Brown-headed cowbird

The brown-headed cowbird (Molothrus ater) is a small, obligate brood parasitic icterid native to temperate and subtropical North America. It is a permanent resident in the southern parts of its range; northern birds migrate to the southern United States and Mexico in winter, returning to their summer habitat around March or April.[2]

Brown-headed cowbird
Temporal range:
Adult male
Adult female
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Clade: Dinosauria
Class: Aves
Order: Passeriformes
Family: Icteridae
Genus: Molothrus
Species:
M. ater
Binomial name
Molothrus ater
(Boddaert, 1783)
  Breeding range
  Year-round range
  Wintering range

Taxonomy

The brown-headed cowbird was described by the French polymath Georges-Louis Leclerc, Comte de Buffon in 1775 in his Histoire Naturelle des Oiseaux from a specimen collected in the Carolinas.[3] The bird was also illustrated in a hand-colored plate engraved by François-Nicolas Martinet in the Planches Enluminées D'Histoire Naturelle, which was produced under the supervision of Edme-Louis Daubenton to accompany Buffon's text.[4] Neither the plate caption nor Buffon's description included a scientific name, but in 1783, Dutch naturalist Pieter Boddaert coined the binomial name Oriolus ater in his catalogue of the Planches Enluminées.[5] The brown-headed cowbird is now placed in the genus Molothrus that was introduced by English naturalist William John Swainson in 1832 with the brown-headed cowbird as the type species.[6][7] The genus name combines the Ancient Greek mōlos meaning "struggle" or "battle" with thrōskō meaning "to sire" or "to impregnate". The specific name ater is Latin for "dull black".[8] The English name "cowbird", first recorded in 1839, refers to this species often being seen near cattle.[9]

Three subspecies are recognised:[7]

  • M. a. artemisiae Grinnell, 1909 – interior west Canada and west USA
  • M. a. obscurus (Gmelin, JF, 1789) – coastal Alaska, Canada, USA, and northwest Mexico
  • M. a. ater (Boddaert, 1783) – southeast Canada, east and central USA, and northeast Mexico

Description

The brown-headed cowbird is typical for an icterid in general shape, but is distinguished by its finch-like head and beak and smaller size. The adult male is iridescent black in color with a brown head. The adult female is slightly smaller and is dull grey with a pale throat and very fine streaking on the underparts. Their total length is 16–22 cm (6.3–8.7 in) and the average wingspan is 36 cm (14 in).[10] Body mass can range from 30–60 g (1.1–2.1 oz), with females averaging 38.8 g (1.37 oz) against the males' average of 49 g (1.7 oz).[11]

Distribution and habitat

Brown-headed cowbird male (right) courting female

The species lives in open or semiopen country, and often travels in flocks, sometimes mixed with red-winged blackbirds (particularly in spring) and bobolinks (particularly in fall), as well as common grackles or European starlings.[2] These birds forage on the ground, often following grazing animals such as horses and cattle to catch insects stirred up by the larger animals. They mainly eat seeds and insects.

Before European settlement, brown-headed cowbirds followed bison herds across the prairies. Their population expanded with the clearing of forested areas and the introduction of new grazing animals by settlers across North America. They are now commonly seen at suburban birdfeeders.

In 2012, brown-headed cowbirds in northwest Riverside County, CA tested positive for West Nile Virus.[12]

Behavior and ecology

Eastern phoebe nest with one brown-headed cowbird egg
Juvenile in California

Brood parasitism

Common yellowthroat feeding juvenile brown-headed cowbird

The brown-headed cowbird is an obligate brood parasite; it lays its eggs in the nests of other small passerines (perching birds), particularly those that build cup-like nests. The brown-headed cowbird eggs have been documented in nests of at least 220 host species, including hummingbirds and raptors.[13][14] More than 140 different species of birds are known to have raised young cowbirds.[15] The young cowbird is fed by the host parents at the expense of their own young. Brown-headed cowbird females can lay up to 36 eggs in a season.

Host response

Some host species, such as the house finch, feed their young a vegetarian diet. This is unsuitable for young brown-headed cowbirds, meaning few survive to fledge.[16] Accepting a cowbird egg and rearing a cowbird chick can be costly to a host species. In the American redstart, nests parasitized by cowbirds were found to have a higher rate of predation, likely due in part to the loud begging calls by the cowbird nestling, but also partly explained by the fact that nests likely to be parasitized are also more likely to be preyed upon.[17][18]:199

Unlike the common cuckoo, the brown-headed cowbird is not divided into gentes whose eggs imitate those of a particular host. Host species sometimes notice the cowbird egg, with different hosts reacting to the egg in different ways. Some, like the blue-grey gnatcatcher, abandon their nest, losing their own eggs as well. Others, like the American yellow warbler, bury the foreign egg under nest material, where it perishes.[19] The brown thrasher physically ejects the egg from the nest.[14] Experiments with grey catbirds, a known cowbird host, have shown that this species rejects cowbird eggs more than 95% of the time. For this species, the cost of accepting cowbird eggs (i.e. the loss of their own eggs or nestlings through starvation or the actions of the nestling cowbird) was far higher than the cost of rejecting those eggs (i.e. where the host might conceivably eject its own egg accidentally).[20] Brown-headed cowbird nestlings are also sometimes expelled from the nest. Nestlings of host species can also alter their behavior in response to the presence of a cowbird nestling.

