Abstract

On the North American Great Plains, several snake species reach their northern range limit where they rely on sparsely distributed hibernacula located in major river valleys. Independent colonization histories for the river valleys and barriers to gene flow caused by the lack of suitable habitat between them may have produced genetically differentiated snake populations. To test this hypothesis, we used 10 microsatellite loci to examine the population structure of two species of conservation concern in Canada: the eastern yellow-bellied racer (Coluber constrictor flaviventris) and bullsnake (Pituophis catenifer sayi) in 3 major river valleys in southern Saskatchewan. Fixation indices (FST) showed that populations in river valleys were significantly differentiated for both species (racers, FST = 0.096, P = 0.001; bullsnakes FST = 0.045–0.157, P = 0.001). Bayesian assignment (STRUCTURE) and ordination (DAPC) strongly supported genetically differentiated groups in the geographically distinct river valleys. Finer-scale subdivision of populations within river valleys was not apparent based on our data, but is a topic that should be investigated further. Our findings highlight the importance of major river valleys for snakes at the northern extent of their ranges, and raise the possibility that populations in each river valley may warrant separate management strategies.

Highlights

  • The genetic population structure of snakes can vary markedly based on a number of intrinsic and extrinsic factors [1,2,3]

  • Our study sites were located in southwestern Saskatchewan, where these species appear to be concentrated in three large river valleys: (1) the Frenchman River Valley (FRV; both species), (2) the Big Muddy River Valley (BMRV; both species), and (3) the South Saskatchewan River Valley (SSRV; bullsnakes only; Fig 1b)

  • Given the consistent and pervasive nature of the homozygote excess across loci and species, and the small number of individuals that failed to PCR amplify, we concluded that the deviation from Hardy-Weinberg Equilibrium (HWE) was most likely due to population structure in the data set (Wahlund effect)

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Summary

Introduction

The genetic population structure of snakes can vary markedly based on a number of intrinsic and extrinsic factors [1,2,3]. S. Department of Energy under Award Number DE-FC0907SR22506 to the University of Georgia Research Foundation

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