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Movements of birds among natural vegetation patches in the Pantanal, Brazil

  • REGINA DE SOUZA YABE (a1), ELIÉZER JOSÉ MARQUES (a2) and MIGUEL ÂNGELO MARINI (a3)
Summary

The ability of birds to move through the landscape is a key parameter for ecological and conservation studies. We studied bird movements among natural vegetation patches surrounded by native grassland and tested the effect of inter-patch distance on bird movements/hour and assessed the distances travelled for species of different body mass. We made observations of 1,138 bird movements among 11 forest patches and banded 368 birds obtaining 69 recaptures (42 recaptures in the same patch where the birds were banded and 27 recaptures in other patches). We used seven patches as observation points and capture sites in the Pantanal wetland, Brazil during one year. Movements/hour decreased significantly with inter-patch distance. Median or maximum distance travelled increased significantly with body mass. Small-bodied Passeriformes, however, did not increase the distance travelled with body mass, since they seldom moved more than 286 m. The majority of forest dependent or semi-dependent birds seem able to adapt to natural fragmented landscapes. However, small forest patches may be inappropriate habitat for many large-bodied species, and it is more difficult for small-bodied species to use more isolated forest patches. Thus, size and spatial arrangement of habitat patches may act as a filter in which large and close fragments seem to protect the highest number of bird species. The findings of this study indicate that stepping stones provide a viable alternative to continuous biological corridors if the latter are not available. However, the type of species in an area and the size and distance between vegetation patches are all critical factors that must be considered in projects that aim to use forest patches as stepping stones to increase or maintain local bird biodiversity.