Parasite response

Song sparrow nestlings in parasitized nests alter their vocalizations in frequency and amplitude so that they resemble the cowbird nestling, and these nestlings tend to be fed equally often as nestlings in unparasitized nests.[21]

Brown-headed cowbirds seem to periodically check on their eggs and young after they have deposited them. Removal of the parasitic egg may trigger a retaliatory reaction termed "mafia behavior". According to one study the cowbird returned to ransack the nests of a range of host species 56% of the time when their egg was removed. In addition, the cowbird also destroyed nests in a type of "farming behavior" to force the hosts to build new ones. The cowbirds then laid their eggs in the new nests 85% of the time.[22]

Young cowbirds are not exposed to species-typical visual and auditory information like other birds. Despite this, they are able to develop species-typical singing, social, and breeding behaviors.[23] Cowbird brains are wired to respond to the vocalizations of other cowbirds, allowing young to find and join flocks of their own species. These vocalizations are consistent across all cowbird populations, and serve as a sort of species-recognition password. If a young cowbird is not exposed to these "password" vocalizations by a certain age, it will mistakenly imprint on the host species.[24]

Male behavior and reproductive success

Social behaviors of cowbird males include aggressive, competitive singing bouts with other males and pair bonding and monogamy with females.

By manipulating demographics so juveniles only had access to females, juvenile males developed atypical social behavior; they did not engage in the typical social singing bouts with other males, did not pair bond with females, and were promiscuous. This demonstrates that great flexibility occurs in the behavior of cowbirds, and that the social environment is extremely important in structuring their behavior. Adult males housed with juvenile males were shown to have greater reproductive success compared to adult males housed with other adult males. Being housed with juvenile males honed the reproductive skills of the adult males by providing them with a more complex social environment.

This finding was further studied by comparing the behaviors and reproductive success of males exposed to a dynamic flock, consisting of changing individuals, with males exposed to a static group of individuals. The individuals that stayed with the same group (i.e., static flock) had a stable, predictable relationship between social behavior and reproductive success; the males that sang frequently to females experienced the greatest reproductive success. The adult males that were exposed to a rotating roster of new individuals (i.e., dynamic flock) had an unpredictable relationship between social variables and reproductive success; these males were able to copulate using a much greater variety of social strategies. The males that lived in static flocks had high levels of consistency in their behaviors and reproductive success across multiple years, whereas the males in dynamic flocks experienced varying levels of dominance with other males, differing levels of singing to females, and differing levels of reproductive success.[23]

Relationship to humans

With the expansion of its range and its parasitic behavior, the brown-headed cowbird is often regarded as a pest. People sometimes engage in cowbird control programs, with the intention of protecting species negatively impacted by the cowbirds' brood parasitism. A study of nests of Bell's vireo highlighted a potential limitation of these control programs, demonstrating that removal of cowbirds from a site may create an unintended consequence of increasing cowbird productivity on that site, because with fewer cowbirds, fewer parasitized nests are deserted, resulting in greater nest success for cowbirds.[25]

