Locus-specific introgression in young hybrid swarms: drift dominates selection

McFarlane, S. Eryn; Senn, Helen; Smith, Stephanie L.; Pemberton, Josephine M.

doi:10.1101/2020.09.17.300434

Cited by 4 publications

(15 citation statements)

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“…Physically smaller sika were introduced to Scotland in the late 19 th century, and have since hybridized with the red deer (Ratcliffe, 1987). In some parts of the Kintyre peninsula, Argyll, more than 40% of sampled phenotypic red deer and sika individuals are hybrids according to 50,000 SNP markers, with the majority being the result of multiple generations of backcrossing (McFarlane, Hunter, et al, 2020; McFarlane et al, 2020). Hybrid deer tend towards an intermediate phenotype and thus are smaller, have smaller antlers, and are more likely to have the spots typical of sika than parental species red deer (Bartos et al, 1981).…”

Section: Introductionmentioning

confidence: 99%

“…Initial hybridization may be constrained by the substantial size difference between species, but it is clear that at least some F1s and many backcrosses are fertile (Harrington, 1979; McFarlane, Hunter, et al, 2020; McFarlane, Senn, et al, 2020). While there is a trend from red deer in the north to sika in the south of Kintyre, the distribution of hybrids does not follow a cline, being instead concentrated in specific areas (Senn et al, 2010), and we have thus recently redefined this system as a “bivariate hybrid zone” (McFarlane, Hunter, et al, 2020; McFarlane & Pemberton, 2019; McFarlane, Senn, et al, 2020). Additionally, in a study using 20 microsatellite markers, there was no evidence that the number of hybrid individuals was changing over a period of 15 years (Senn et al, 2010).…”

Section: Introductionmentioning

confidence: 99%

“…We used 45K SNP genotypes in 222 Kintyre hybrid deer to estimate genomic clines and show that, as in the other studies cited above, many loci exceed background expectation in terms of direction of introgression α and cline width β . We paid particular attention to the X chromosome, as we have previously found relatively more diagnostic and ancestry informative markers on the X than on the autosomes (McFarlane, Hunter, et al, 2020; McFarlane, Senn, et al, 2020). We then conduct population genetic simulations to investigate admixture scenarios that shed light on the likely roles of drift and selection in generating these results.…”

Section: Introductionmentioning

confidence: 99%

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Locus‐specific introgression in young hybrid swarms: Drift may dominate selection

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Locus‐specific introgression in young hybrid swarms: Drift may dominate selection

et al. 2021

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“…It would be interesting to quantify selection on the specific SNPs that we have found here, to determine the potential for these genomic regions to respond to selection on body size. We have previously identified SNPs that are introgressing faster than expected from red deer into sika in our sample (McFarlane et al 2021), but none of the SNPs associated with carcass mass are introgressing faster than the genome-wide expectation, although this doesn't eliminate the possibility of selection for carcass mass alleles within each population. Ideally, we would measure selection on the phenotypes of hybrid individuals with a variety of genotypes to make firm statements about selection on the carcass mass loci we have identified here, and then to make predictions about the potential for adaptive introgression (Taylor and Larson 2019).…”

Section: Discussionmentioning

confidence: 72%

Admixture mapping reveals loci for carcass mass in red deer x sika hybrids in Kintyre, Scotland

McFarlane

Pemberton

2021

Preprint

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We deployed admixture mapping on a sample of 386 deer from a hybrid swarm between native red deer (Cervus elaphus) and introduced Japanese sika (Cervus nippon) sampled in Kintyre, Scotland to search for Quantitative Trait Loci (QTL) underpinning phenotypic differences between the species. These two species are highly diverged genetically (Fst between pure species, based on 50K SNPs, = 0.532) and phenotypically: pure red have on average twice the carcass mass of pure sika in our sample (38.7kg vs 19.1 kg). After controlling for sex, age and population genetic structure we found ten autosomal genomic locations with QTL for carcass mass. Effect sizes ranged from 0.191 to 1.839 Kg and as expected, in all cases the allele derived from sika conferred lower carcass mass. The sika population was fixed for all small carcass mass alleles, whereas the red deer population was typically polymorphic. GO term analysis of genes lying in the QTL regions are associated with oxygen transport. Although body mass is a likely target of selection, none of the SNPs marking QTL are introgressing faster or slower than expected in either direction.

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“…This is an appealing hypothesis here, given the selection pressures Southern California parrots are likely experiencing as they adapt to a new niche. However, deviations from neutral diffusion can also be driven by genetic drift (McFarlane et al, 2020), which, given the small population sizes of these species, is likely to be a strong force acting on their genomes. In the future, we plan to sequence more individuals with greater genomic coverage in order to better understand how and why some alleles appear to move between species boundaries whereas others do not.…”

Section: Discussionmentioning

confidence: 99%

Niche shifts lead to hybridization between twoAmazonaparrot sister-species introduced to Southern California

Maley

Freeland

DeRaad

et al. 2021

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Hybridization involving introduced species is becoming more common as humans modify landscapes and ecosystems. When two closely related species are introduced to the same area, their niche dynamics will dictate the level of sympatry and potential for hybridization. Amazona parrots offer a rare case where multiple closely related species have established as breeders in Southern California. Red-crowned Parrots (A. viridigenalis) and Lilac-crowned Parrots (A. finschi) are particularly interesting because they are sister species (Russello and Amato, 2004) with allopatric native ranges in Mexico. In Southern California, where they established in the 1980s and have since grown in numbers, they appear to occupy the same urban habitat. We sought to test whether introduced Red-crowned and Lilac-crowned parrots have shifted their niches compared to their native ranges, and if so, whether sympatry has led to hybridization. Using broad-scale environmental data collected from weather stations and orbiting satellites, we found that Red-crowned and Lilac-crowned parrots have partially divergent environmental niches in their native ranges, but now occupy the same environmental niche in their introduced range in Southern California. This new niche is largely different from what they experience in their respective home ranges, supporting a niche-shift model of species introduction. Due to this niche shift, the two species now come into contact across Southern California, leading to hybridization. Genomic markers support the existence of some recent hybrids as well as advanced backcrosses resulting from older hybridization events closer to the time of first introduction. Photographs from community scientists included as part of the Free-flying Los Angeles Parrot Project (FLAPP) also document hybrids, but underestimate their frequency compared to genetic data. Despite evidence for ongoing hybridization, the bimodal distribution of ancestry among the introduced population points to the existence of reproductive isolating mechanisms keeping the two species distinct. Further study is needed to understand if reproductive isolating mechanisms result from behavioral factors, such as conspecific flocking preferences, suggested by the community science data, or from genomic incompatibilities built up from a long history of isolation in Mexico. The integrity of these genetic lineages in Southern California carries important conservation implications, as both species are listed as endangered in their native ranges due to trapping for the pet trade and habitat loss.

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Locus-specific introgression in young hybrid swarms: drift dominates selection

Cited by 4 publications

References 65 publications

Locus‐specific introgression in young hybrid swarms: Drift may dominate selection

Locus‐specific introgression in young hybrid swarms: Drift may dominate selection

Admixture mapping reveals loci for carcass mass in red deer x sika hybrids in Kintyre, Scotland

Niche shifts lead to hybridization between twoAmazonaparrot sister-species introduced to Southern California

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