Unraveling historical introgression and resolving phylogenetic discord within Catostomus (Osteichthys: Catostomidae)

Bangs, Max R.; Douglas, Michael E.; Mussmann, Steven M.

doi:10.1186/s12862-018-1197-y

Cited by 30 publications

(60 citation statements)

References 87 publications

(112 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…1B). Our observations agree with prior studies in underscoring the presence of 'tree 229 compression,' or a branch lengths reduced/ distorted due to an inability to partition introgressed 230 fron non-introgressed ancestries (Leache et al 2014;Bangs et al 2018). 231…”

supporting

confidence: 89%

Genome-wide local ancestries discriminate homoploid hybrid speciation from secondary introgression in the red wolf (Canidae:Canis rufus)

Chafin

2020

Preprint

Self Cite

View full text Add to dashboard Cite

Disclosure statement:Authors have nothing to disclose. Abstract (237) 1 2Hybridization is well recognized as a driver of speciation, yet it often remains difficult to parse 3 phylogenomically in that post-speciation gene flow frequently supersedes an ancestral signal. 4Here we examined how interactions between recombination and gene flow shaped the 5 phylogenomic landscape of red wolf to create non-random retention of introgressed ancestry. 6Our re-analyses of genomic data recapitulate fossil evidence by demonstrating red wolf was 7 indeed extant and isolated prior to more recent admixture with other North American canids. Its 8 more ancient divergence, now sequestered within low-recombinant regions on the X-9 chromosome (i.e., chromosomal 'refugia'), is effectively masked by multiple, successive waves 10 of secondary introgression that now dominate its autosomal ancestry. These interpretations are 11 congruent with more theoretical explanations that describe the manner by which introgression 12 can be localized within the genome through recombination and selection. They also tacitly 13 support the large-X effect, i.e., the manner by which loci that contribute to reproductive isolation 14 can be enriched on the X-chromosome. By contrast, similar, high recombinant regions were also 15 found as enriched within very shallow gene trees, thus reflecting post-speciation gene flow and a 16 compression of divergence estimates to 1/20 th of that found in recombination 'cold spots'. Our 17 results effectively reconcile conflicting hypotheses regarding the impact of hybridization on 18 evolution of North American canids and support an emerging framework within which the 19 analysis of a phylogenomic landscape structured by recombination can be used to successfully 20 address the macroevolutionary implications of hybridization. 21 22 23 24 precede introgression) can be depleted, and especially so in those lineages with a history of 48 secondary introgression. However, the parsing of genealogical histories is dependent on the 49 interactions between recombination, genetic drift, and selection (McGaugh et al. 2012; Schumer 50 et al. 2018). As such, branching patterns are often retained non-randomly, with reduced 51 permeability to gene flow found in those genomic areas with low recombination, where 52 introgression of deleterious alleles is restricted by an increased efficacy of linked selection 53 (Payseur and Rieseberg 2016; Runemark et al. 2018; Schumer et al. 2018). 54The interaction between selection and recombination through time allows fundamental 55 predictions to be made with regard to the stability of hybrids genomes, and this may promote the 56 role that hybridization plays in a given lineage. In the generations following a hybridization 57 event, recombination creates junction-points where ancestries transition from one parental 58 genome to another (Fisher 1954). Their densities along the length of a chromosome can be used 59 to find loci relating to hybrid fitness, because selection against incompatible loci w...

show abstract

supporting

confidence: 89%

Genome-wide local ancestries discriminate homoploid hybrid speciation from secondary introgression in the red wolf (Canidae:Canis rufus)

Chafin

2020

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

“…Finally, genomic tools have demonstrated the previously unknown hybrid status of 618 Amargosa Canyon SPD. Hybridization has been commonplace among desert fishes (Bangs, Douglas, Mussmann, & Douglas, 2018) and has served as a mechanism of speciation (Gerber, 620 Tibbets, & Dowling, 2001), but can also erode species boundaries (Chafin, Douglas, Martin, & Douglas, 2019). Additionally, anthropogenic climate change has induced hybridization among 622 divergent species (Canestrelli et al, 2017;Muhlfeld et al, 2014), and thus represents a post-Pleistocene evolutionary mechanism inherent to western North America (Woodhouse, Meko, 624 MacDonald, Stahle, & Cook, 2010).…”

Section: Oasis Valley)mentioning

confidence: 99%

Defining Relictual Biodiversity: Conservation Units in Speckled Dace (Cyprinidae:Rhinichthys osculus) of the Greater Death Valley Ecosystem

