Limited influence of local and landscape factors on finescale gene flow in two pond‐breeding amphibians

Coster, Stephanie S.; Babbitt, Kimberly J.; Cooper, Andrew B.; Kovach, Adrienne I.

doi:10.1111/mec.13062

Cited by 40 publications

(43 citation statements)

References 138 publications

(329 reference statements)

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“…At spatial scales similar to those in this study, Ambystoma salamanders display high levels of gene flow between populations (Newman & Squire ; Zamudio & Wieczorek ; Purrenhage, Niewiarowski & Moore ; Coster et al . ). However, this connectivity is spatially dependent, with greater population differentiation at larger scales, as would be predicted by an isolation‐by‐distance model.…”

Section: Discussionmentioning

confidence: 97%

Locomotor endurance predicts differences in realized dispersal between sympatric sexual and unisexual salamanders

Denton¹,

Greenwald

Gibbs³

2016

Functional Ecology

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Summary Dispersal is the central mechanism that determines connectivity between populations yet few studies connect the mechanisms of movement with realized dispersal in natural populations. To make such a link, we assessed how physiological variation among individuals predicted dispersal in natural populations of unisexual (all‐female) and sexual Ambystoma salamanders on the same fragmented landscape in Ohio. Specifically, we assessed variation in a trait that influences long‐distance animal movement (locomotor endurance) and determined whether variation in endurance matched patterns of realized dispersal assessed using genetic assignment tests. A possible mechanism for why unisexuals would have lower locomotor endurance than a sympatric sexual species (Ambystoma texanum) is the potential energetic cost of evolutionarily mismatched mitochondrial and nuclear genomes within polyploid unisexuals. We found that sexuals walked four times farther than unisexuals during treadmill endurance trials that mimic the locomotor endurance required for dispersal. We then applied landscape genetic methods to identify dispersed adults and quantify realized dispersal. We show that the differences in locomotor endurance between unisexual and sexual salamanders scale to realized dispersal: dispersing sexual individuals travelled approximately twice the distance between presumed natal wetlands and the site of capture compared to dispersing unisexuals. This study links variation in individual performance in terms of endurance with realized dispersal in the field and suggests a potential mechanism (physiological limitation due to mitonuclear mismatch) for the reduced endurance of unisexual individuals relative to sexual individuals although we discuss other possible explanations. The differences in dispersal between these two types of salamanders also informs our understanding of sexual/unisexual coexistence by suggesting that unisexuals are at a competitive disadvantage in terms of colonization ability under a extinction‐colonization model of coexistence. A http://onlinelibrary.wiley.com/doi/10.1111/1365-2435.12813/suppinfo is available for this article.

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Section: Discussionmentioning

confidence: 97%

Locomotor endurance predicts differences in realized dispersal between sympatric sexual and unisexual salamanders

Denton¹,

Greenwald

Gibbs³

2016

Functional Ecology

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“…Leaving aside the common effect of topography on both species, land cover‐related categorical variables did not have an important role in shaping genetic structure. Some studies have previously reported negative effects of roads on gene flow in anurans (Richardson, ) and salamanders (Coster et al., ). Nevertheless, models including road density as a variable were not well supported in either species (Table ).…”

Section: Discussionmentioning

confidence: 99%

“…Comparative landscape genetics studies on codistributed species have great potential to design cost‐effective conservation plans focusing on measures favouring a wider set of taxa, but are still relatively scarce. So far, comparative studies have focused primarily on vertebrates, including amphibians (Coster, Babbitt, Cooper, & Kovach, ; Richardson, ; Zancolli, Rödel, Steffan‐Dewenter, & Storfer, ), mammals (Dudaniec et al., ; Frantz et al., ; Muscarella, Murray, Ortt, Russell, & Fleming, ), and fishes (Olsen et al., ) and more occasionally on invertebrates (Engler, Balkenhol, Filz, Habel, & Rödder, ; Ortego, García‐Navas, Noguerales, & Cordero, ; Phillipsen et al., ). These multi‐species studies may allow identifying interspecific differences in the way landscape features influence connectivity and gene flow and provide general guidelines for land management programmes aimed at protecting biological communities or ecosystems (Goldberg & Waits, ; Keller, Holderegger, Strien, & Bolliger, ; Nicholson & Possingham, ; Schwenk & Donovan, ).…”

