Modeling the effects of habitat fragmentation on source and sink demography of neotropical migrant birds

Many songbird populations in the midwestern United States are structured as a network of sources and sinks that are linked by dispersal. We used a modeling approach to examine explicitly how populations respond to incremental fragmentation of source habitat and how this response may vary depending u...

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Veröffentlicht in:	Conservation biology 1995-12, Vol.9 (6), p.1396-1407
Hauptverfasser:	Donovan, Therese M., Lamberson, Roland H., Kimber, Allison, Thompson, Frank R., Faaborg, John
Format:	Artikel
Sprache:	eng
Schlagworte:	ANIMAL SALVAJE ANIMAL SAUVAGE Aves Bird nesting BIRDS BOSQUES Breeding CICLO VITAL Conservation biology CYCLE DE DEVELOPPEMENT DINAMICA DE LA POBLACION DYNAMIQUE DES POPULATIONS Fecundity Forest habitats FORESTS FORET HABITAT Habitat conservation Habitat fragmentation HABITATS LIFE CYCLE LIFE HISTORY Metapopulation ecology MODELE DE SIMULATION MODELOS DE SIMULACION OISEAU PAJAROS POPULATION DYNAMICS Population size SIMULATION MODELS SONGBIRDS WILD ANIMALS Young animals
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container_end_page	1407
container_issue	6
container_start_page	1396
container_title	Conservation biology
container_volume	9
creator	Donovan, Therese M. Lamberson, Roland H. Kimber, Allison Thompson, Frank R. Faaborg, John
description	Many songbird populations in the midwestern United States are structured as a network of sources and sinks that are linked by dispersal. We used a modeling approach to examine explicitly how populations respond to incremental fragmentation of source habitat and how this response may vary depending upon two life-history attributes: fidelity to natal habitat type and reproductive strength of the source. Fragmentation of source habitat led to a predictable decline in population for both attributes examined, but the manner in which populations declined varied depending upon the reproductive strength of the source and the level of fidelity. When the source was weak and produced few excess individuals, fragmentation of source habitats resulted in a predictable and parallel population decline of adults in both the source and the sink. In this situation high fidelity to natal habitats was important for maintenance of population size and structure. Low fidelity to weak sources resulted in population extinction; populations experienced a demographic cost by dispersing from high quality source habitat to low quality sink habitat. In contrast, when the source was strong and produced many excess individuals, fragmentation of the source led to population declines in both the source and the sink, but this decline was more abrupt in sink habitats. When the source was strong and produced a large excess of individuals, nonfidelity to natal habitats had little effect on metapopulation size and structure.
doi_str_mv	10.1046/j.1523-1739.1995.09061396.x
format	Article
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We used a modeling approach to examine explicitly how populations respond to incremental fragmentation of source habitat and how this response may vary depending upon two life-history attributes: fidelity to natal habitat type and reproductive strength of the source. Fragmentation of source habitat led to a predictable decline in population for both attributes examined, but the manner in which populations declined varied depending upon the reproductive strength of the source and the level of fidelity. When the source was weak and produced few excess individuals, fragmentation of source habitats resulted in a predictable and parallel population decline of adults in both the source and the sink. In this situation high fidelity to natal habitats was important for maintenance of population size and structure. Low fidelity to weak sources resulted in population extinction; populations experienced a demographic cost by dispersing from high quality source habitat to low quality sink habitat. 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subjects	ANIMAL SALVAJE ANIMAL SAUVAGE Aves Bird nesting BIRDS BOSQUES Breeding CICLO VITAL Conservation biology CYCLE DE DEVELOPPEMENT DINAMICA DE LA POBLACION DYNAMIQUE DES POPULATIONS Fecundity Forest habitats FORESTS FORET HABITAT Habitat conservation Habitat fragmentation HABITATS LIFE CYCLE LIFE HISTORY Metapopulation ecology MODELE DE SIMULATION MODELOS DE SIMULACION OISEAU PAJAROS POPULATION DYNAMICS Population size SIMULATION MODELS SONGBIRDS WILD ANIMALS Young animals
title	Modeling the effects of habitat fragmentation on source and sink demography of neotropical migrant birds
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