Spatial variation in introgression along a toad hybrid zone in France

AbstractThe barrier effect is a restriction of gene flow between diverged populations by barrier genes. Restriction of gene flow and asymmetric introgression over multiple transects indicates species wide (genetic) adaptations, whereas transect-specific barrier loci may indicate local adaptation to gene flow. Asymmetric introgression can be caused by selection, hybrid zone movement, asymmetric reproductive isolation, or a combination of these. We study two widely separated transects (northwest and southeast France) for the 900 km long hybrid zone between Bufo bufo and B. spinosus toads, using ~1200 markers from restriction-site associated DNA (RAD) sequencing data. Genomic and geographic clines were used to identify outlier markers which show restricted or elevated introgression. Twenty-six barrier markers are shared between transects (the union of 56 and 123 barrier markers identified in each transect), which is more than would be expected by chance. However, the number of barrier markers is twice as high in the southeast transect. In the northwest transect a high amount of (asymmetric) introgression from B. spinosus into B. bufo is consistent with hybrid zone movement or asymmetric reproductive isolation. In the southeast transect, introgression is symmetric and consistent with a stable hybrid zone. Differences between transects may be related to genetic sub-structure within B. bufo. A longer period of secondary contact in southeast France appears to result in a relatively stronger barrier effect than in the northwest. The Bufo hybrid zone provides an excellent opportunity to separate a general barrier to gene flow from local reductions in gene flow.

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Spatial variation in gene flow across a hybrid zone reveals causes of reproductive isolation and asymmetric introgression in wall lizards*

Evolution ◽

10.1111/evo.14001 ◽

2020 ◽

Vol 74 (7) ◽

pp. 1289-1300 ◽

Cited By ~ 2

Author(s):

Weizhao Yang ◽

Nathalie Feiner ◽

Hanna Laakkonen ◽

Roberto Sacchi ◽

Marco A. L. Zuffi ◽

...

Keyword(s):

Gene Flow ◽

Reproductive Isolation ◽

Spatial Variation ◽

Hybrid Zone ◽

Asymmetric Introgression

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Asymmetric Reproductive Barriers and Gene Flow Promote the Rise of a Stable Hybrid Zone in the Mediterranean High Mountain

Frontiers in Plant Science ◽

10.3389/fpls.2021.687094 ◽

2021 ◽

Vol 12 ◽

Author(s):

Mohamed Abdelaziz ◽

A. Jesús Muñoz-Pajares ◽

Modesto Berbel ◽

Ana García-Muñoz ◽

José M. Gómez ◽

...

Keyword(s):

Gene Flow ◽

Reproductive Isolation ◽

Sierra Nevada ◽

Hybrid Zone ◽

High Elevation ◽

Secondary Contact ◽

High Mountain ◽

Hybrid Zones ◽

Reproductive Barriers ◽

Sierra Nevada Mountains

Hybrid zones have the potential to shed light on evolutionary processes driving adaptation and speciation. Secondary contact hybrid zones are particularly powerful natural systems for studying the interaction between divergent genomes to understand the mode and rate at which reproductive isolation accumulates during speciation. We have studied a total of 720 plants belonging to five populations from two Erysimum (Brassicaceae) species presenting a contact zone in the Sierra Nevada mountains (SE Spain). The plants were phenotyped in 2007 and 2017, and most of them were genotyped the first year using 10 microsatellite markers. Plants coming from natural populations were grown in a common garden to evaluate the reproductive barriers between both species by means of controlled crosses. All the plants used for the field and greenhouse study were characterized by measuring traits related to plant size and flower size. We estimated the genetic molecular variances, the genetic differentiation, and the genetic structure by means of the F-statistic and Bayesian inference. We also estimated the amount of recent gene flow between populations. We found a narrow unimodal hybrid zone where the hybrid genotypes appear to have been maintained by significant levels of a unidirectional gene flow coming from parental populations and from weak reproductive isolation between them. Hybrid plants exhibited intermediate or vigorous phenotypes depending on the analyzed trait. The phenotypic differences between the hybrid and the parental plants were highly coherent between the field and controlled cross experiments and through time. The highly coherent results obtained by combining field, experimental, and genetic data demonstrate the existence of a stable and narrow unimodal hybrid zone between Erysimum mediohispanicum and Erysimum nevadense at the high elevation of the Sierra Nevada mountains.

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Extensive introgression despite Haldane’s rule: insights from grasshopper hybrid zones

10.22541/au.163785413.32517525/v1 ◽

2021 ◽

Author(s):

Linda Hagberg ◽

Enrique Celemin ◽

Iker Irisarri ◽

Oliver Hawlitschek ◽

J L Bella ◽

...