Section: Introductionmentioning

confidence: 99%

“…Due to their low dispersal abilities (Bowne & Bowers, ; Graeter, Rothermel, & Gibbons, ), small effective population sizes (Funk, Tallmon, & Allendorf, ) and the discontinuous distribution of their preferred breeding habitats (Jehle, Burke, & Arntzen, ), they tend to form “patchy” breeding assemblages. Dispersal and the maintenance of gene flow between breeding ponds depends on the composition and configuration of the landscape (Coster et al., ), and studies focusing on functional connectivity have described different species responses to landscape features such as differences in soil moisture, clear‐cut habitats, agriculture lands, riparian network, as well as differences in metamorphosis, philopatry, dispersal, selection of breeding sites and post‐breeding behaviour (Coster et al., ; Goldberg & Waits, ; Peterman et al., ; Richardson, ; Steele et al., ). Identification of the factors promoting or reducing gene flow is key to prevent local and regional extinctions in the long‐term and to inform conservation management.…”

Section: Introductionmentioning

confidence: 99%

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Comparative landscape genetics of pond‐breeding amphibians in Mediterranean temporal wetlands: The positive role of structural heterogeneity in promoting gene flow

et al. 2017

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Comparative landscape genetics studies can provide key information to implement cost-effective conservation measures favouring a broad set of taxa. These studies are scarce, particularly in Mediterranean areas, which include diverse but threatened biological communities. Here, we focus on Mediterranean wetlands in central Iberia and perform a multi-level, comparative study of two endemic pond-breeding amphibians, a salamander (Pleurodeles waltl) and a toad (Pelobates cultripes). We genotyped 411 salamanders from 20 populations and 306 toads from 16 populations at 18 and 16 microsatellite loci, respectively, and identified major factors associated with population connectivity through the analysis of three sets of variables potentially affecting gene flow at increasingly finer levels of spatial resolution. Topographic, land use/cover, and remotely sensed vegetation/moisture indices were used to derive optimized resistance surfaces for the two species. We found contrasting patterns of genetic structure, with stronger, finer scale genetic differentiation in Pleurodeles waltl, and notable differences in the role of fine-scale patterns of heterogeneity in vegetation cover and water content in shaping patterns of regional genetic structure in the two species. Overall, our results suggest a positive role of structural heterogeneity in population connectivity in pond-breeding amphibians, with habitat patches of Mediterranean scrubland and open oak woodlands ("dehesas") facilitating gene flow. Our study highlights the usefulness of remotely sensed continuous variables of land cover, vegetation and water content (e.g., NDVI, NDMI) in conservation-oriented studies aimed at identifying major drivers of population connectivity.

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“…Tracking studies suggest altered habitats between pools can reduce overall dispersal propensities (Cline & Hunter, , ). Despite these observed ecological effects, signals of urbanization‐related influences on the genetic structure of pool‐breeding amphibians have not been consistently detected (e.g., Coster, Babbitt, Cooper, & Kovach, ; Peterman et al, ; Richardson, ; Table ). In some of these cases, a lack of effect could be associated with the surveyed spatial extents that were relatively small and that may not be commensurate with the scales over which drift–migration equilibrium is most disrupted and detectable.…”

Section: Introductionmentioning

confidence: 99%

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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Limited influence of local and landscape factors on finescale gene flow in two pond‐breeding amphibians

Cited by 40 publications

References 138 publications

Locomotor endurance predicts differences in realized dispersal between sympatric sexual and unisexual salamanders

Locomotor endurance predicts differences in realized dispersal between sympatric sexual and unisexual salamanders

Comparative landscape genetics of pond‐breeding amphibians in Mediterranean temporal wetlands: The positive role of structural heterogeneity in promoting gene flow

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

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