Bats represent 25% of the mammal World fauna, being the most diversified and abundant mammals in the Neotropical region. About 128 species of bats have been recorded only in the Brazilian Amazonia. They possess a great morphological variability that allows them to occupy different trophic niches in an ecosystem. Bats play an important role on the maintenance and regeneration of the ecosystems they live, being efficient in seed dispersal, pollination, and biological contral of insects. They also constitute good bioindicators for the status and dynamics suffered by those ecosystems. The present study aims to characterize the batfauna of primary forest, secondary forest, and a selective logging experiment areas at the Tapajós National Forest - PA, Brazil. The levels of impact by the logging and by the secondary forest areas on the bat community were then compared to the primary forest controls in each habitat and in its microhabitats; or physiognomies: understory matrix, natural gaps, logging gaps, and wood storage decks. Comparisions were conducted trough analysis of distribution, diversity, relative abundance, number of species, and guild densities. The samples constitute 55 species, most of them frugivorous, and pertaining to six families. Concerning to the number of bat species and their diversity, the logging area exhibits some impact, but not so accentuated as the secondary forest area. Comparison among habitats suggests that the secondary vegetation provides a higher bat density. However, this vegetation structure benefits only a few species. Frugivores/omnivores and aerial insectivores bats are the most succeed guilds in secondary vegetation. Comparison among physiognomies have suggested that the understory bats avoid opened spaces in the vegetation. Succession stages observed hem show dynamics that need a periodic monitoring, so that a more realistic model could be designed.
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