Keyword(s):

Gene Flow ◽

Reproductive Isolation ◽

Male Sterility ◽

Secondary Contact ◽

Hybrid Zones ◽

Hybrid Male ◽

Hybrid Male Sterility ◽

Haldane’S Rule ◽

Haldane's Rule ◽

Species Formation

Although the process of species formation is notoriously idiosyncratic, the observation of pervasive patterns of reproductive isolation across species pairs suggests that generalities, or “rules”, underlie species formation in all animals. Haldane’s rule states that whenever a sex is absent, rare or sterile in a cross between two taxa, that sex is usually the heterogametic sex. Yet, understanding how Haldane’s rule first evolves and whether it is associated to genome wide barriers to gene flow remains a challenging task because this rule is usually studied in highly divergent taxa that no longer hybridize in nature. Here, we address these questions using the meadow grasshopper Pseudochorthippus parallelus where populations that readily hybridize in two natural hybrid zones show hybrid male sterility in laboratorial crosses. Using mitochondrial data, we infer that such populations have diverged some 100,000 years ago, surviving multiple glacial periods in isolated Pleistocenic refugia. Nuclear data shows that secondary contact has led to extensive introgression throughout the species range, including between populations showing hybrid male sterility. We find repeatable patterns of genomic differentiation across the two hybrid zones, yet such patterns are consistent with shared genomic constraints across taxa rather than their role in reproductive isolation. Together, our results suggest that Haldane’s rule can evolve relatively quickly within species, particularly when associated to strong demographic changes. At such early stages of species formation, hybrid male sterility still permits extensive gene flow, allowing future studies to identify genomic regions associated with reproductive barriers.

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A maladaptive combination of traits contributes to the maintenance of a stable hybrid zone between two divergent species of Drosophila

10.1101/138388 ◽

2017 ◽

Cited By ~ 3

Author(s):

Brandon S. Cooper ◽

Alisa Sedghifar ◽

W. Thurston Nash ◽

Aaron A. Comeault ◽

Daniel R. Matute

Keyword(s):

Gene Flow ◽

Hybrid Zone ◽

Hybrid Zones ◽

Hybrid Male ◽

Open Habitat ◽

Preferred Habitat ◽

Species Overlap ◽

Agricultural Areas ◽

Stable Hybrid ◽

Advanced Generation

ABSTRACTGeographical areas where two species come into contact and hybridize serve as natural laboratories for assessing mechanisms that limit gene flow between species. The ranges of about half of all closely related Drosophila species overlap, and the genomes of several pairs reveal signatures of past introgression. However, only two contemporary hybrid zones have been characterized in the genus, and both are recently diverged sister species (D. simulans-D. sechellia, Ks = 0.05; D. yakuba-D. santomea, Ks = 0.048). Here we present evidence of a new hybrid zone, and the ecological mechanisms that maintain it, between two highly divergent Drosophila species (Ks = 0.11). On the island of Bioko in west Africa, D. teissieri occupies mostly forests, D. yakuba occupies mostly open agricultural areas, and recently, we discovered that hybrids between these species occur near the interface of these habitats. Genome sequencing revealed that all field-sampled hybrids are F1 progeny of D. yakuba females and D. teissieri males. We found no evidence for either advanced-generation hybrids or F1 hybrids produced by D. teissieri females and D.yakuba males. The lack of advanced-generation hybrids on Bioko is consistent with mark-recapture and laboratory experiments that we conducted, which indicate hybrids have a maladaptive combination of traits. Like D. yakuba, hybrids behaviorally prefer open habitat that is relatively warm and dry, but like D. teissieri, hybrids have low desiccation tolerance, which we predict leaves them physiologically ill-equipped to cope with their preferred habitat. These observations are consistent with recent findings of limited introgression in the D. yakuba clade and identify an ecological mechanism for limiting gene flow between D. yakuba and D. teissieri; namely, selection against hybrids that we have documented, in combination with hybrid male sterility, contributes to the maintenance of this narrow (~30m), stable hybrid zone centered on the forest-open habitat ecotone. Our results show how a deleterious combination of parental traits can result in unfit or maladapted hybrids.

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Sexual selection against natural hybrids may contribute to reinforcement in a house mouse hybrid zone

Proceedings of The Royal Society B Biological Sciences ◽

10.1098/rspb.2013.2733 ◽

2014 ◽

Vol 281 (1776) ◽

pp. 20132733 ◽

Cited By ~ 21

Author(s):

Yasmin Latour ◽

Marco Perriat-Sanguinet ◽

Pierre Caminade ◽

Pierre Boursot ◽

Carole M. Smadja ◽

...