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Copyright
COPYRIGHT: © BirdLife International 2010
Corresponding author
*Author for correspondence; e-mail: regyabe@hotmail.com
References
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Andrade, R. D. and Marini, M. Â (2001) Bird movement between natural forest patches in southeast Brazil. Pp. 125136 in Albuquerque, J. L. B., Cândido, J. F. Jr., Straube, F. C. and Roos, A., eds. Ornitologia e conservação: da ciência às estratégias. Tubarão, Brasil: Editora Unisul.
Antunes, A. Z. (2005) Alterações na composição da comunidade de aves ao longo do tempo em um fragmento florestal no sudeste do Brasil. Ararajuba 13: 4761.
Beier, P. and Noss, R. F. (1998) Do habitat corridors provide connectivity? Conserv. Biol. 12: 12411252.
Castellón, T. D. and Sieving, K. E. (2005) An experimental test of matrix permeability and corridor use by an endemic understory bird. Conserv. Biol. 20: 135145.
Damasceno, G. A. Jr., Bezerra, M. A. O., Bortolotto, I. M. and Pott, A. (1996) Aspectos florísticos e fitofisionômicos dos capões do Pantanal do Abobral. Pp. 7475 in II Simpósio sobre recursos naturais e sócio-econômicos do Pantanal: manejo e conservação. Brasília, Brasil: EMBRAPA-SPI.
del Hoyo, J., Elliot, A. and Gardatal, J. (1994) Handbook of the birds of the world. Vol. 2. New World vultures to guineafowl. Barcelona: Lynx Edicions.
Desrochers, A. and Hannon, S. J. (1997) Gap crossing decisions by forest songbirds during the post-fledging period. Conserv. Biol. 11: 12041210.
Dunning, J. B. (2007) CRC handbook of avian body masses. 2nded. Boca Raton, Florida, USA: CRC Press.
Dunning, J. B., Borgella, R. Jr., Clements, K. and Meffe, G. K. (1995) Patch isolation, corridor effects, and colonization by a resident sparrow in a managed pine woodland. Conserv. Biol. 9: 542550.
Grubb, T. C. and Doherty, P. F Jr.. (1999) On home-range gap-crossing. Auk 116: 618628.
Guevara, S., Laborde, J. and Sánchez, G. (1998) Are isolated remnant trees in pastures a fragmented canopy? Selbyana 19: 3443.
Hansbauer, M. M., Storch, I., Leu, S., Nieto-Holguin, J.-P., Pimentel, R. G., Knauer, F. and Metzger, J. P. W. (2008) Movements of neotropical understory passerines affected by anthropogenic forest edges in the Brazilian Atlantic rainforest. Biol. Conserv. 141: 782791.
Hill, M. O. (1979) TWINSPAN - a FORTRAN program for arranging multivariate data in an ordered two-way table by classification of individuals and attributes. Ithaca, USA: Cornell University.
Junk, W. J. (1993). Wetlands of tropical South America. Pp. 679739 in Whigham, D., Dykjová, D. and Hejný, S., eds. Wetlands of the world: Inventory, ecology and management. Dordrecht: Kluwer Academic Publishers.
Lees, A. C and Peres, C. A. (2008) Conservation value of remnant riparian forest corridors of varying quality for Amazonian birds and mammals. Conserv. Biol. 22: 439449.
Lees, A. C. and Peres, C. A. (2009) Gap-crossing movements predict species occupancy in Amazonian forest fragments. Oikos 118: 280290.
Lima, M. G. and Gascon, C. (1999) The conservation value of linear forest remnants in Central Amazonia. Biol Conserv. 91: 241247.
Marini, M. Â., Barbet-Massin, M., Lopes, L. E. and Jiguet, F. (2009) Predicted climate-driven bird distribution changes and forecasted conservation conflicts in a Neotropical Savanna. Conserv. Biol. 23: 15581567.
Marini, M. Â., Motta-Júnior, J. C., Vasconcellos, L. A. S. and Cavalcanti, R. B. (1997) Avian body masses from cerrado region of central Brazil. Ornitol. Neotrop. 8: 9399.
McCune, B. and Mefford, M. J. (1999) PC-ORD. Multivariate analysis of ecological data, version 4. Gleneden Brach, USA: MjM Software Design.
Meguro, M., Pirani, J. R., Mello-Silva, R. and Giulietti, A. M. (1996) Estabelecimento de matas riparias e capões nos ecossistemas campestres da cadeia do espinhaço, Minas Gerais. Bol. Bot. Univ. São Paulo 15: 111.
PCBAP - Plano de Conservação da Bacia do Alto Paraguai. (1997) Diagnóstico dos meios físico e biótico. Brasília, Brasil: Projeto Pantanal, Programa Nacional do Meio Ambiente. PNMA.
Piratelli, A. J. (1999) Comunidades de aves de sub-bosque na região leste de Mato Grosso do Sul. PhD Dissertation, Universidade Estadual Paulista, Rio Claro, Brasil.
Ragusa-Netto, J. (2006). Abundance and frugivory of the Toco Toucan (Ramphastos toco) in a gallery forest in Brazil’s southern Pantanal. Braz. J. Biol. 66(1A): 133142.
Remsen, J. V. Jr., Cadena, C. D., Jaramillo, A., Nores, M., Pacheco, J. F., Robbins, M. B., Schulenberg, T. S., Stiles, F. G., Stotz, D. F. and Zimmer, K. J. (2009) A classification of the bird species of South America. Version [2009]. American Ornithologists’ Union. http://www.museum.lsu.edu/~Remsen/SACCBaseline.html
Rizzini, C. T. (1979) Tratado de fitogeografia do Brasil: aspectos sociológicos e florísticos. São Paulo, Brasil: Editora da Universidade de São Paulo.
Rosenberg, D. K., Noon, B. R. and Meslow, E. C. (1997) Biological corridors: form, function and efficacy. BioScience 47: 677687.
Sick, H. (2001) Ornitologia Brasileira. Rio de Janeiro, Brasil: Editora Nova Fronteira.
Silva, J. M. C. (1995) Birds of the Cerrado region, South America. Steenstrupia 21: 6992.
Silva, J. M. C., and Tabarelli, M. (2000) Tree species impoverishment and the future flora of the Atlantic forest of northeast Brazil. Nature 404: 7274.
Thiollay, J. (2005) The role of traditional agroforests in the conservation of rain forest bird diversity in Sumatra. Conserv. Biol. 9: 335353.
Tubelis, D. P. and Tomás, W. M. (1999) Distribution of birds in a naturally patchy forest environment in the Pantanal wetland, Brazil. Ararajuba 7: 8189.
Tubelis, D. P., Cowling, A. and Donnelly, C. (2004) Landscape supplementation in adjacent savannas and its implications for the design of corridors for forest birds in the central Cerrado, Brazil. Biol. Conserv. 118: 353364.
Uezu, A., Beyer, D. D. and Metzger, J. P. (2008). Can agroforest woodlots work as stepping stones for birds in the Atlantic forest region? Biodivers. Conserv. 17: 19071922.
Uezu, A., Metzger, J. P. and Vielliard, J. M. E (2005) Effects of structural and functional connectivity and patch size on the abundance of seven Atlantic Forest bird species. Biol. Conserv. 123: 507519.
Van Houtan, K. S., Pimm, S. L., Halley, J. M., Bierregaard, R. O. Jr. and Lovejoy, T. E. (2007) Dispersal of Amazonian birds in continuous and fragmented Forest. Ecol. Lett. 10: 219229.
Whitcomb, B. L., Whitcomb, R. F. and Bystrak, D. (1977) Island biogeography and “habitat islands” of eastern forest. III. Long-term turnover and effects of selective logging on the avifauna of forest fragments. Am. Birds 31: 1723.
Willis, E. O. (1979) The composition of avian communities in remanescent woodlots in Southern Brazil. Pap. Avul. Zool. 33: 125.
Yabe, R. S. (2001) Deslocamento de aves entre capões no Pantanal Sul Mato-grossense. MSc Thesis, Universidade Federal de Mato Grosso do Sul, Campo Grande, Brasil.
Yabe, R. S. and Marques, E. J. (2001) Deslocamento de aves entre capões no Pantanal Mato-grossense e sua relação com a dieta. Pp. 103124 in Albuquerque, J. L. B., Cândido, J. F. Jr., Straube, F. C. and Roos, A., eds., Ornitologia e conservação: da ciência às estratégias. Tubarão, Brasil: Editora Unisul.
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