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1. Pervasive Genomic Signatures of Local Adaptation to Altitude Across Highland Specialist Andean Hummingbird Populations

   https://doi.org/10.1093/jhered/esab008  

   Lim, Marisa C ; Bi, Ke ; Witt, Christopher C ; Graham, Catherine H ; Dávalos, Liliana M ( February 2021 , Journal of Heredity)

   Chapman, Mark (Ed.)

   Abstract Populations along steep environmental gradients are subject to differentiating selection that can result in local adaptation, despite countervailing gene flow, and genetic drift. In montane systems, where species are often restricted to narrow ranges of elevation, it is unclear whether the selection is strong enough to influence functional differentiation of subpopulations differing by a few hundred meters in elevation. We used targeted capture of 12 501 exons from across the genome, including 271 genes previously implicated in altitude adaptation, to test for adaptation to local elevations for 2 highland hummingbird species, Coeligena violifer (n = 62) and Colibri coruscans (n = 101). For each species, we described population genetic structure across the complex geography of the Peruvian Andes and, while accounting for this structure, we tested whether elevational allele frequency clines in single nucleotide polymorphisms (SNPs) showed evidence for local adaptation to elevation. Although the 2 species exhibited contrasting population genetic structures, we found signatures of clinal genetic variation with shifts in elevation in both. The genes with SNP-elevation associations included candidate genes previously discovered for high-elevation adaptation as well as others not previously identified, with cellular functions related to hypoxia response, energy metabolism, and immune function, among others. Despite the homogenizing effects of gene flow and genetic drift, natural selection on parts of the genome evidently optimizes elevation-specific cellular function even within elevation range-restricted montane populations. Consequently, our results suggest local adaptation occurring in narrow elevation bands in tropical mountains, such as the Andes, may effectively make them “taller” biogeographic barriers. 

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2. Genetic variation in haemoglobin is associated with evolved changes in breathing in high-altitude deer mice

   https://doi.org/10.1242/jeb.243595  

   Ivy, Catherine M. ; Wearing, Oliver H. ; Natarajan, Chandrasekhar ; Schweizer, Rena M. ; Gutiérrez-Pinto, Natalia ; Velotta, Jonathan P. ; Campbell-Staton, Shane C. ; Petersen, Elin E. ; Fago, Angela ; Cheviron, Zachary A. ; et al ( January 2022 , Journal of Experimental Biology)

   ABSTRACT Physiological systems often have emergent properties but the effects of genetic variation on physiology are often unknown, which presents a major challenge to understanding the mechanisms of phenotypic evolution. We investigated whether genetic variants in haemoglobin (Hb) that contribute to high-altitude adaptation in deer mice (Peromyscus maniculatus) are associated with evolved changes in the control of breathing. We created F2 inter-population hybrids of highland and lowland deer mice to test for phenotypic associations of α- and β-globin variants on a mixed genetic background. Hb genotype had expected effects on Hb–O2 affinity that were associated with differences in arterial O2 saturation in hypoxia. However, high-altitude genotypes were also associated with breathing phenotypes that should contribute to enhancing O2 uptake in hypoxia. Mice with highland α-globin exhibited a more effective breathing pattern, with highland homozygotes breathing deeper but less frequently across a range of inspired O2, and this difference was comparable to the evolved changes in breathing pattern in deer mouse populations native to high altitude. The ventilatory response to hypoxia was augmented in mice that were homozygous for highland β-globin. The association of globin variants with variation in breathing phenotypes could not be recapitulated by acute manipulation of Hb–O2 affinity, because treatment with efaproxiral (a synthetic drug that acutely reduces Hb–O2 affinity) had no effect on breathing in normoxia or hypoxia. Therefore, adaptive variation in Hb may have unexpected effects on physiology in addition to the canonical function of this protein in circulatory O2 transport. 

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3. Landscape genomics of Quercus lobata reveals genes involved in local climate adaptation at multiple spatial scales

   https://doi.org/10.1111/mec.15731  

   Gugger, Paul F. ; Fitz‐Gibbon, Sorel T. ; Albarrán‐Lara, Ana ; Wright, Jessica W. ; Sork, Victoria L. ( December 2020 , Molecular Ecology)