Keyword(s):

Sexual Selection ◽

Gene Flow ◽

Hybrid Zone ◽

Mus Musculus ◽

Character Displacement ◽

Secondary Contact ◽

Lower Hybrid ◽

Mus Musculus Domesticus ◽

Hybrid Fitness ◽

Signal Perception

Sexual selection may hinder gene flow across contact zones when hybrid recognition signals are discriminated against. We tested this hypothesis in a unimodal hybrid zone between Mus musculus musculus and Mus musculus domesticus where a pattern of reinforcement was described and lower hybrid fitness documented. We presented mice from the border of the hybrid zone with a choice between opposite sex urine from the same subspecies versus hybrids sampled in different locations across the zone. While no preference was evidenced in domesticus mice, musculus males discriminated in favour of musculus signals and against hybrid signals. Remarkably, the pattern of hybrid unattractiveness did not vary across the hybrid zone. Moreover, allopatric populations tested in the same conditions did not discriminate against hybrid signals, indicating character displacement for signal perception or preference. Finally, habituation–discrimination tests assessing similarities between signals pointed out that hybrid signals differed from the parental ones. Overall, our results suggest that perception of hybrids as unattractive has evolved in border populations of musculus after the secondary contact with domesticus . We discuss the mechanisms involved in hybrid unattractiveness, and the potential impact of asymmetric sexual selection on the hybrid zone dynamics and gene flow between the two subspecies.

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Persistence of a Geographically-Stable Hybrid Zone in Puerto Rican Dwarf Geckos

Journal of Heredity ◽

10.1093/jhered/esz015 ◽

2019 ◽

Vol 110 (5) ◽

pp. 523-534 ◽

Cited By ~ 2

Author(s):

Brendan J Pinto ◽

James Titus-McQuillan ◽

Juan D Daza ◽

Tony Gamble

Keyword(s):

Reproductive Isolation ◽

Hybrid Zone ◽

Sequence Data ◽

Strong Support ◽

Climatic Variables ◽

Putative Hybrid ◽

Hybrid Zones ◽

Intermediate Phenotypes ◽

Genetic Mechanisms ◽

Stable Hybrid

Abstract Determining the mechanisms that create and maintain biodiversity is a central question in ecology and evolution. Speciation is the process that creates biodiversity. Speciation is mediated by incompatibilities that lead to reproductive isolation between divergent populations and these incompatibilities can be observed in hybrid zones. Gecko lizards are a speciose clade possessing an impressive diversity of behavioral and morphological traits. In geckos, however, our understanding of the speciation process is negligible. To address this gap, we used genetic sequence data (both mitochondrial and nuclear markers) to revisit a putative hybrid zone between Sphaerodactylus nicholsi and Sphaerodactylus townsendi in Puerto Rico, initially described in 1984. First, we addressed discrepancies in the literature on the validity of both species. Second, we sampled a 10-km-wide transect across the putative hybrid zone and tested explicit predictions about its dynamics using cline models. Third, we investigated potential causes for the hybrid zone using species distribution modeling and simulations; namely, whether unique climatic variables within the hybrid zone might elicit selection for intermediate phenotypes. We find strong support for the species-level status of each species and no evidence of movement, or unique climatic variables near the hybrid zone. We suggest that this narrow hybrid zone is geographically stable and is maintained by a combination of dispersal and selection. Thus, this work has identified an extant model system within geckos that that can be used for future investigations detailing genetic mechanisms of reproductive isolation in an understudied vertebrate group.

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The high Andes, gene flow and a stable hybrid zone shape the genetic structure of a wide-ranging South American parrot

Frontiers in Zoology ◽

10.1186/1742-9994-8-16 ◽

2011 ◽

Vol 8 (1) ◽

pp. 16 ◽

Cited By ~ 21

Author(s):

Juan F Masello ◽

Petra Quillfeldt ◽

Gopi K Munimanda ◽

Nadine Klauke ◽

Gernot Segelbacher ◽

...

Keyword(s):

Gene Flow ◽

Genetic Structure ◽

Hybrid Zone ◽

South American ◽

Stable Hybrid

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Genomic islands of divergence or opportunities for introgression?

Proceedings of The Royal Society B Biological Sciences ◽

10.1098/rspb.2016.2414 ◽

2017 ◽

Vol 284 (1850) ◽

pp. 20162414 ◽

Cited By ~ 15

Author(s):

Rachael A. Bay ◽

Kristen Ruegg

Keyword(s):

