Contrasting Population and Diet Influences on Gut Length of an Omnivorous Tropical Fish, the Trinidadian Guppy (Poecilia reticulata).

Eugenia Zandonà,Sonya K Auer,Susan S Kilham,David N Reznick,Christian Agrillo

doi:10.1371/journal.pone.0136079

Eugenia Zandonà, Sonya K Auer + Show 3 more

Open Access

https://doi.org/10.1371/journal.pone.0136079

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Journal: PloS one	Publication Date: Sep 11, 2015
Citations: 47	License type: CC BY 4.0

Affiliation: University of California, Riverside, Drexel University

Abstract

Phenotypic plasticity is advantageous for organisms that live in variable environments. The digestive system is particularly plastic, responding to changes in diet. Gut length is the result of a trade-off between maximum nutrient absorption and minimum cost for its maintenance and it can be influenced by diet and by evolutionary history. We assessed variation in gut length of Trinidadian guppies (Poecilia reticulata) as a function of diet, season, ontogeny, and local adaptation. Populations of guppies adapted to different predation levels have evolved different life history traits and have different diets. We sampled guppies from sites with low (LP) and high predation (HP) pressure in the Aripo and Guanapo Rivers in Trinidad. We collected fish during both the dry and wet season and assessed their diet and gut length. During the dry season, guppies from HP sites fed mostly on invertebrates, while guppies in the LP sites fed mainly on detritus. During the wet season, the diet of LP and HP populations became very similar. We did not find strong evidence of an ontogenetic diet shift. Gut length was negatively correlated with the proportion of invertebrates in diet across fish from all sites, supporting the hypothesis that guppy digestive systems adapt in length to changes in diet. Population of origin also had an effect on gut length, as HP and LP fish maintained different gut lengths even in the wet season, when their diets were very similar and individuals in both types of populations fed mostly on detritus. Thus, both environment and population of origin influenced guppies gut length, but population of origin seemed to have a stronger effect. Our study also showed that, even in omnivorous fish, gut length adapted to different diets, being more evident when the magnitude of difference between animal and plant material in the diet was very large.

Highlights

Phenotypic plasticity in behavior, morphology, and physiology is advantageous for organisms that live in variable environments, provided that cues of environmental change are reliable and the costs of plasticity are not too great [1]
We have previously demonstrated that guppies from downstream high predation (HP) and upstream low predation (LP) populations have different diets
While our findings confirmed that guppies are omnivores [27], they indicated that guppies have a broad range of variation in the proportion of invertebrates and detritus in their diet, which changed with season and was associated to local adaptation

Summary

Introduction

Phenotypic plasticity in behavior, morphology, and physiology is advantageous for organisms that live in variable environments, provided that cues of environmental change are reliable and the costs of plasticity are not too great [1]. Gut flexibility is of paramount importance for those animals that feed on a wide array of food types or that live in environments with high temporal and spatial variation in resources [10]. Such animals can display high plasticity in their digestive systems because they often shift to different types of food that have different digestive requirements (e.g. animal vs plant food) [4,7,16]. Not much is known about how gut length of omnivorous animals responds to intraspecific variation in diet, other than ontogenetic shift [14]

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