   Understanding how the environment shapes genetic variation provides critical insight about the evolution of local adaptation in natural populations. At multiple spatial scales and multiple geographic contexts within a single species, such information could address a number of fundamental questions about the scale of local adaptation and whether or not the same loci are involved at different spatial scales or geographic contexts. We used landscape genomic approaches from three local elevational transects and rangewide sampling to (a) identify genetic variation underlying local adaptation to environmental gradients in the California endemic oak,Quercus lobata; (b) examine whether putatively adaptive SNPs show signatures of selection at multiple spatial scales; and (c) map putatively adaptive variation to assess the scale and pattern of local adaptation. Of over 10 k single‐nucleotide polymorphisms (SNPs) generated with genotyping‐by‐sequencing, we found signatures of natural selection by climate or local environment at over 600 SNPs (536 loci), some at multiple spatial scales across multiple analyses. Candidate SNPs identified with gene–environment tests (LFMM) at the rangewide scale also showed elevated associations with climate variables compared to the background at both rangewide and elevational transect scales with gradient forest analysis. Some loci overlap with those detected in other oak species, raising the question of whether the same loci might be involved in local climate adaptation in different congeneric species that inhabit different geographic contexts. Mapping landscape patterns of adaptive versus background genetic variation identified regions of marked local adaptation and suggests nonlinear association of candidate SNPs and environmental variables. Taken together, our results offer robust evidence for novel candidate genes for local climate adaptation at multiple spatial scales.

    

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4. Divergence in Body Mass, Wing Loading, and Population Structure Reveals Species-Specific and Potentially Adaptive Trait Variation Across Elevations in Montane Bumble Bees

   https://doi.org/10.1093/isd/ixab012  

   Lozier, Jeffrey D ; Parsons, Zachary M ; Rachoki, Lois ; Jackson, Jason M ; Pimsler, Meaghan L ; Oyen, Kennan J ; Strange, James ; Dillon, Michael E ( September 2021 , Insect Systematics and Diversity)

   Hines, Heather (Ed.)

   Abstract Biogeographic clines in morphology along environmental gradients can illuminate forces influencing trait evolution within and between species. Latitude has long been studied as a driver of morphological clines, with a focus on body size and temperature. However, counteracting environmental pressures may impose constraints on body size. In montane landscapes, declines in air density with elevation can negatively impact flight performance in volant species, which may contribute to selection for reduced body mass despite declining temperatures. We examine morphology in two bumble bee (Hymenoptera: Apidae: Bombus Latreille) species, Bombus vancouverensis Cresson and Bombus vosnesenskii Radoszkowski, across mountainous regions of California, Oregon, and Washington, United States. We incorporate population genomic data to investigate the relationship between genomic ancestry and morphological divergence. We find that B. vancouverensis, which tends to be more specialized for high elevations, exhibits stronger spatial-environmental variation, being smaller in the southern and higher elevation parts of its range and having reduced wing loading (mass relative to wing area) at high elevations. Bombus vosnesenskii, which is more of an elevational generalist, has substantial trait variation, but spatial-environmental correlations are weak. Population structure is stronger in the smaller B. vancouverensis, and we find a significant association between elevation and wing loading after accounting for genetic structure, suggesting the possibility of local adaptation for this flight performance trait. Our findings suggest that some conflicting results for body size trends may stem from distinct environmental pressures that impact different aspects of bumble bee ecology, and that different species show different morphological clines in the same region. 

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5. The adaptive benefit of evolved increases in hemoglobin-O2 affinity is contingent on tissue O2 diffusing capacity in high-altitude deer mice

   https://doi.org/10.1186/s12915-021-01059-4  

   Wearing, Oliver H. ; Ivy, Catherine M. ; Gutiérrez-Pinto, Natalia ; Velotta, Jonathan P. ; Campbell-Staton, Shane C. ; Natarajan, Chandrasekhar ; Cheviron, Zachary A. ; Storz, Jay F. ; Scott, Graham R. ( June 2021 , BMC Biology)

   Complex organismal traits are often the result of multiple interacting genes and sub-organismal phenotypes, but how these interactions shape the evolutionary trajectories of adaptive traits is poorly understood. We examined how functional interactions between cardiorespiratory traits contribute to adaptive increases in the capacity for aerobic thermogenesis (maximal O₂consumption,V̇O₂max, during acute cold exposure) in high-altitude deer mice (Peromyscus maniculatus). We crossed highland and lowland deer mice to produce F₂inter-population hybrids, which expressed genetically based variation in hemoglobin (Hb) O₂affinity on a mixed genetic background. We then combined physiological experiments and mathematical modeling of the O₂transport pathway to examine the links between cardiorespiratory traits andV̇O₂max.

   Physiological experiments revealed that increases in Hb-O₂affinity of red blood cells improved blood oxygenation in hypoxia but were not associated with an enhancement inV̇O₂max. Sensitivity analyses performed using mathematical modeling showed that the influence of Hb-O₂affinity onV̇O₂max in hypoxia was contingent on the capacity for O₂diffusion in active tissues.

   These results suggest that increases in Hb-O₂affinity would only have adaptive value in hypoxic conditions if concurrent with or preceded by increases in tissue O₂diffusing capacity. In high-altitude deer mice, the adaptive benefit of increasing Hb-O₂affinity is contingent on the capacity to extract O₂from the blood, which helps resolve controversies about the general role of hemoglobin function in hypoxia tolerance.

    

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