Abstract
The balanced-diet hypothesis states that a diverse prey community is beneficial to consumers due to resource complementarity among the prey species. Nonselective consumer species cannot differentiate between prey items and are therefore not able to actively regulate their diet intake. We thus wanted to test whether the balanced-diet hypothesis is applicable to nonselective consumers. We conducted a laboratory experiment in which a nonselective model grazer, the freshwater gastropod Lymnaea stagnalis, was fed benthic green algae as single species or as a multi-species mixture and quantified the snails’ somatic growth rates and shell lengths over a seven-week period. Gastropods fed the mixed diet were found to exhibit a higher somatic growth rate than the average of the snails fed single prey species. However, growth on the multi-species mixture did not exceed the growth rate obtained on the best single prey species. Similar results were obtained regarding the animals’ shell height increase over time. The mixed diet did not provide the highest growth rate, which confirms our hypothesis. We thus suggest that the balanced-diet hypothesis is less relevant for non-selective generalist consumers, which needs to be considered in estimates of secondary production.
Highlights
Dietary mixing has been to focus of many studies until today [1,2,3]
We found a significant effect of the algae species mixtures consumed on the somatic growth rate of L. stagnalis
The post-hoc comparisons revealed three groups among treatments: One consisting of high growth snails fed the mixed-diet, A. repens and O. stellatum, an intermediate growth set of snails fed K. flaccidum, M. kuetzingianum, R. obtusa and the significantly lowest growth was observed in snails fed a diet of S. amoenum (Fig 2)
Summary
Dietary mixing has been to focus of many studies until today [1,2,3]. There are two often tested hypotheses which try to explain the advantage of a mixed diet—the balanced-diet hypothesis [4] and the toxin dilution hypothesis [5]. We here focus on the balanced-diet hypothesis, which is the more relevant one for common, non-toxic prey. This hypothesis states that a diverse food resource will result in enhanced consumer fitness. In most experiments that investigated the balanced-diet hypothesis, the consumer species were able to freely select what to prey upon. This is often not the case in nature due to costs involved in food search/handling time [15,16,17], predation risk [18], competition [1], low diversity within the PLOS ONE | DOI:10.1371/journal.pone.0158924. This is often not the case in nature due to costs involved in food search/handling time [15,16,17], predation risk [18], competition [1], low diversity within the PLOS ONE | DOI:10.1371/journal.pone.0158924 July 8, 2016
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