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Negative effect of turbidity on prey capture for both visual and non-visual aquatic predators

Ortega, J. C. G. and Figueiredo, B. R. S. and da Graça, W. J. and Agostinho, A. A. and Bini, L. M.

J Anim Ecol (2020) 89: 2427–2439

DOI: 10.1111/1365-2656.13329

Abstract

Turbidity plays an important role in aquatic predator-prey interactions. Increases in turbidity are expected to reduce prey capture rates, especially for visually oriented predators. However, there is also evidence indicating that turbidity may have little or no effect on predation rates. Here, we conducted a systematic review and meta-analysis of the relationship between turbidity and capture rate. We explored possible sources of heterogeneity in the effect sizes (capture strategy, predator’s body size, relative eye size and turbidity range in the experiments) while controlling for the dependence among effects sizes and phylogenetic relationships among predator species. We found a consistent negative effect of turbidity on prey capture and that turbidity range (manipulated in the experiments) was the main factor accounting for between-study variation in effect sizes. Also, capture rates of both visually and non-visually oriented predators decreased with an increase in turbidity. In addition, for visually oriented fish predators, the relative eye size did not influence the effect sizes. Despite the paucity of studies for some groups of aquatic predators (mainly in tropical regions), we provide corroborative evidence that turbidity is a critical environmental factor controlling predator-prey interactions. This result is especially relevant considering that changes in turbidity is a human-induced pervasive environmental alteration resulted from, among other mechanisms, runoff after deforestation, eutrophication or oligotrophication in reservoir cascades, which imply changes in predator-prey interactions.

Citation

Ortega, J. C. G., Figueiredo, B. R. S., da Graça, W. J., Agostinho, A. A., & Bini, L. M. (2020). Negative effect of turbidity on prey capture for both visual and non-visual aquatic predators. J Anim Ecol, 89(11), 2427–2439. https://doi.org/10.1111/1365-2656.13329 meta-analysis, predation, freshwater, marine, predator-prey interactions, water transparency

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