Bird movement patterns in a fragmented landscape and their effects to functional connectivity: an hierarchical approach / Padrões de movimentação de uma espécie de ave em paisagens fragmentadas e seus efeitos para a conectividade funcional: uma abordagem hierárquica

AUTOR(ES)
DATA DE PUBLICAÇÃO

2009

RESUMO

Habitat fragmentation is one of the major human impacts on terrestrial ecosystems. This process highly affects the species movement pattern, implying in considerable alterations on the connectivity between the remaining habitat patches. Consequently, it interferes in the spatial distribution and in the population dynamics of species. In this dissertation, some aspects of the routine and dispersal movements of Pyriglena leucoptera, an endemic bird of the Atlantic rainforest, were studied. These two movement types act in distinct scales, affecting, differently, the parameter regulating the structure of the populations. Using the playback technique, we verified if the gap-crossing capacity of this species, by routine movements, is affected by gap width. From this relation, we obtained gap-crossing probabilities, which were used to parameterize functional connectivity indices (one binary and one probabilistic) based on graph theory. In a model selection approach, these two indices plus another structural one (i.e. patch area) were compared to establish which one is the best to predict P. leucopteras incidence in forest fragments. About the dispersal movements, we done translocation and telemetry experiments to investigate if the species dispersal ability in fragmented landscapes is affected by the distance between forest patches, and to verify if there are sexual differences in this effect. The results showed that distance between forest patches limits both the routine movements and the dispersal one to this species. In the routine movements scale, we verified that patches are completely isolated when the gap width is higher than 45 m. The species incidence was better described by the probabilistic connectivity index (PCS), evincing that it is essential to consider connectivity to understand the spatial distribution of P. leucoptera, and this attribute must be viewed in its probabilistic form. Furthermore, dispersal is female-biased, since females are more prone to emigrate and were more efficient in their movement in the matrix. We discussed the consequences of this sex-bias, highlighting that, in severely fragmented landscapes, the colonization probability of empty patches is decreased and the genetic flux between populations should be imperiled. Thus, to comprehend the effects of habitat connectivity on species survival in fragmented landscapes, both movement types must be considered. Finally, we suggested a hierarchically structured population model in order to integrate the two movement type information in one conceptual framework. This model has a great potential to be used in environmental planning and management.

ASSUNTO(S)

conservação conservation modelagem ecológica ecological modelling conectividade funcional functional connectivity

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