Syntopic frogs reveal different patterns of interaction with the landscape: A comparative landscape genetic study of <i>Pelophylax nigromaculatus</i> and <i>Fejervarya limnocharis</i> from central China

Garcia, Vhon Oliver S.; Ivy, Catherine M.; Fu, Jinzhong

doi:10.1002/ece3.3459

Cited by 21 publications

(14 citation statements)

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“…While our results contradict the conclusions of Zhan et al (), they are consistent with a large body of literature that has implicated mountains in the obstruction of gene flow for amphibians (e.g. Funk et al , ; Spear et al , ; Garcia, Ivy & Fu, ; Sánchez‐Montes et al , ).…”

Section: Discussionsupporting

confidence: 86%

Isolation by resistance analysis reveals major barrier effect imposed by the Tsinling Mountains on the Chinese wood frog

Atlas

2019

Journal of Zoology

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Amphibians are excellent model systems for studying how heterogeneous landscapes drive population differentiation. Though mountain ridges have been widely implicated as barriers to amphibian dispersal, a landscape genetic study by Zhan et al. (BMC Genet, 10, 2009, 17) indicated that the Tsinling Mountains of northwestern China did not significantly impede gene flow of the Chinese wood frog (Rana chensinensis). Using their published genetic data, we re‐assessed the impact of elevation, land cover, and roads on the Chinese wood frog using an isolation by resistance (IBR) approach, which allows for the modeling of complex and heterogeneous landscapes unavailable in classical population genetic analysis. We developed a novel method for optimization of IBR analysis using Circuitscape involving initial permutation‐based optimization of the correlation coefficient obtained through partial Mantel tests, followed by subsequent sensitivity analysis to improve upon the model’s biological relevance. Our results indicated that mountain ridges indeed functioned as barriers to dispersal of Chinese wood frogs, and that previous conclusions were based on methodological limitations. Furthermore, a prominent threshold effect at elevations from 1500–2000 m was evident, with elevations below this range minimally impeding gene flow and higher elevations having a significant barrier effect. We suggest that a combination of expert opinion, sensitivity analysis, and permutation‐based optimization procedures in landscape genetic studies will likely generate models that are both highly explanatory and biologically relevant.

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Section: Discussionsupporting

confidence: 86%

Isolation by resistance analysis reveals major barrier effect imposed by the Tsinling Mountains on the Chinese wood frog

Atlas

2019

Journal of Zoology

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“…2012; Garcia et al. 2017; Sandberger‐Loua et al. 2018) or with the occurrence of ridges between pairs of populations (Tallmon et al.…”

Section: Discussionmentioning

confidence: 99%

Relative importance of isolation‐by‐environment and other determinants of gene flow in an alpine amphibian

Buskirk

Rensburg

2020

Evolution

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A pattern of population structure called isolation-by-environment (IBE) evolves when gene flow connecting populations in different habitats is lower than expected. Although IBE is widespread, there is limited information on its magnitude compared with other factors influencing gene flow. We estimated the relative importance of IBE in the frog Rana temporaria in the Swiss Alps, a geographic context in which IBE should be relatively pronounced. The environmental factor potentially causing IBE was the length of the growing season, which is highly correlated with elevation. A sample of 992 individuals from 82 breeding sites were genotyped at 1827 single-nucleotide polymorphism markers; gene flow was estimated in four ways related to F ST , genetic distance, allele sharing, and distance on a population graph. Gravity modeling and random forest regression evaluated the importance of six at-site covariates, 10 between-site covariates, and geographic distance. There was broad agreement among analysis methods and measures of gene flow: isolation-by-distance (IBD) and habitat quality between sites were of highest importance, the elevation and ruggedness of the dispersal path were about half as important, and IBE was about 10-20% as important as IBD. These results combine with other evidence to suggest that population divergence across elevational gradients is underway in amphibians. K E Y W O R D S : Altitude, connectivity, ddRAD, isolation-by-adaptation, topography. Clearly, the alternative habitats must impose divergent selection on traits that influence gene flow (Widmer et al. 2009; Wang and Bradburd 2014; Butlin and Smadja 2018). Selection imposed by phenological differences between habitats has attracted particular 9 6 2

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“…Landguth et al (2010) used simulations to illustrate a lag time of approximately 200 generations when using a landscape genetics approach to detect signals of barriers, although they note the magnitude of this effect likely varies with each population's effective size. The influence of lag time is also supported by empirical research that considers effects of both natural and anthropogenic features on amphibian gene flow (Garcia, Ivy, & Fu, 2017;Peterman et al, 2015;Richardson, 2012). Due to this lag, most natural features will likely have stronger signals, such as rivers appearing more important than interstate highways.…”

Section: Landscape Features Influencing Gene Flowmentioning

confidence: 97%

Landscape genetics reveals unique and shared effects of urbanization for two sympatric pool‐breeding amphibians

Homola

Loftin

Kinnison

2019

Ecology and Evolution

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Metapopulation‐structured species can be negatively affected when landscape fragmentation impairs connectivity. We investigated the effects of urbanization on genetic diversity and gene flow for two sympatric amphibian species, spotted salamanders (Ambystoma maculatum) and wood frogs (Lithobates sylvaticus), across a large (>35,000 km2) landscape in Maine, USA, containing numerous natural and anthropogenic gradients. Isolation‐by‐distance (IBD) patterns differed between the species. Spotted salamanders showed a linear and relatively high variance relationship between genetic and geographic distances (r = .057, p < .001), whereas wood frogs exhibited a strongly nonlinear and lower variance relationship (r = 0.429, p < .001). Scale dependence analysis of IBD found gene flow has its most predictable influence (strongest IBD correlations) at distances up to 9 km for spotted salamanders and up to 6 km for wood frogs. Estimated effective migration surfaces revealed contrasting patterns of high and low genetic diversity and gene flow between the two species. Population isolation, quantified as the mean IBD residuals for each population, was associated with local urbanization and less genetic diversity in both species. The influence of geographic proximity and urbanization on population connectivity was further supported by distance‐based redundancy analysis and multiple matrix regression with randomization. Resistance surface modeling found interpopulation connectivity to be influenced by developed land cover, light roads, interstates, and topography for both species, plus secondary roads and rivers for wood frogs. Our results highlight the influence of anthropogenic landscape features within the context of natural features and broad spatial genetic patterns, in turn supporting the premise that while urbanization significantly restricts interpopulation connectivity for wood frogs and spotted salamanders, specific landscape elements have unique effects on these two sympatric species.

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Syntopic frogs reveal different patterns of interaction with the landscape: A comparative landscape genetic study of Pelophylax nigromaculatus and Fejervarya limnocharis from central China

Cited by 21 publications

References 73 publications

Isolation by resistance analysis reveals major barrier effect imposed by the Tsinling Mountains on the Chinese wood frog

Isolation by resistance analysis reveals major barrier effect imposed by the Tsinling Mountains on the Chinese wood frog

Relative importance of isolation‐by‐environment and other determinants of gene flow in an alpine amphibian

Landscape genetics reveals unique and shared effects of urbanization for two sympatric pool‐breeding amphibians

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