|A. g. guarauna, Brazil|
|Range of A. guarauna|
The limpkin (Aramus guarauna), also called carrao, courlan, and crying bird, is a bird that looks like a large rail but is skeletally closer to cranes. It is the only extant species in the genus Aramus and the family Aramidae. It is found mostly in wetlands in warm parts of the Americas, from Florida to northern Argentina. It feeds on molluscs, with the diet dominated by apple snails of the genus Pomacea. Its name derives from its seeming limp when it walks.
Taxonomy and systematics
The limpkin is placed in its own monotypic family, Aramidae, which is in turn placed within the crane and rail order Gruiformes. It had been suggested that the limpkin was close to the ibis and spoonbill family Threskiornithidae, based upon shared bird lice. The Sibley–Ahlquist taxonomy of birds, based upon DNA–DNA hybridization, suggested that the limpkin's closest relatives were the Heliornithidae finfoots, and Sibley and Monroe even placed the species in that family in 1990. More recent studies have found little support for this relationship. More recent DNA studies have confirmed a close relationship with particularly the cranes, with the limpkin remaining as a family close to the cranes and the two being sister taxa to the trumpeters.
Between 1856 and 1934 the limpkin was treated as two species, one in South America (Aramus guarauna) and the other found in Central America, the Caribbean and Florida (Aramus pictus). Today it is treated as a single species with four subspecies. Along with the nominate subspecies A. g. guarauna there is A. g. dolosus and A. g. elucus (both J. L. Peters, 1925) and A. g. pictus (F. A. A. Meyer, 1794). The difference between the subspecies are related to slight differences in size and plumage.
Although the limpkin is the only extant species in the family today, there are several fossils of extinct Aramidae known from across the Americas. The earliest known species in the genus Aramus, Aramus paludigrus is dated to the middle Miocene, while the oldest supposed members of the family, Aminornis and Loncornis, have been found in early Oligocene deposits in Argentina, although it is not certain that these are indeed related – in fact Loncornis seems to be a misidentified mammal bone. Another Oligocene fossil from Europe, Parvigrus pohli (family Parvigruidae), has been described as a mosaic of the features shared by the limpkins and the cranes. It shares many morphological features with the cranes and limpkins, but also was much smaller than either group, and was more rail-like in its proportions. In the paper describing the fossil Gerald Mayr suggested that it was similar to the stem species of the grues (the cranes and limpkins), and that the limpkins evolved massively long bills as a result of the specialisation to feeding on snails. In contrast, the cranes evolved into long-legged forms to walk and probe on open grasslands.
The limpkin is a somewhat large bird, 64–73 cm (25–29 in) long, with a wingspan of 101–107 cm (40–42 in). Body mass ranges from 900 to 1,300 g (2.0 to 2.9 lb), averaging 1,080 g (2.38 lb). The males are slightly larger than the females in size, but there is no difference in plumage. Its plumage is drab—dark brown with an olive luster above. The feathers of the head, neck, wing coverts, and much of the back and underparts (except the rear) are marked with white, making the body look streaked and the head and neck light gray. It has long, dark-gray legs and a long neck. Its bill is long, heavy, and downcurved, yellowish bill with a darker tip. The bill is slightly open near but not at the end to give it a tweezers-like action in removing snails from their shells, and in many individuals the tip curves slightly to the right, like the apple snails' shells. The white markings are slightly less conspicuous in first-year birds. Its wings are broad and rounded and its tail is short. It is often confused with the immature American white ibis.
This bird is easier to hear than see. Its common vocalization is a loud wild wail or scream with some rattling quality, represented as "kwEEEeeer or klAAAar." This call is most often given at night and at dawn and dusk. It has been used for jungle sound effects in Tarzan films and for the hippogriff in the film Harry Potter and the Prisoner of Azkaban. Other calls include "wooden clicking", clucks, and in alarm, a "piercing bihk, bihk...".
Distribution and habitat
The limpkin occurs from peninsular Florida (and formerly the Okefenokee Swamp in southern Georgia) and southern Mexico through the Caribbean and Central America to northern Argentina. In South America it occurs widely east of the Andes; west of them its range extends only to the Equator.
It inhabits freshwater marshes and swamps, often with tall reeds, as well as mangroves. In the Caribbean, it also inhabits dry brushland. In Mexico and northern Central America, it occurs at altitudes up to 1,500 m (4,900 ft). In Florida the distribution of apple snails is the best predictor of where limpkins can be found.
The limpkin undertakes some localised migrations, although the extent of these are not fully understood. In some parts in the northern part of the range females (and a few males) will leave the breeding areas at the end of summer, returning at the end of winter. In Brazil, birds breeding in some seasonal marshes will leave during the dry season and return again with the rains. Birds may also migrate between Florida and Cuba, as there are several records of limpkins on the Florida Keys and Dry Tortugas, but these records may also represent vagrants or post-breeding dispersal. One study in Florida using wing tags found limpkins dispersed up to 325 km (202 mi) away from the breeding site. This tendency may explain vagrant limpkins seen in other parts of the United States and at sea near the Bahamas.
