Effects of Fish Predators on the Mass-Related Energetics of a Keystone Freshwater Crustacean.

Douglas S Glazier,Casandra L Hoffman,Jonathan J Borrelli

doi:10.3390/biology9030040

Douglas S Glazier, Casandra L Hoffman + Show 1 more

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https://doi.org/10.3390/biology9030040

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Abstract

Little is known about how predators or their cues affect the acquisition and allocation of energy throughout the ontogeny of prey organisms. To address this question, we have been comparing the ontogenetic body-mass scaling of various traits related to energy intake and use between populations of a keystone amphipod crustacean inhabiting freshwater springs, with versus without fish predators. In this progress report, we analyze new and previously reported data to develop a synthetic picture of how the presence/absence of fish predators affects the scaling of food assimilation, fat content, metabolism, growth and reproduction in populations of Gammarus minus located in central Pennsylvania (USA). Our analysis reveals two major clusters of ‘symmorphic allometry’ (parallel scaling relationships) for traits related to somatic versus reproductive investment. In the presence of fish predators, the scaling exponents for somatic traits tend to decrease, whereas those for reproductive traits tend to increase. This divergence of scaling exponents reflects an intensified trade-off between somatic and reproductive investments resulting from low adult survival in the face of size-selective predation. Our results indicate the value of an integrated view of the ontogenetic size-specific energetics of organisms and its response to both top-down (predation) and bottom-up (resource supply) effects.

Highlights

The life and death struggle between predators and prey is one of the most striking ecological interactions in nature
The purpose of this article is to present a progress report on an ongoing project focused on how fish predators affect the ontogenetic body-mass scaling of energy intake and expenditure in the freshwater amphipod Gammarus minus
Our results indicate that fish predators have caused a suite of traits related to somatic investment to shift their allometric scaling in a congruent way, but in an opposite way to that of traits related to reproductive investment, a pattern that can be explained by life-history theory

Summary

Introduction

The life and death struggle between predators and prey is one of the most striking ecological interactions in nature. Relatively little is known about how predators affect the way that prey organisms expend energy for various vital activities during their ontogeny [13,14]. Previous studies have indicated that predation risk may cause increases, decreases or no changes in the metabolic rate of prey organisms, and these varied responses may even occur within the same species (Table 1). The effect that age or body size of prey has on metabolic responses to predators is largely unknown [13,23,24]

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