Habitat-specific locomotor variation among Chinese hook snout carp (Opsariichthys bidens) along a river.

Shi-Jian Fu,Dandan Xu,Zhen-Dong Cao,Zuogang Peng,Xiao-Ke He,Jiang-Lan Peng,An-Jie Zhang,Lewis George Halsey

doi:10.1371/journal.pone.0040791

Shi-Jian Fu, Dandan Xu + Show 6 more

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https://doi.org/10.1371/journal.pone.0040791

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Journal: PloS one	Publication Date: Jul 19, 2012
Citations: 45	License type: CC BY 4.0

Affiliation: Southwest University, Chongqing Normal University

Abstract

The Wujiang River is a tributary of the upper Yangtze River that shows great variations in its flow regime and habitat condition. Dams have been built along the Wujiang River and have altered the habitats profoundly enough that they may give rise to reproductive isolation. To test whether the swimming performance and morphology of the Chinese hook snout carp (Opsariichthys bidens), varied among habitats and whether the possible differences had a genetic basis, we measured the steady and unsteady swimming performance, external body shape and genetic distance among fish collected from both the main and tributary streams of the upper, middle and lower reaches along the river. We also measured the routine energy expenditure (RMR), maximum metabolic rate (MMR), cost of transport (COT) and calculated the optimal swimming speed. The steady swimming capacity, RMR, MMR and optimal swimming speed were all higher and the COT was lower in the upper reach or tributary streams compared with the lower reach or main stream. However, unsteady swimming performance showed no variation among collecting sites. Flow regimes as suggested by river slope and water velocity were positively correlated with steady swimming performance but not with unsteady swimming performance. Predation stress were significantly related with body morphology and hence energy cost during swimming but not U crit value. The fish from only one population (Hao-Kou) showed relatively high genetic differentiation compared with the other populations. Fish from the upper reach or tributary streams exhibited improved steady swimming performance through improved respiratory capacity and lower energy expenditure during swimming at the cost of higher maintenance metabolism. There was no correlation between the steady and unsteady swimming performance at either the population or the individual levels. These results suggest that a trade-off between steady and unsteady swimming does not occur in O. bidens.

Highlights

Fish inhabit environments that vary greatly in the intensity of water velocity and predation stress, and these habitat conditions are generally believed to be of major evolutionary significance [1]
Body length had no effect on any variables involved in fast-start performance in this study (Pearson correlation, P = 0.443–0.895)
The Ucrit of the fish collected from tributary streams was significantly higher than that of those collected from the main stream within each reach, i.e., HK

Summary

Introduction

Fish inhabit environments that vary greatly in the intensity of water velocity and predation stress, and these habitat conditions are generally believed to be of major evolutionary significance [1]. A body morphology optimized for burst speed will be obtained at the cost of reduced performance at steady swimming [11]. This general trade-off between steady and unsteady swimming performance has long been hypothesized to play an important role in the ecology and evolution of fish. Scientists suggested that both genetic divergence and phenotypic plasticity stemmed from this trade-off may lead to phenotypic differentiation and generate macroevolutionary patterns across flow regimes and predation condition [11,12,13,14]

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