Mussmann

Douglas

Oakey

2020

Preprint

Self Cite

View full text Add to dashboard Cite

22The tips in the tree of life serve as foci for conservation and management, yet clear delimitations are masked by inherent variance at the species-population interface. Analyses using thousands of 24 nuclear loci can potentially sort inconsistencies, yet standard categories applied to this parsing are themselves potentially conflicting and/or subjective [e.g., DPS (distinct population 26 segments); DUs (Diagnosable Units-Canada); MUs (management units); SSP (subspecies); Evolutionarily Significant Units (ESUs)]. One potential solution for consistent categorization is 28 to create a comparative framework by accumulating statistical results from independent studies and evaluating congruence among data sets. Our study illustrates this approach in speckled dace 30 (Cyprinidae: Rhinichthys osculus) endemic to two basins (Owens and Amargosa) in the Death Valley ecosystem (DVE). These fish persist in the Mojave Desert as isolated Pleistocene-relicts 32 and are of conservation concern, but lack formal taxonomic descriptions/designations. Doubledigest RAD (ddRAD) methods identified 14,355 SNP loci across 10 populations (N=140). 34Species delimitation analyses [multispecies coalescent (MSC) and unsupervised machine learning (UML)] delineated four putative ESUs. F ST outlier loci (N=106) were juxtaposed to 36 uncover the potential for localized adaptations. We detected one hybrid population that resulted from upstream reconnection of habitat following contemporary pluvial periods, whereas 38 remaining populations represent relics of ancient tectonism within geographically-isolated springs and groundwater-fed streams. Our study offers three salient conclusions: A blueprint for 40 a multi-faceted delimitation of conservation units; a proposed mechanism by which criteria for intraspecific biodiversity can be potentially standardized; and a strong argument for the proactive 42 management of critically-endangered DVE fishes.3

show abstract

“…Indeed, historic introgression with Sonora Sucker was 556 detected in all Virgin River samples, as reflected in the elevated hybrid index and low interspecies heterozygosity ( Figure 5B). Although the Sonora Sucker proportion is reduced, it is 558 nevertheless significant based on previous D-statistic tests (Bangs et al, 2018b) and hybrid index values for all samples ( Figure 5B). 560…”

Section: Virgin Rivermentioning

confidence: 66%

“…The quantification of molecular variability in both catostomids is a key element in delimiting species-boundaries, management units, and historic patterns of reticulation. Here we 136 build upon previous work (Bangs et al, 2018b) by applying species delimitation methods, phylogenomic (i.e., concatenated and multispecies coalescence), and population genomic 138 approaches (i.e., Bayesian clustering and hybrid detection) to identify potential species rangewide, but with special focus on the Little Colorado River. In this regard, the impacts of divergent 140 life histories, as well as the role of stream capture and hybridization, are particularly germane with regard to the breadth and depth of differentiation found within each.…”

Section: ) Still Emphasize Tributaries In the Upper Colorado Rivementioning

confidence: 99%

Gene flow and species delimitation in fishes of Western North America: Flannelmouth (Catostomus latipinnis) and Bluehead sucker (C. Pantosteus discobolus)

Bangs

Douglas

Chafin

2019

Preprint

Self Cite

View full text Add to dashboard Cite

2The delimitation of species-boundaries, particularly those obscured by reticulation, is a critical step in contemporary biodiversity assessment. It is especially relevant for conservation and 4 management of indigenous fishes in western North America, represented herein by two species with dissimilar life-histories co-distributed in the highly modified Colorado River (i.e., 6Flannelmouth Sucker, Catostomus latipinnis; Bluehead Sucker, C. Pantosteus discobolus). To quantify phylogenomic patterns and examine proposed taxonomic revisions, we first employed 8 double-digest restriction-site associated DNA sequencing (ddRAD), yielding 39,755 unlinked SNPs across 139 samples. These were subsequently evaluated with multiple analytical 10 approaches and by contrasting life history data. Three phylogenetic methods and a Bayesian assignment test highlighted similar phylogenomic patterns in each, but with considerable 12 difference in presumed times of divergence. Three lineages were detected in Bluehead Sucker, supporting elevation of C. P. virescens to species-status, and recognizing C. P. discobolus 14 yarrowi (Zuni Bluehead Sucker) as a discrete entity. Admixture in the latter necessitated a reevaluation of its contemporary and historic distributions, underscoring how biodiversity 16 identification can be confounded by complex evolutionary histories. In addition, we defined three separate Flannelmouth Sucker lineages as ESUs (Evolutionarily Significant Units), given 18 limited phenotypic and genetic differentiation, contemporary isolation, and lack of concordance (per the genealogical concordance component of the phylogenetic species concept). Introgression 20 was diagnosed in both species, with the Little Colorado and Virgin rivers in particular. Our diagnostic methods, and the alignment of our SNPs with previous morphological, enzymatic, and 22 mitochondrial work, allowed us to partition complex evolutionary histories into requisite components, such as isolation versus secondary contact. 24 (ESUs), as reflected by their reduced phenotypic and genetic differentiation. They thus lack concordance under the genealogical component of the phylogenetic species concept. 596 ACKNOWLEDGEMENTS 598Numerous agencies contributed field expertise, specimens, technical assistance, collecting permits, funding or comments for the completion of this study. We are in debt to students, 600 postdoctorals, and faculty who contributed to the development of our research:

show abstract

Unraveling historical introgression and resolving phylogenetic discord within Catostomus (Osteichthys: Catostomidae)

Cited by 30 publications

References 87 publications

Genome-wide local ancestries discriminate homoploid hybrid speciation from secondary introgression in the red wolf (Canidae:Canis rufus)

Genome-wide local ancestries discriminate homoploid hybrid speciation from secondary introgression in the red wolf (Canidae:Canis rufus)

Defining Relictual Biodiversity: Conservation Units in Speckled Dace (Cyprinidae:Rhinichthys osculus) of the Greater Death Valley Ecosystem

Gene flow and species delimitation in fishes of Western North America: Flannelmouth (Catostomus latipinnis) and Bluehead sucker (C. Pantosteus discobolus)

Contact Info

Product

Resources

About