Leks, they’re called, gatherings of males of certain animal species for competitive mating displays.
Image right: Male wire-tailed manakin with adult plumage at age three. Click photos to enlarge. (Photo by Brandt Ryder)
“Male vertebrates often form reproductive coalitions to gain access to or to defend females,” says Brandt Ryder at the Smithsonian Conservation Biology Institute in Washington, D.C., “and in most contexts they compete for those females.”
Wire-tailed manakins, however, are different in that they cooperate, forming alliances for a common cause.
Image left: A wire-tailed manakin’s bright plumage is derived from pigments in the fruits it eats. (Photo by Brandt Ryder)
This cooperative behavior appears to have evolved twice in the manakin family–in the wire-tailed manakin group, and in another group known as blue-backed manakins, which live in the same tropical forests.
Ryder, John Blake of the University of Florida, Patricia Parker of the University of Missouri-St. Louis and Bette Loiselle of the University of Florida recently published results of a long-term study of manakin leks in the journal Behavioral Ecology.
Image right: Wire-tailed manakin nests are held together with spider webs and fine plant rootlets. (Photo by Brandt Ryder)
Females have large territories, on which they feed socially with other birds of their species. Males spend as much as 90 percent of their time at leks, where they display in elaborate courtship rituals, including using their wing feathers to make buzzing and snapping sounds.
The biologists found that regardless of how manakin leks are formed, they serve several functions: increasing male reproductive success, providing access to otherwise unavailable reproductive opportunities, establishing dominance hierarchies and facilitating new complex social behaviors.
Image left: Female wire-tailed manakins are a drab green, which helps conceal their nest locations. (Photo by John Blake)
“These display coalitions have long been of interest to scientists from an evolutionary standpoint,” says Loiselle, “because of the paradox of apparent cooperative behavior in a situation with intense competition.”
Manakins are a family, the Pipridae, of unique small passerine birds; the Pipridae contains about 60 species, all living in the tropics.
Image left: Five-day-old wire-tailed manakin nestlings with bands placed on them as part of the study. (Photo by Brandt Ryder)
Manakins are found from southern Mexico to northern Argentina, Paraguay, and southern Brazil, and on Trinidad and Tobago.
They’re almost exclusively birds of the forests and woodlands. Most live in humid tropical lowlands, with a few in dry forests, river forests, and the subtropical Andes.
The birds feed in the forest understory on small fruits, including berries, and to some degree, on insects.
Since they take fruit in flight–similar to how other birds snatch insects from the air–manakins are believed to have evolved from insect-eating birds.
Loiselle, Ryder and colleagues are conducting a long-term study of wire-tailed manakins at Tiputini Biodiversity Station. Tiputini is located adjacent to the Yasuni Biosphere Reserve in Ecuador.
The scientists locate leks of wire-tailed manakins by searching for and mapping locations of “singing” male manakins along transects in study plots.
Image left: A male wire-tailed manakin displays his striking plumage against the dense rainforest understory. (Photo by Brandt Ryder)
Leks are found in seasonally flooded forests, as well as on “terra firme.” The understory vegetation at the leks varies from open to closed, many covered by old tree falls and vine tangles. Most leks are in low-elevation flat areas near streams.
Gatherings of manakins may have much to tell us about not only tropical birds, but about leks of other species, such as the sharp-tailed grouse of Canadian and U.S. prairies.
Many lekking birds are threatened by habitat loss, whether in prairie or forest.
By knowing how–and where–manakins flourish, says Ryder, “we can learn which areas of the tropical forest need further conservation measures.”
–Source: National Science Foundation, by Cheryl Dybas
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