Abstract
Plant species composition is changing across many landscapes, but it is unclear how these changes affect habitat quality for animals. We used functional diversity and community-weighted mean (CWM) trait values for four plant traits (litter N, P, lignin and soluble phenolics) to explore how changes in plant species composition may affect larval amphibians in a simplified aquatic ecosystem. We predicted that increased functional diversity would improve amphibian performance (survivorship, developmental rate, and size). We also predicted that increases in CWM N and P would improve amphibian performance, while increases in CWM lignin and soluble phenolics would have negative effects on amphibian performance. We did not detect an effect of functional diversity; instead, CWM litter N and soluble phenolics were useful predictors of amphibian performance. We demonstrate that quantifying the CWM of ecologically relevant traits represents a powerful approach for predicting how changes in plant species composition can affect aquatic communities.
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