiliation of the hoatzins and the Galliformes, which was the favored hypothesis at that time, but had been controversial almost since its inception. He cautioned, however, "that Hoazinoides by no means establishes a phyletic junction point with other galliforms." for obvious reasons, as we know today. Anything other than the primary findings of Miller are not to be expected in any case, as by the time of Hoazinoides, essentially all modern bird families are either known or believed to have been present and distinct. Going further back in time, the Late Eocene or Early Oligocene (some 34 million years ago) Filholornis from France has also been considered "proof" of a link between the Hoatzin and the gamebirds. The fragmentary fossil Hoatzi from the Eocene of Argentina and the quite complete but no less enigmatic Early-Middle Eocene (Ypresian-Lutetian, some 48 million years ago) Foro panarium[note 3] are sometimes used to argue for a hoatzin-cuculiform (including turacos) link. But as demonstrated above, this must be considered highly speculative, if not as crassly off the mark as the relationship with Cracidae discussed by Miller.
More data has probably been analysed for the Hoatzin than for any other non-ratite bird. As can be seen, not even unequivocal distant relatives can be determined. Thus, those that place the Hoatzin into an order of its own, Opisthocomiformes, might express the continuing uncertainty most adequately.
The Hoatzin is pheasant-sized, with a total length of 65 centimetres (26 in), and has a long neck and small head. It has an unfeathered blue face with maroon eyes, and its head is topped by a spiky, rufous crest. The long sooty-brown tail is broadly tipped buff. The upperparts are dark sooty-brown edged buff on the wing coverts, and streaked buff on the mantle and nape. The underparts are buff, while the crissum, primaries, underwing coverts and flanks are rich rufous-chestnut, but this is mainly visible when it opens its wings. The alternative name of "stinkbird" is derived from the bird's manure-like odour, caused by their digestive system.
This is a noisy species, with a variety of hoarse calls, including groans, croaks, hissing and grunts. These calls are often associated with body movements such as wing spreading. Calls are used to maintain contact between individuals in groups, warn off threats and intruders and by chicks begging for food.
The Hoatzin eats the leaves and to a lesser degree fruits and flowers of the plants which grow in the marshy and riverine habitats where it lives. It clambers around clumsily among the branches, and being quite tame (though they become stressed by frequent visits), often allows close approach and is reluctant to flush. The Hoatzin uses a leathery bump on the bottom of its crop to help balance itself on the branches. It was once thought that the species could only eat the leaves of arums and mangroves, but the species is now known to consume the leaves of over fifty species. One study undertaken in Venezuela found that the Hoatzins diet was 82% leaves, 10% flowers and 8% fruit.
One of this species' many peculiarities is that it has a digestive system unique amongst birds. Hoatzins use bacterial fermentation in the front part of the gut to break down the vegetable material they consume, much like cattle and other ruminants. Unlike ruminants, however, which possess the rumen (a specialized stomach for bacterial fermentation) in the Hoatzin this is the function of the crop (an enlargement of the esophagus). The crop of the Hoatzin is so large as to displace the flight muscles and keel of the sternum, much to the detriment of their flight capacity. Because of aromatic compounds in the leaves they consume and the bacterial fermentation, the bird has a disagreeable, manure-like odor and is only hunted for food in times of dire need. Any feeding of insects or other animal matter is purely accidental.
Hoatzins are seasonal breeders, breeding during the rainy season, the exact timing of which varies across its range. Hoatzins are gregarious and nest in small colonies, laying 2–3 eggs in a stick nest in a tree hanging over water in seasonally flooded forests. The chick, which is fed on regurgitated fermented food, has another odd feature; it has two claws on each wing. Immediately upon hatching, they are able to use these claws, as well as their oversized feet, to scramble around the tree branches without falling into the water. When predators like the Great Black Hawk attack a hoatzin nesting colony, the adults fly noisily about, trying to divert the predator's attention, while the chicks move away from the nest and hide among the thickets. If discovered, however, they have another amazing trick: they drop into the water and swim under the surface to escape, then later use their clawed wings to climb back to the safety of the nest. This has inevitably led to comparisons to the fossil bird Archaeopteryx, but the characteristic is rather an autapomorphy, possibly caused by an atavism towards the dinosaurian finger claws; the developmental genetics ("blueprint") of which presumably is still present in the avian genome.
