Jump to content

Club-winged manakin

From Wikipedia, the free encyclopedia

This is an old revision of this page, as edited by Couiros22 (talk | contribs) at 12:50, 30 November 2016. The present address (URL) is a permanent link to this revision, which may differ significantly from the current revision.

Club-winged manakin
Male in NW Ecuador
Scientific classification
Kingdom:
Phylum:
Class:
Order:
Family:
Genus:
Species:
M. deliciosus
Binomial name
Machaeropterus deliciosus
(Sclater, 1852)

The club-winged manakin (Machaeropterus deliciosus) is a small passerine bird which is a resident breeding species in the cloud forest on the western slopes of the Andes Mountains of Colombia and northwestern Ecuador. The manakins are a family (Pipridae) of small bird species of subtropical and tropical Central and South America.

Sound-making mechanism

The structures were first noted by P. L. Sclater in 1860, and the sound production adaptations were discussed by Charles Darwin in 1871[2][3]

Like several other manakins, the club-winged manakin produces a mechanical sound with its extremely modified secondary remiges, an effect known as sonation.[4] The manakins have adapted their wings in this odd way as a result of sexual selection. Charles Darwin noted how females could cause evolutionary change simply by the influence of their mating preferences. Thus, in manakins, the males have evolved adaptations to suit the females' attraction towards sound. Wing sounds in many manakin lineages, however, have evolved independently. Some species pop like a firecracker, and there are a couple that make whooshing noises in flight. The club-winged manakin, with its unique ability to produce musical sounds, is indisputably the most extreme example of sexual selection in manakins.[citation needed]

Each wing of the club-winged manakin has one feather with a series of at least seven ridges along its central vane. Next to the strangely ridged feather is another feather with a stiff, curved tip. When the bird raises its wings over its back, it shakes them back and forth over 100 times a second (hummingbirds typically flap their wings only 50 times a second). Each time it hits a ridge, the tip produces a sound. The tip strikes each ridge twice: once as the feathers collide, and once as they move apart again. This raking movement allows a wing to produce 14 sounds during each shake. By shaking its wings 100 times a second, the club-winged manakin can produce up to 1,400 single sounds during that time.[5] In order to withstand the repeated beating of its wings together, the club-winged manakin has evolved solid wing bones (by comparison, the bones of most birds are hollow, making flight easier).[6]

While this "spoon-and-washboard" anatomy is a well-known sound-producing apparatus in insects (see stridulation), it had not been well documented in vertebrates (some snakes stridulate too, but they do not have dedicated anatomical features for it). An analysis was made using high speed photography in 2005.

References

  1. ^ Template:IUCN
  2. ^ Sclater, P. L. (1860). "List of Birds collected by Mr. Fraser in Ecuador, at Nanegal, Calacali, Perucho, and Puellaro, with notes and descriptions of new species". Proceedings of the Zoological Society of London: 83–97.
  3. ^ Darwin, Charles (1871). The descent of man and selection in relation to sex. Vol. 2. London: John Murray. pp. 65–66.
  4. ^ Bostwick, Kimberly. "From Feathers, a Violin". BirdScope. Cornell Lab of Ornithology. Retrieved May 4, 2012.
  5. ^ Zimmer, Carl (August 2, 2005). "A New Kind of Birdsong: Music on the Wing in the Forests of Ecuador". The New York Times. The New York Times Company. Retrieved May 4, 2012.
  6. ^ Koeppel, Dan (May 2012). "The Virtuoso". National Geographic. 221 (5). Laman, Tim (photographer). National Geographic Society: 62–69.