Behavior and ecology
Limpkins are active during the day but will also forage at night. Where they are not persecuted they are also very tame and approachable. Even so, they are usually found near cover. They are not aggressive for the most part, being unconcerned by other species and rarely fighting with members of their own species.
Because of their long toes, they can stand on floating water plants. They also swim well, both as adults or as newly hatched chicks, but they seldom do so. They fly strongly, the neck projecting forward and the legs backward, the wings beating shallowly and stiffly, with a jerky upstroke, above the horizontal most of the time.
Limpkins forage primarily in shallow water and on floating vegetation such as water hyacinth and water lettuce. When wading they seldom go deeper than having half the body underwater, and never are submerged up to the back. They walk slowly with a gait described as "slightly undulating" and "giving the impression of lameness or limping", "high-stepping", or "strolling", looking for food if the water is clear or probing with the bill. They do not associate with other birds in mixed-species feeding flocks, as do some other wading birds, but may forage in small groups with others of their species.
The diet of the limpkin is dominated by apple snails (Ampullariidae) of the genus Pomacea. The availability of this one mollusk has a significant effect on the local distribution of the limpkin. Freshwater mussels, including Anodonta cowperiana, Villosa vibex, Elliptio strigosus, E. jayensis, and Uniomerus obesus, as well as other kinds of snails, are a secondary food sources. Less important prey items are insects, frogs, lizards, crustaceans and worms. These prey items may be important in periods of drought or flooding when birds may be pushed into less than optimal foraging areas. In one site in Florida, moon snails and mussels were the most important prey items. Two studies, both in Florida, have looked at the percentage composition of the diet of limpkins. One, looking at stomach contents, found 70% Pomacea apple snails, 3% Campeloma and 27% unidentified mollusc, probably Pomacea.
When a limpkin finds an apple snail, it carries it to land or very shallow water and places it in mud, the opening facing up. It deftly removes the operculum or "lid" and extracts the snail, seldom breaking the shell. The extraction takes 10 to 20 seconds. The orange-yellow yolk gland of female snails is usually shaken loose and not eaten. It often leaves piles of empty shells at favored spots.
Reproduction and breeding
Males have exclusive territories, which can vary in size from 0.15 to 4 ha (0.37 to 9.88 acres). In large uniform swamps, nesting territories can often be clumped together, in the form of large colonies. These are vigorously defended, with males flying to the territory edges to challenge intruders and passing limpkins being chased out of the territory. Territorial displays between males at boundaries include ritualized charging and wing-flapping. Females may also participate in territorial defence but usually only against other females or juveniles. Territories may be maintained year-round or abandoned temporarily during the non-breeding season, usually due to lack of food.
Limpkins may be either monogamous, with females joining a male's territory, or serially polyandrous, with two or more females joining a male. With the monogamous pairs, banding studies have shown that a small number of pairs will reform the following year (4 out of 18 pairs).
Nests may be built in a wide variety of places – on the ground, in dense floating vegetation, in bushes, or at any height in trees. They are bulky structures of rushes, sticks or other materials. Nest building is undertaken by the male initially, who will construct the nest in his territory prior to pair-bond formation. Unpaired females will visit a number of territories before settling on a male to breed with. Males may initially challenge and fight off prospective mates, and may not accept first-year females as mates. Pair-bond formation may take a few weeks. Courtship feeding is part of the bonding process, where males catch and process a snail and then feed it to the female.
The clutch consists of 3 to 8 eggs, with 5 to 7 being typical and averaging 5.5, which measure 6.0 cm × 4.4 cm (2.4 in × 1.7 in). The egg color is highly variable. Their background color ranges from gray-white through buff to deep olive, and they are marked with light-brown and sometimes purplish-gray blotches and speckles. The eggs are laid daily until the clutch is complete, and incubation is usually delayed until the clutch is completed. Both parents incubate the eggs during the day, but only the female incubates at night. The shift length is variable, but the male incubates for longer during the day. The male remains territorial during incubation, and will leave the clutch to chase off intruders; if this happens, the female will return quickly to the eggs. The incubation period is about 27 days, and all the eggs hatch within 24 hours of each other.
The young hatch covered with down, capable of walking, running, and swimming. They follow their parents to a platform of aquatic vegetation where they will be brooded. They are fed by both parents; they reach adult size at seven weeks and leave their parents at about 16 weeks.
Limpkins are reported to be attacked and eaten by American alligators. There are also reports of adults with serious foot and leg injuries, suggesting that they may have been attacked by turtles while standing on floating vegetation. Their nests are apparently predated by snakes, raccoons, crows and muskrats. Foraging adults may in times of drought be victims of kleptoparasitism by snail kites, and the attempted theft of apple snails caught by limpkins has also been observed in boat-tailed grackles.
Limpkins in Florida were examined for parasites, which included trematodes, nematodes and biting lice. Two biting lice species were found, Laemobothrion cubense and Rallicola funebris. The trematode Prionosoma serratum was found in the intestines of some birds, this species may enter the bird after first infecting apple snails (this has been shown to be the route of infection for a closely related trematode to infect snail kites). Nematodes Amidostomum acutum and Strongyloides sp. are also ingested and live in the gut.
