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Local movements and translocation experiments of resident and migratory birds in southern Veracruz, Mexico

Published online by Cambridge University Press:  11 May 2010

Mario A. Ramos  and
John H. Rappole
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Summary

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A total of 114 individuals of 17 resident and 10 migrant species captured at a rainforest study site in the Tuxtla Mountains of southern Veracruz, Mexico, were displaced to a second rainforest site 2.5 km distant. Return rates to point of capture were high for both groups (73% for resident species versus 74% for migrants). These comparable rates, when considered with evidence that residents can accumulate large fat reserves, indicate that resident species possess key adaptations necessary for migratory movement.

Un total de 114 individuos pertenecientes a 17 especies residentes y 10 migradoras capturados en un enclave de selva húmeda en las montañas de Tuxtla al sur de Veracruz, México, fueron trasladados a un segundo enclave de selva humeda situado a 2.5 km de distancia. Las tasas de retorno al punto de captura fueron altas para los dos grupos (73% para las especies residentes y 74% para las migradoras). Teniendo en cuenta que los residentes pueden acumular grandes reservas de grasa, la similitud de estos resultados indica que estas especies poseen las adaptaciones necesarias para el movimiento migfatorio.

Type
Growing Points in Neotropical Migratory Bird Conservation
Information
Bird Conservation International , Volume 4 , Issue 2-3: Neotropical Migrants , September 1994 , pp. 175 - 180
Copyright
Copyright © Birdlife International 1994

References

Andrle, R. F. (1964) A biogeographical investigation of the Sierra de Tuxtla in Veracruz, Mexico. Baton Rouge: Louisiana State University (Ph.D. thesis).Google Scholar
Beebe, W. (1947) Avian migration at Rancho Grande in north-central Venezuela. Zoologica 32: 153168.Google Scholar
Berthold, P. (1975) Migration: control and metabolic physiology. Pp.77128 in Farner, D. S. and King, J. R., eds. Avian biology, 5. New York: Academic Press.CrossRefGoogle Scholar
Berthold, P. (1988) The control of migration in European warblers. Proc. Internatn. Orn. Congr. 19: 215249.Google Scholar
Bull, J. (1974) Birds of New York State. New York: Doubleday, Garden City.Google Scholar
Emlen, S. T. (1975) Migration: orientation and navigation. Pp. 129219 in Farner, D. S. and King, J. R., eds. Avian biology, 5. New York: Academic Press.CrossRefGoogle Scholar
Grant, P. (1965) The fat conditions of some island birds. Ibis 107: 350356.Google Scholar
Keast, A. (1980) Migratory Parulidae: what can species co-occurrence in the north reveal about ecological plasticity and wintering patterns? Pp. 457476 in Keast, A. and Morton, E. S., eds. Migrant birds in the Neotropics. Washington, D.C.: Smithsonian Institution Press.Google Scholar
King, J. R. (1972) Adaptive periodic fat storage by birds. Proc. Internatn. Orn. Congr. 15: 200217.Google Scholar
Mayr, E. (1963) Animal species and evolution. Cambridge, MA: Harvard University Press.CrossRefGoogle Scholar
McClure, H. E. (1974) Migration and survival of the birds of Asia. Bangkok: U.S. Army Med. Component SEATO Medical Project.Google Scholar
Nickell, W. P. (1968) Return of northern migrants to tropical winter quarters and banded birds recovered in the United States. Bird-Banding 39: 107116.Google Scholar
Pennington, T. D. and Sarukhan, J. (1968)Arboles tropicales de Mexico. Mexico, D.F.: Instituto Nacionahde Investigaciones Forestales.Google Scholar
Peterson, R. T. (1960) A field guide to the birds of Texas. Boston: Houghton-MifflinGoogle Scholar
Ramos, M. A. (1983) Seasonal movements of bird populations at a Neotropical study site in southern Veracruz, Mexico. Minneapolis: University of Minnesota (Ph.D. thesis).Google Scholar
Ramos, M. A. (1988) Eco-evolutionary aspects of bird movements in the northern Neo-tropical region. Proc. Internatn. Orn. Congr. 19: 251293.Google Scholar
Rappole, J. H. and Tipton, A. R. (1992) Evolution of migration. Ornitologia Neotropical 3: 4555.Google Scholar
Rappole, J. H. and Warner, D. W. (1980) Ecological aspects of avian migrant behavior in Veracruz, Mexico. Pp. 353393 in Keast, A. and Morton, E. S., eds. Migrant birds in the Neotropics. Washington, D.C.: Smithsonian Institution Press.Google Scholar
Rappole, J. H., Morton, E. S., Lovejoy, T. E. and Ruos, J. R. (1983) Nearctic avian migrants in the Neotropics. Washington, D.C.: U.S. Department of the Interior, Fish and Wildlife Service.Google Scholar
Rappole, J. H., Ramos O, M. A., Winker, K., Oehlenschlager, R. J. and Warner, D. W. (in press) Nearctic avian migrants of the Tuxtla Mountains and neighboring lowlands. In Dirzo, R. and Vogt, R., eds. Natural history of the Tuxtla Mountains of southern Veracruz.Google Scholar
Wunderle, J. M. (1981a) An analysis of a morph-ratio cline in the Bananaquit (Coereba flaveola) on Grenada, West Indies. Evolution 35: 333–344.Google ScholarPubMed
Wunderle, J. M. (1981b) Movement of adult and juvenile bananaquits within a morph-ratio cline. Auk 98: 571577.Google Scholar