Your search keyword '"Hybrid Zone"' showing total 4,011 results

1. Rolling with the punches: Organism-environment interactions shape spatial pattern of adaptive differentiation in the widespread mantis shrimp Oratosquilla oratoria

Author

Cheng, Jiao, Zhang, Zhixin, Li, Yulong, Zhang, Liwen, Hui, Min, and Sha, Zhongli

Published

2024

2. Conservation genetics of barbel species (Teleostei, Cyprinidae) facing hybridization and introgression along an elevational gradient in protected areas of northern Italy.

Author

Ferrari, Claudio, Piccoli, Federica, Voccia, Andrea, Rontani, Pietro Maria, Leonardi, Stefano, Ardenghi, Alessia, Nonnis Marzano, Francesco, and Filonzi, Laura

Subjects

*HYBRID zones, *EFFECT of human beings on climate change, *NATIVE species, *MITOCHONDRIAL DNA, *CONSERVATION genetics

Abstract

The European endemic barbels represent important bioindicators of river quality and are nowadays threatened by changing environmental conditions and hybridization with the invasive alien Barbus barbus. It is therefore fundamental to investigate interactions among species and adaptability to climate changes in protected areas of Northern Apennines. An investigation was carried out considering 248 barbel samples that were analysed for Cytb mitochondrial DNA and 192 at 10 microsatellite loci, to delineate the distribution and population structure of the two native species as well as the impact of invasive B. barbus inside 15 sites of the Natura 2000 network. The complex distribution of the native barbel species was highlighted, together with a significant genetic structure emerging in different populations. Only one site revealed a "pure" population of B. caninus while the other ones showed a high level of hybridization between the different barbel species. For the B. plebejus two "genetically pure" populations were found in the hill‐mountain sector, while the hybridization level resulted in increasing in the lowest altitudinal stretch of watercourses with a consistent contribution driven by B. barbus. We herein present the first evidence of B. barbus introgression along an altitudinal gradient, carried from the lowland water course to mountain stretches driven by B. plebejus migration. B. plebejus is the species that can act as vicariant organism able to transfer the B. barbus genome from the plain habitats into B. caninus genome of the higher altitude waterstreams, as a consequence of habitat shifts due to climate changes and anthropogenic acitivities. [ABSTRACT FROM AUTHOR]

Published

2025

3. Quality not Quantity: Seedlings of the Invasive Hybrid Cattail Typha x glauca Outcompete the more Abundant Seedlings of their Maternal Parent T. angustifolia.

Author

Freeland, Joanna, Kowalcyk, Olivia, Brennan, Margaret, and Dorken, Marcel

Abstract

Numerous invasive plant taxa are hybrids that outcompete their parent species, thus exhibiting heterosis. Invasive hybrids can also have an advantage if the genotypes of one or both parent species are replaced by hybrid genotypes in a process known as genetic swamping, which can remove or reduce the parental competitors. A vast cattail hybrid zone in North America comprises T. latifolia, T. angustifolia, and their hybrid T. × glauca. Genetic swamping may be reducing the abundance of the maternal parent, T. angustifolia, across the hybrid zone, although competition could also be important for hybrid success. We tested two non-mutually exclusive hypotheses: 1) Genetic swamping means that T. angustifolia is producing a high proportion of hybrid offspring, and 2) T. × glauca seedlings outcompete T. angustifolia seedlings. We collected fruit from 14 maternal T. angustifolia plants across 12 sites in Ontario, Canada, and grew seedlings from each plant both singly (without competition) and in groups (with competition). We used genetic data to assign a subset of seedlings to taxon, and found that most seedlings (78%) were T. angustifolia, which does not support our hypothesis of genetic swamping. However, a significantly higher proportion of seedlings were hybrids in the competitive (29%) versus the non-competitive (14%) environment, which supports our hypothesis that T. x glauca seedlings outcompete T. angustifolia seedlings. Typha hybrids dominate wetlands across a substantial area in North America, and our data suggest that strong competitive ability is more important than genetic swamping for the establishment of these successful invaders. [ABSTRACT FROM AUTHOR]

Published

2025

4. Paleoclimate Fluctuations Facilitate the Biogeographical History of Endemic Species of Freshwater Crabs in China via Cycles of Introgressive Hybridisation and Habitat Isolation.

