Abstract
Environmental gradients constrain physiological performance and thus species’ ranges, suggesting that species occurrence in diverse environments may be associated with local adaptation. Genome–environment association analyses (GEAA) have become central for studies of local adaptation, yet they are sensitive to the spatial orientation of historical range expansions relative to landscape gradients. To test whether potentially adaptive genotypes occur in varied climates in wide‐ranged species, we implemented GEAA on the basis of genomewide data from the anole lizards Anolis ortonii and Anolis punctatus, which expanded from Amazonia, presently dominated by warm and wet settings, into the cooler and less rainy Atlantic Forest. To examine whether local adaptation has been constrained by population structure and history, we estimated effective population sizes, divergence times, and gene flow under a coalescent framework. In both species, divergence between Amazonian and Atlantic Forest populations dates back to the mid‐Pleistocene, with subsequent gene flow. We recovered eleven candidate genes involved with metabolism, immunity, development, and cell signaling in A. punctatus and found no loci whose frequency is associated with environmental gradients in A. ortonii. Distinct signatures of adaptation between these species are not associated with historical constraints or distinct climatic space occupancies. Similar patterns of spatial structure between selected and neutral SNPs along the climatic gradient, as supported by patterns of genetic clustering in A. punctatus, may have led to conservative GEAA performance. This study illustrates how tests of local adaptation can benefit from knowledge about species histories to support hypothesis formulation, sampling design, and landscape gradient characterization.
Highlights
Environmental variation across geographic space limits species’ ranges, affecting ecological processes and large‐scale biogeographic patterns (Ghalambor, Huey, Martin, Tewksbury, &Wang, 2006)
We found a signal of historical gene flow be‐ tween populations that occur in Amazonia and the Atlantic Forest in both species, with levels of population gene flow being overall higher in A. punctatus than in A. ortonii (Figure 2)
Based on genomewide data of A. ortonii and A. punctatus, two widespread South American anole lizard species, we infer distinct genetic populations in Amazonia and the Atlantic Forest, suggest‐ ing that separation of these forests following a period of contact has favored genetic divergence (Figure 1)
Summary
Environmental variation across geographic space limits species’ ranges, affecting ecological processes and large‐scale biogeographic patterns This investigation asks whether genetic differentiation identified as potentially adaptive is associated with climatic differentiation along the ranges of the lizards Anolis ortonii and Anolis punctatus While these two species belong to anole clades that diverged around 50 mya (Prates et al.., 2017; Prates, Rodrigues, Melo‐Sampaio, & Carnaval, 2015), it has been shown that they underwent similar his‐ tories of colonization of the Atlantic Forest from Amazonia (Prates, Rivera, et al, 2016; Prates, Xue, et al, 2016). To characterize the climatic gradients presently occu‐ pied by A. ortonii and A. punctatus, we estimate climatic space occupancy over their ranges
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