References

  1. BirdLife International (2018). "Molothrus ater". IUCN Red List of Threatened Species. 2018: e.T22724354A132175819. doi:10.2305/IUCN.UK.2018-2.RLTS.T22724354A132175819.en. Retrieved 11 November 2021.
  2. Henninger, W.F. (1906). "A preliminary list of the birds of Seneca County, Ohio" (PDF). Wilson Bull. 18 (2): 47–60.
  3. Buffon, Georges-Louis Leclerc de (1775). "Le petit troupiale noir". Histoire Naturelle des Oiseaux (in French). Vol. 5. Paris: De L'Imprimerie Royale. pp. 303–304.
  4. Buffon, Georges-Louis Leclerc de; Martinet, François-Nicolas; Daubenton, Edme-Louis; Daubenton, Louis-Jean-Marie (1765–1783). "Troupiale, de la Caroline". Planches Enluminées D'Histoire Naturelle. Vol. 7. Paris: De L'Imprimerie Royale. Plate 606 Fig. 1.
  5. Boddaert, Pieter (1783). Table des planches enluminéez d'histoire naturelle de M. D'Aubenton : avec les denominations de M.M. de Buffon, Brisson, Edwards, Linnaeus et Latham, precedé d'une notice des principaux ouvrages zoologiques enluminés (in French). Utrecht. p. 37, Number 606 Fig. 1.
  6. Swainson, William John; Richardson, J. (1831). Fauna boreali-americana, or, The zoology of the northern parts of British America. Vol. Part 2. The Birds. London: J. Murray. p. 277. The title page bears the year 1831, but the volume did not appear until 1832.
  7. Gill, Frank; Donsker, David, eds. (2019). "Oropendolas, orioles, blackbirds". IOC World Bird List Version 9.2. International Ornithologists' Union. Retrieved 3 September 2019.
  8. Jobling, James A. (2010). The Helm Dictionary of Scientific Bird Names. London: Christopher Helm. pp. 58, 258. ISBN 978-1-4081-2501-4.
  9. "Cowbird". Oxford English Dictionary (Online ed.). Oxford University Press. (Subscription or participating institution membership required.)
  10. Brown-headed Cowbird, Life History, All About Birds – Cornell Lab of Ornithology. Allaboutbirds.org. Retrieved on 2013-03-09.
  11. CRC Handbook of Avian Body Masses by John B. Dunning Jr. (Editor). CRC Press (1992), ISBN 978-0849342585.
  12. Williams, G., B. Van Dyke, B. Haynes, T. Hallum, N. McConnell, J. Allred, R. Reneau, V. Strode, L.S. Mian and M.S. Dhillon. 2013. Mosquito and West Nile Virus Surveillance at Northwest Mosquito and Vector Control District during 2012. Proc. Calif. Mosq. Vector Control Assoc. 81:147-153.
  13. Friedman and Kiff, Herbert and Lloyd F. (16 May 1985). "The parasitic cowbirds and their hosts". Proceedings of the Western Foundation of Vertebrate Zoology. 2 (4): 225–304.
  14. Ortega, C.P. (1998) Cowbirds and Other Brood Parasites. University of Arizona Press, Tucson, ISBN 0816515271.
  15. Jaramillo, Alvaro; Peter Burke (1999). New World Blackbirds: The Iceterids. London: Christopher Helm. p. 382.
  16. Kozlovic, Daniel R.; Knapton, Richard W.; Barlow, Jon C. (1996). "Unsuitability of the House Finch as a Host of the Brown-Headed Cowbird" (PDF). The Condor. 96 (2): 253–258. doi:10.2307/1369143. JSTOR 1369143.
  17. Hannon, Susan J.; Wilson, Scott; McCallum, Cindy A. (2009). "Does cowbird parasitism increase predation risk to American redstart nests?". Oikos. 118 (7): 1035–1043. doi:10.1111/j.1600-0706.2008.17383.x.
  18. Magrath, Robert D.; Haff, Tonya M.; Horn, Andrew G.; Leonard, Marty L. (2010). "Calling in the Face of Danger". Advances in the Study of Behavior. Vol. 41. Elsevier. pp. 187–253. doi:10.1016/s0065-3454(10)41006-2. ISBN 9780123808929. ISSN 0065-3454.
  19. Sealy, Spencer g. (April 1995). "Burial of cowbird eggs by parasitized yellow warblers: an empirical and experimental study". Animal Behaviour. 49 (4): 877–889. doi:10.1006/anbe.1995.0120. S2CID 53193861.
  20. Lorenzana, J. C. (2001). "Fitness costs and benefits of cowbird egg ejection by Gray Catbirds". Behavioral Ecology. 12 (3): 325–329. doi:10.1093/beheco/12.3.325.
  21. Pagnucco, K.; Zanette, L.; Clinchy, M.; Leonard, M. L (2008). "Sheep in wolf's clothing: host nestling vocalizations resemble their cowbird competitor's". Proceedings of the Royal Society B: Biological Sciences. 275 (1638): 1061–1065. doi:10.1098/rspb.2007.1706. PMC 2600908. PMID 18252675.
  22. Hoover, Jeffrey P.; . Robinson & Scott K. (2007). "Retaliatory mafia behavior by a parasitic cowbird favors host acceptance of parasitic eggs". PNAS. 104 (11): 4479–4483. Bibcode:2007PNAS..104.4479H. doi:10.1073/pnas.0609710104. PMC 1838626. PMID 17360549.
  23. White, D.J.; Gersick, A.S.; Snyder-Mackler, N. (2012). "Social Networks and the Development of Social Skills in Cowbirds" (PDF). Philosophical Transactions of the Royal Society B: Biological Sciences. 367 (1597): 1892–900. doi:10.1098/rstb.2011.0223. PMC 3367704. PMID 22641827. Archived from the original (PDF) on 22 November 2014. Retrieved 12 April 2014.
  24. Lynch, Kathleen S.; Gaglio, Annmarie; Tyler, Elizabeth; Coculo, Joseph; Louder, Matthew I. M.; Hauber, Mark E. (18 April 2017). "A neural basis for password-based species recognition in an avian brood parasite". Journal of Experimental Biology. 220 (13): 2345–2353. doi:10.1242/jeb.158600. PMID 28420657 via Company of Biologists.
  25. Kosciuch, Karl L.; Sandercock, Brett K. (2008). "Cowbird removals unexpectedly increase productivity of a brood parasite and the songbird host" (PDF). Ecological Applications. 18 (2): 537–548. doi:10.1890/07-0984.1. PMID 18488614. Archived from the original (PDF) on 6 March 2015. Retrieved 9 March 2013.
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