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• W2772039108 abstract "Climate change has been implicated as driving shifts of hybridizing species’ range limits [1Taylor S.A. White T.A. Hochachka W.M. Ferretti V. Curry R.L. Lovette I. Climate-mediated movement of an avian hybrid zone.Curr. Biol. 2014; 24: 671-676Abstract Full Text Full Text PDF PubMed Scopus (102) Google Scholar, 2Britch S.C. Cain M.L. Howard D.J. Spatio-temporal dynamics of the Allonemobius fasciatus- A. socius mosaic hybrid zone: a 14-year perspective.Mol. Ecol. 2001; 10: 627-638Crossref PubMed Google Scholar]. Whether and how much hybrid zones move depends on the relative fitness of hybridzing species under changing conditions [3Rosser N. Dasmahapatra K.K. Mallet J. Stable Heliconius butterfly hybrid zones are correlated with a local rainfall peak at the edge of the Amazon basin.Evolution. 2014; 68: 3470-3484Crossref PubMed Scopus (27) Google Scholar, 4Dasmahapatra K.K. Blum M.J. Aiello A. Hackwel S. Davies N. Bermingham E.P. Mallet J. Inferences from a rapidly moving hybrid zone.Evolution. 2002; 56: 741-753Crossref PubMed Scopus (114) Google Scholar]. However, fitness is rarely linked to both climatic conditions and movement of hybrid zones, such that the relationship between climate change and hybrid zone dynamics remains tenuous [5Buggs R.J.A. Empirical study of hybrid zone movement.Heredity (Edinb). 2007; 99: 301-312Crossref PubMed Scopus (234) Google Scholar]. Here we report how interactions between climate (seasonal precipitation) and competitor densities result in steep differentials in survival, which in turn drive hybrid zone movement for two woodrat species (Neotoma fuscipes and N. macrotis) in central California, USA. Using 6 years of capture-mark-recapture data, we found that the smaller-bodied species, N. macrotis, and hybrids had survival advantages over the larger-bodied N. fuscipes in the contact region during dry winters and wet springs. This pattern of differential survival, with N. macrotis having a consistent advantage over N. fuscipes during our study period, matched the spatial dynamics of the hybrid zone, which moved steadily north into N. fuscipes territory, with its estimated center moving ∼150 m north in 6 years. Our findings provide a unique demonstration of range movements emerging from a complex interplay between climate and competition. Although all study site areas experienced the same climatic conditions, competitive effects created a complex spatial pattern of survival differentials, which in turn influenced hybrid zone movement. Characterization of fitness differentials derived from replicated demographic studies of contact regions between competitors should greatly improve our ability to understand and forecast climate-driven range dynamics." @default.
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• W2772039108 date "2017-12-01" @default.
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• W2772039108 title "Differential Effects of Climate on Survival Rates Drive Hybrid Zone Movement" @default.
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• W2772039108 doi "https://doi.org/10.1016/j.cub.2017.11.029" @default.
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