Landscape structure coupled to instream features shape freshwater biodiversity in Cerrado agricultural landscapes

Landscape structure coupled to instream features shape freshwater biodiversity in Cerrado agricultural landscapes

Freshwater biodiversity is threatened at global scale, thus, understanding how it responds to anthropogenic interferences is critical, especially in regions where human disturbances have quickly altered natural ecosystems. Here, we address the effects of landscape structure in Brazilian Cerrado on f...

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Bibliographic Details
Main Authors: Juliana Silveira dos Santos, Erica Hasui, Fabrício Barreto Teresa, João Carlos Nabout, Karine Borges Machado, Felipe Martello, Ludgero Cardoso Galli Vieira, Rosane Garcia Collevatti
Format: Article
Language:English
Published: Elsevier 2025-04-01
Series:Perspectives in Ecology and Conservation
Subjects:
Aquatic biodiversity
Habitat amount
Landscape heterogeneity
Multi-scale
Savanna
Water quality
Online Access:http://www.sciencedirect.com/science/article/pii/S2530064425000057
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Summary:Freshwater biodiversity is threatened at global scale, thus, understanding how it responds to anthropogenic interferences is critical, especially in regions where human disturbances have quickly altered natural ecosystems. Here, we address the effects of landscape structure in Brazilian Cerrado on freshwater community diversity of phytoplankton, periphyton, zooplankton and fish, and instream’s features (physicochemical and biological indicators of water quality, and water velocity), and the effects of instream’s features on freshwater community diversity. We analyzed the data at different spatial scales (50, 100, 150, and 200 m, and watershed level), using structural equation modeling. We found that percentage of native vegetation (%NV) at watershed level explained Cladocera’s abundance and Shannon-wiener with a negative relationship. Landscape compositional heterogeneity (SHDI) at 200 m explained Periphyton abundance with a positive relationship. %NV at 50 m explained dissolved oxygen with a positive relationship. Total coliforms explained Cladoceras’s abundance with a positive relationship. Conductivity explained Cladocera’s abundance and richness with a negative relationship. Our findings show that landscape changes are favoring some biological groups, which can lead to freshwater biotic homogenization. Thus, the unsustainable expansion of agriculture can compromise freshwater biodiversity and water quality in Cerrado.
ISSN:2530-0644

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