Author

Shi, Boyang, Wang, Ruxiao, Song, Danhong, Xu, Juanjuan, Zhu, Lin, Sun, Yufang, Hu, Rui, Cumberlidge, Neil, Pan, Da, and Sun, Hongying

Subjects

*INTERGLACIALS, *POPULATION genetics, *GLACIATION, *FRESHWATER crabs, *PHYLOGEOGRAPHY, *HYBRID zones, REPRODUCTIVE isolation

Abstract

ABSTRACT Aim Location Taxon Methods Results Main Conclusions The impact of Pleistocene climate fluctuations on the biogeographical history of aquatic species has been a topic of enduring debate. This issue poses particular challenges for parapatric closely related species, especially those situated in transition zones where species assemblages occur between distinct zoogeographic boundaries.Eastern China.Five closely related Sinopotamon species and subspecies, S. shensiense, S. honanense, S. y. yangtsekiense, S. y. shanxianense, and S. y. tongbaiense.These parapatric Sinopotamon species and subspecies, distributed along the boundary between the Palaearctic and Oriental realms in eastern China, offer an ideal model for addressing these challenges. We explored the biogeographic history of these species by conducting a comparative phylogeographic analysis using nine microsatellite loci and two mitochondrial DNA sequences, combined with morphological variation and fine‐tuned ecological niche modelling.Our phylogeographic analyses consistently revealed two well‐supported clades: clade A, for S. y. yangtsekiense, and clade B, which includes other species showing polyphyletic patterning and significant gene introgression. The Nanyang Basin and surrounding mountains regions (NBSM) was identified as a critical shared refuge and hybrid zone, facilitating interspecific introgression through at least two putative hybridisation events. During the Late Pleistocene glacial cycles, introgressive hybridisation of these species occurred in the NBSM, followed by rapid expansion and colonisation of heterogenous habitats during interglacial cycles, with dispersal corridors largely aligning with the local river system. In particular, the diffusion corridor of S. honanense significantly disrupted the continuous distribution of S. y. shanxianense and S. y. tongbaiense, indicating that S. honanense has replaced S. y. shanxianense and S. y. tongbaiense in the NYSM and caused a disruption in its distribution.The biogeographic histories of the species in clade B are consistent with a mixing–isolation–mixing model, which suggests that populations experienced repeated introgressive hybridisation during glacial periods and regional habitat isolation during interglacial periods. Our findings represent a classic case of fine tracking biogeographical scenarios in parapatric species and provide unprecedented insights into the evolutionary radiation of the freshwater fauna that occupies zoogeographic boundaries. [ABSTRACT FROM AUTHOR]

Published

2024

5. Spread of yellow-bill-color alleles favored by selection in the long-tailed finch hybrid system.

Author

Hooper, Daniel M., McDiarmid, Callum S., Powers, Matthew J., Justyn, Nicholas M., Kučka, Marek, Hart, Nathan S., Hill, Geoffrey E., Andolfatto, Peter, Chan, Yingguang Frank, and Griffith, Simon C.

Subjects

*NATURAL selection, *POPULATION genetics, *HYBRID systems, *COLOR of birds, *COLLECTING of accounts

Abstract

Carotenoid pigments produce the yellow and red colors of birds and other vertebrates. Despite their importance in social signaling and sexual selection, our understanding of how carotenoid ornamentation evolves in nature remains limited. Here, we examine the long-tailed finch Poephila acuticauda , an Australian songbird with a yellow-billed western subspecies acuticauda and a red-billed eastern subspecies hecki , which hybridize where their ranges overlap. We found that yellow bills can be explained by the loss of C(4)-oxidation, thus preventing yellow dietary carotenoids from being converted to red. Combining linked-read genomic sequencing and reflectance spectrophotometry measurements of bill color collected from wild-sampled finches and laboratory crosses, we identify four loci that together explain 53% of variance in this trait. The two loci of largest effect contain the genes CYP2J19 , an essential enzyme for producing red carotenoids, and TTC39B , an enhancer of carotenoid metabolism. A paucity of protein-coding changes and an enrichment of associated upstream variants suggest that the loss of C(4)-oxidation results from cis -regulatory evolution. Evolutionary genealogy reconstruction indicates that the red-billed phenotype is ancestral and that yellow alleles at CYP2J19 and TTC39B first arose and fixed in acuticauda approximately 100 kya. Yellow alleles subsequently introgressed into hecki less than 5 kya. Across all color loci, acuticauda -derived variants show evidence of selective sweeps, implying that yellow bill coloration has been favored by natural selection. Our study illustrates how evolutionary transitions between yellow and red coloration can be achieved by successive selective events acting on regulatory changes at a few interacting genes. [Display omitted] • Long-tailed finch bill color varies due to change in regulation of C(4)-oxidation • Yellow bill color is a derived, recessive trait associated with CYP2J19 and TTC39B • Selection on yellow alleles has driven their introgression between subspecies • Divergence of a carotenoid color ornament results from cis -regulatory changes Carotenoid color ornaments play important roles in social signaling and species recognition. Hooper et al. show that bill-color variation in long-tailed finches is associated with genes controlling the metabolism of red pigments from yellow dietary precursors. Selection favoring yellow alleles is causing the trait to introgress between subspecies. [ABSTRACT FROM AUTHOR]