Relationship with humans
Though conspicuous, even attractive, at close range due to its bizarre shape and striking colors, unwary and a poor flier, it is not considered endangered. In fact, its survival seems to be more assured than that of many other endemics of its range.[Full citation needed] In Brazil, tribal people sometimes collect the eggs for food, and the adults are occasionally hunted, but in general this is rare, as it is reputed to have a bad taste. While its preferred habitats, mangrove and riverine forest, are disappearing quickly in some regions, it is less threatened than terra firme forest, which is the primary target for deforestation in the Amazon. The Hoatzin therefore remains fairly common in a large part of its range. The Hoatzin is the national bird of Guyana.
- ^ E.g. that there is a major clade of "near passerines" and that the Charadriiformes are quite distinct.
- ^ Originally believed to be of Late Miocene age – some 10–5 million years old –, the bone was found in association with fossils of the monkey Cebupitheca sarmientoi which today is usually considered of Early or Middle Miocene, or maybe 18 but at least some 12 million years of age.
- ^ May be congeneric with Hoatzi
- ^ BirdLife International (2005). "Opisthocomus hoazin". IUCN Red List of Threatened Species. Version 2007. International Union for Conservation of Nature. http://www.iucnredlist.org/apps/redlist/details/47889. Retrieved 24 June 2008.
- ^ a b c d e f g h i Thomas, B. T. (1996). "Family Opisthocomidae (Hoatzins)". In Josep, del Hoyo; Andrew, Jordi; Sargatal, Christie (text only). Handbook of the Birds of the World. Volume 3, Hoatzins to Auks. Barcelona: Lynx Edicions. pp. 24–32. ISBN 84-87334-20-2. http://www.lynxeds.com/family-text/hbw-3-family-text-opisthocomidae-hoatzin.
- ^ Sibley, Charles G.; Monroe, Burt L., Jr. (1990). Distribution and taxonomy of the birds of the world: A Study in Molecular Evolution. New Haven: Yale University Press. ISBN 0-300-04969-2.
- ^ Avise, John C.; Nelson, William S.; Sibley, Charles G. (1994). "Why one kilobase sequences from mitochondrial DNA fail to solve the hoatzin phylogenetic enigma". Molecular Phylogenetics and Evolution 3 (2): 175–184. doi:10.1006/mpev.1994.1019. PMID 8075835.
- ^ Hughes, Janice M.; Baker, Allan J. (1999). "Phylogenetic relationships of the enigmatic hoatzin (Opisthocomus hoazin) resolved using mitochondrial and nuclear gene sequences" (PDF). Molecular Biology and Evolution 16 (9): 1300–1307. PMID 10486983. http://mbe.oxfordjournals.org/cgi/reprint/16/9/1300.pdf.
- ^ Sorenson, Michael D.; Oneal, Elen; García-Moreno, Jaime; and Mindell, David P. (2003). "More taxa, more characters: the Hoatzin problem is still unresolved" (PDF). Molecular Biology and Evolution 20 (9): 1484–1499. doi:10.1093/molbev/msg157. PMID 12777516. http://mbe.oxfordjournals.org/cgi/reprint/20/9/1484.pdf. Supplementary Material
- ^ Fain, Matthew G.; Houde, Peter (2004). "Parallel radiations in the primary clades of birds" (PDF). Evolution 58 (11): 2558–2573. doi:10.1554/04-235. PMID 15612298. http://biology-web.nmsu.edu/houde/Parallel_radiations.pdf.
- ^ The Hoatzin Genome Project Retrieved 2011-Feb-20
- ^ "Why Sequence Hoatzin crop microbiome" US Department of Energy Joint Genome Institute web page Retrieved 2011-Feb-20.
- ^ Parker, W. K. (1891). "On the Morphology of a Reptilian Bird, Opisthocomus hoazin". Transactions of the Zoological Society of London 13: 43–89. doi:10.1111/j.1096-3642.1891.tb00045.x. http://biodiversitylibrary.org/page/31083330.
- ^ Miller, Alden H. (1953). "A fossil Hoatzin from the Miocene of Colombia" (PDF). Auk 70 (4): 484–495. http://elibrary.unm.edu/sora/Auk/v070n04/p0484-p0489.pdf.
- ^ Grajal, A.; Strahl, S. D.; Parra, R.; Dominguez, M. G.; Neher, A. (1989). "Foregut fermentation in the Hoatzin, a Neotropical leaf-eating bird". Science 245 (4923): 1236–1238. doi:10.1126/science.245.4923.1236. PMID 17747887. .
- ^ BirdLife International (2004)
- ^ "Guyana National Symbols". http://www.guyanaguide.com/natsymbols.html. Retrieved 27 February 2010.