Relationship with humans
Many of the limpkin's names across its range are onomatopoeic and reflect the bird's call; for example carau in Argentina, carrao in Venezuela and guareáo in Cuba. The species also has a range of common names that refer to its call, for example lamenting bird, or to its supposed gait, crippled bird. The limpkin does not feature much in folklore, although in the Amazon people believe that when the limpkin starts to call the river will not rise anymore.
- BirdLife International (2012). "Aramus guarauna". IUCN Red List of Threatened Species. Version 2013.2. International Union for Conservation of Nature. Retrieved 26 November 2013.
- National Geographic Field Guide To The Birds Of North America (4th ed.). National Geographic Society. 2002. ISBN 0-7922-6877-6.
- del Hoyo, Josep; Elliott, Andrew; Sargatal, Jordi; Christie, David A; de Juana, Eduardo, eds. (2017). "Limpkin (Aramidae)". Handbook of the Birds of the World Alive. Barcelona: Lynx Edicions. Retrieved 11 March 2017. (Subscription required (. ))
- Sibley, C.G.; Monroe Jr., B.L. (1990). Distribution and Taxonomy of Birds of the World. New Haven, CT: Yale University Press. ISBN 978-0-300-04969-5.
- Dana, Bryan (2002). Poole, A., ed. "Limpkin (Aramus guarauna)". The Birds of North America Online. Ithaca: Cornell Lab of Ornithology. doi:10.2173/bna.627. Retrieved 24 February 2010.
- Livezey, B.C. (1998). "A phylogenetic analysis of the Gruiformes (Aves) based on morphological characters, with an emphasis on the rails (Rallidae)". Philosophical Transactions of the Royal Society B. 353 (1378): 2077–2151. doi:10.1098/rstb.1998.0353.
- Fain, Matthew G.; Krajewski, Carey; Houde, Peter (2007). "Phylogeny of "core Gruiformes" (Aves: Grues) and resolution of the Limpkin–Sungrebe problem". Molecular Phylogenetics and Evolution. 43 (2): 515–529. doi:10.1016/j.ympev.2007.02.015. PMID 17419074.
- Rasmussen, Tab (1997). Kay, R.F.; Madden, R.H.; Cifelli, R.L.; Flynn, J.J., eds. Birds. Vertebrate paleontology in the neotropics – the Miocene fauna of La Venta, Colombia. Smithsonian Institution Press.
- Mayr, Gerald (2005). "A chicken-sized crane precursor from the early Oligocene of France". Naturwissenschaften. 92 (8): 389–393. doi:10.1007/s00114-005-0007-8. PMID 16052357.
- Dunning Jr., John B., ed. (1992). CRC Handbook of Avian Body Masses. CRC Press. ISBN 978-0-8493-4258-5.
- Howell, Steve N.G.; Webb, Sophie (1995). A Guide to the Birds of Mexico and Northern Central America. Oxford University Press. p. 248. ISBN 0-19-854012-4.
- Sibley, David Allen (2000). The Sibley Guide to Birds. New York: Knopf. p. 156. ISBN 0-679-45122-6.
- "Limpkin". All About Birds. Cornell Lab of Ornithology. Retrieved 1 February 2009. Includes a sound file.
- Holyoak, David; Colston, P.R. (2003). "Limpkin". In Christopher Perrins. The Firefly Encyclopedia of Birds. Firefly Books. pp. 212–213. ISBN 1-55297-777-3.
- Phillips, James. "The Peace River: Ecological Diversity". Southwest Florida Water Management District. Retrieved 30 January 2009.
- Ramanujan, Krishna (1 December 2005). "Blockbuster Sounds". Chronicle Online. Cornell News Service. Retrieved 30 January 2009.
- Peterson, Roger Tory (1947). A Field Guide to the Birds: Eastern Land and Water Birds (second revised and enlarged ed.). Houghton Mifflin Company. pp. 57–58.
- Stevenson, Henry (1994). The Birdlife of Florida. Gainesville: University Press of Florida. ISBN 0-8130-1288-0.
- Bennetts, Robert; Dreitz, Victoria J. (1997). "Possible Use of Wading Birds as Beaters by Snail Kites, Boat-Tailed Grackles, and Limpkins" (PDF). Willson Bulletin. 109 (1): 169–173. Retrieved 24 February 2010.
- Cottam, Clarence (1936). "Food of the Limpkin" (PDF). Wilson Bulletin. 48 (1): 11–13.
- Nicholson, Donald J. (1928). "Habits of the Limpkin in Florida" (PDF). Wilson Bulletin. 45 (3): 305–309. doi:10.2307/4076019.
- Miller, Bruce W.; Tilson, Ronald L. (1985). "Snail Kite kleptoparasitism of Limpkins" (PDF). The Auk. 102 (1): 170–171. doi:10.2307/4086837.
- Conti, J.; Forrester, D.; Nesbitt, S. (1985). "Parasites of limpkins, Aramus guarauna, in Florida" (PDF). Proceedings of the Helminthological Society of Washington. 52 (1): 140–142.
|Wikimedia Commons has media related to Aramus guarauna.|
|Wikispecies has information related to Aramus guarauna|