4.8 Article

Terrestrial food web complexity in Amazonian forests decays with habitat loss

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CURRENT BIOLOGY
卷 33, 期 2, 页码 389-+

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CELL PRESS
DOI: 10.1016/j.cub.2022.11.066

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The conversion of natural ecosystems into human-modified landscapes is the main driver of biodiversity loss in terrestrial ecosystems. Even when species persist within habitat remnants, populations may become so small that ecological interactions are functionally lost, disrupting local interaction networks. To uncover the consequences of land use changes toward ecosystem functioning, we need to understand how changes in species richness and abundance in human-modified landscapes rearrange ecological networks.
The conversion of natural ecosystems into human-modified landscapes (HMLs) is the main driver of biodiver-sity loss in terrestrial ecosystems.1-3 Even when species persist within habitat remnants, populations may become so small that ecological interactions are functionally lost, disrupting local interaction networks.4,5 To uncover the consequences of land use changes toward ecosystem functioning, we need to understand how changes in species richness and abundance in HMLs6-8 rearrange ecological networks. We used data from forest vertebrate surveys and combined modeling and network analysis to investigate how the structure of predator-prey networks was affected by habitat insularization induced by a hydroelectric reser-voir in the Brazilian Amazonia.9 We found that network complexity, measured by interaction diversity, de-cayed non-linearly with decreasingly smaller forest area. Although on large forest islands (>100 ha) prey spe-cies were linked to 3-4 potential predators, they were linked to one or had no remaining predator on small islands. Using extinction simulations, we show that the variation in network structure cannot be explained by abundance-related extinction risk or prey availability. Our findings show that habitat loss may result in an abrupt disruption of terrestrial predator-prey networks, generating low-complexity ecosystems that may not retain functionality. Release from predation on some small islands may produce cascading effects over plants that accelerate forest degradation, whereas predator spillover on others may result in overex-ploited prey populations. Our analyses highlight that in addition to maintaining diversity, protecting large continuous forests is required for the persistence of interaction networks and related ecosystem functions.

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