Taxonomic and functional responses of bats to habitat flooding by an Amazonian mega-dam

Hydroelectric dams are among the main cause of anthropogenic impacts in tropical environments. Damming interrupts the continuity of the river and produces the flooding of adjacent terrestrial ecosystems. Despite the negative effects on terrestrial and aquatic biodiversity, studies of the impacts of...

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Bibliographic Details
Published in:Biodiversity and conservation 2022-03, Vol.31 (4), p.1359-1377
Main Authors: Bobrowiec, Paulo Estefano D., Farneda, Fábio Z., Nobre, Carla Clarissa, da Cunha Tavares, Valéria
Format: Article
Language:English
Subjects:
Abundance
Anthropogenic factors
Biodiversity
Biological diversity
Biomedical and Life Sciences
Body mass
Chiroptera
Climate Change/Climate Change Impacts
Conservation Biology/Ecology
Construction
Construction sites
Dam construction
Dams
Design and construction
Ecological function
Ecology
Electric power
Electric power sources
Flooding
Floods
Human influences
Hydroelectric dams
Hydroelectric power
Hydroelectric power plants
Life Sciences
Lowlands
Original Paper
Reduction
Riparian forests
Rivers
Species
Taxonomy
Temporal variations
Terrestrial ecosystems
Trophic levels
Tropical climate
Tropical environment
Tropical environments
Water-power
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Summary:Hydroelectric dams are among the main cause of anthropogenic impacts in tropical environments. Damming interrupts the continuity of the river and produces the flooding of adjacent terrestrial ecosystems. Despite the negative effects on terrestrial and aquatic biodiversity, studies of the impacts of hydroelectric dams on species and community functional responses to flooding are scarce. Here, we evaluated the effects of river damming on taxonomic and functional diversity of phyllostomid bats sampled before (flooded sites) and after (unflooded sites) the construction of a mega hydroelectric dam in the southwestern of the Brazilian Amazon. The flooding of the lowlands significantly increased the taxonomic and functional α-diversity, as well as the species- and the community-level functional uniqueness of the bat assemblages, reflecting a reduction in the abundance of functional redundant species. Based on functional trait composition, we detected an increase in the frequency of animalivorous bats, and a reduction in phytophagous bats. Pre- and post-dam temporal differences show that functional β-diversity shifts were more determined by replacement of traits weighted by species abundance than by the loss or gain of traits. Functional traits linked to trophic level, body mass, and diet proved to be powerful indicators of the bat community’s responses to temporal changes caused by run-of-the-river dams, which degrade riparian and várzea forests. Plans to expand the electric power matrix in Brazil include the construction of several dams, potentially flooding large areas of várzea forests. We demonstrate the importance of the várzea and the riparian forests to phytophagous bats to guarantee the ecological functions they perform.
ISSN:0960-3115
1572-9710
DOI:10.1007/s10531-022-02396-8