Gene Flow ◽

Reproductive Isolation ◽

Genomic Islands ◽

Secondary Contact ◽

Catharus Ustulatus ◽

Adaptive Introgression ◽

Evolutionary Forces ◽

Genome Wide ◽

Isolating Mechanisms ◽

Migratory Songbird

In animals, introgression between species is often perceived as the breakdown of reproductive isolating mechanisms, but gene flow between incipient species can also represent a source for potentially beneficial alleles. Recently, genome-wide datasets have revealed clusters of differentiated loci (‘genomic islands of divergence’) that are thought to play a role in reproductive isolation and therefore have reduced gene flow. We use simulations to further examine the evolutionary forces that shape and maintain genomic islands of divergence between two subspecies of the migratory songbird, Swainson's thrush ( Catharus ustulatus ), which have come into secondary contact since the last glacial maximum. We find that, contrary to expectation, gene flow is high within islands and is highly asymmetric. In addition, patterns of nucleotide diversity at highly differentiated loci suggest selection was more frequent in a single ecotype. We propose a mechanism whereby beneficial alleles spread via selective sweeps following a post-glacial demographic expansion in one subspecies and move preferentially across the hybrid zone. We find no evidence that genomic islands are the result of divergent selection or reproductive isolation, rather our results suggest that differentiated loci both within and outside islands could provide opportunities for adaptive introgression across porous species boundaries.

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Genome-wide patterns of divergence and introgression after secondary contact between Pungitius sticklebacks

Philosophical Transactions of the Royal Society B Biological Sciences ◽

10.1098/rstb.2019.0548 ◽

2020 ◽

Vol 375 (1806) ◽

pp. 20190548 ◽

Cited By ~ 2

Author(s):

Yo Y. Yamasaki ◽

Ryo Kakioka ◽

Hiroshi Takahashi ◽

Atsushi Toyoda ◽

Atsushi J. Nagano ◽

...

Keyword(s):

Gene Flow ◽

Reproductive Isolation ◽

Sequence Data ◽

Continuous Process ◽

Sympatric Species ◽

Whole Genome Sequence ◽

Secondary Contact ◽

Pungitius Pungitius ◽

Hybrid Male ◽

Differential Adaptation

Speciation is a continuous process. Although it is known that differential adaptation can initiate divergence even in the face of gene flow, we know relatively little about the mechanisms driving complete reproductive isolation and the genomic patterns of divergence and introgression at the later stages of speciation. Sticklebacks contain many pairs of sympatric species differing in levels of reproductive isolation and divergence history. Nevertheless, most previous studies have focused on young species pairs. Here, we investigated two sympatric stickleback species, Pungitius pungitius and P. sinensis , whose habitats overlap in eastern Hokkaido; these species show hybrid male sterility, suggesting that they may be at a late stage of speciation. Our demographic analysis using whole-genome sequence data showed that these species split 1.73 Ma and came into secondary contact 37 200 years ago after a period of allopatry. This long period of allopatry might have promoted the evolution of intrinsic incompatibility. Although we detected on-going gene flow and signatures of introgression, overall genomic divergence was high, with considerable heterogeneity across the genome. The heterogeneity was significantly associated with variation in recombination rate. This sympatric pair provides new avenues to investigate the late stages of the stickleback speciation continuum. This article is part of the theme issue ‘Towards the completion of speciation: the evolution of reproductive isolation beyond the first barriers’.

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Patterns of mtDNA introgression suggest population replacement in Palaearctic whiskered bat species

Royal Society Open Science ◽

10.1098/rsos.191805 ◽

2020 ◽

Vol 7 (6) ◽

pp. 191805

Author(s):

Emrah Çoraman ◽

Heliana Dundarova ◽

Christian Dietz ◽

Frieder Mayer

Keyword(s):

Gene Flow ◽

Reproductive Isolation ◽

Environmental Conditions ◽

Indigenous Populations ◽

Secondary Contact ◽

Ecological Differentiation ◽

Population Replacement ◽

The Balkans ◽

Mtdna Introgression ◽

Sympatric Zone

Secondary contacts can play a major role in the evolutionary histories of species. Various taxa diverge in allopatry and later on come into secondary contact during range expansions. When they meet, their interactions and the extent of gene flow depend on the level of their ecological differentiation and the strength of their reproductive isolation. In this study, we present the multilocus phylogeography of two cryptic whiskered bat species, Myotis mystacinus and M. davidii , with a particular focus on their putative sympatric zone. Our findings suggest that M. mystacinus and M. davidii evolved in allopatry and came into secondary contact during range expansions. Individuals in the area of secondary contact, in Anatolia and the Balkans, have discordant population assignments based on the mitochondrial and the nuclear datasets. These observed patterns suggest that the local M. mystacinus populations hybridized with expanding M. davidii populations, which resulted in mitochondrial introgression from the former. In the introgression area, M. mystacinus individuals with concordant nuclear and mitochondrial genotypes were identified in relatively few locations, suggesting that the indigenous populations might have been largely replaced by invading M. davidii . Changing environmental conditions coupled with ecological competition is the likely reason for this replacement. Our study presents one possible example of a historical population replacement that was captured in phylogeographic patterns.

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