Published

2024

6. Differences in Diel Timing of Flight May Reduce Hybridization Between Native and Introduced Geometrid Moth Congeners.

Author

Chandler, Jennifer L., Elkinton, Joseph S., Boettner, George H., and Andersen, Jeremy C.

Subjects

*LIFE sciences, *HYBRID zones, *NATIVE species, *INTRODUCED species, *SPECIES hybridization, REPRODUCTIVE isolation

Abstract

Hybridization between exotic and native species can lead to negative ecological and economic consequences. The invasive winter moth (WM), Operophtera brumata, uses the same sex-attractant pheromone and mates and produces fertile offspring with a native congener the Bruce spanworm (BSW), O. bruceata, and a stable hybrid zone has formed where their ranges overlap in the northeastern United States. However, the fact that the two species have not merged, despite seasonal overlap of flight, suggests that one or more pre- or post-mating barriers to hybridization might therefore exist. Here, we evaluate the hypothesis that interspecies differences in diel timing of flight might provide pre-mating isolation and explore whether these two species change their diel timing of flight differently in response to changes in temperature. Our results indicate that the flight timing of WM and BSW broadly overlap during the nighttime hours, although WM males fly almost exclusively at dawn, dusk, and night whereas BSW males fly during both daytime and nighttime hours. Flight activity also differed between the two species in response to nighttime temperatures < 0 °C, wherein WM flight largely stopped while BSW flight continued and the proportion of males flying during the daytime increased. This partial partitioning may help explain why the native BSW has not been completely outcompeted by the invasive WM. [ABSTRACT FROM AUTHOR]

Published

2025

7. Geographical and genetic clines in Dracocephalum kotschyi X Dracocephalum oligadenium hybrids: landscape genetics and genocline analyses

Author

Masoud Sheidai, Fahimeh Koohdar, and Javad Mazinani

Subjects

Computational methods, Dracocephalum taxa, Genetic structure, Hybrid zone, Selection, Botany, QK1-989

Abstract

Abstract Conservation and management of medicinally important plants are among the necessary tasks all over the world. The genus Dracocephalum (Lamiaceae) contains about 186 perennials, or annual herb species that have been used for their medicinal values in different parts of the world as an antihyperlipidemic, analgesic, antimicrobial, antioxidant, as well as anticancer medicine. Producing detailed data on the genetic structure of these species and their response against climate change and human landscape manipulation can be very important for conservation purposes. Therefore, the present study was performed on six geographical populations of two species in the Dracocephalum genus, namely, Dracocephalum kotschyi, and Dracocephalum oligadenium, as well as their inter-specific hybrid population. We carried out, population genetic study, landscape genetics, species modeling, and genetic cline analyses on these plants. We present here, new findings on the genetic structure of these populations, and provide data on both geographical and genetic clines, as well as morphological clines. We also identified genetic loci that are potentially adaptive to the geographical spatial features and genocide conditions. Different species distribution modeling (SDM) methods, used in this work revealed that bioclimatic variables related to the temperature and moisture, play an important role in Dracocephalum population’s geographical distribution within IRAN and that due to the presence of some potentially adaptive genetic loci in the studied plants, they can survive well enough by the year 2050 and under climate change. The findings can be used for the protection of these medicinally important plant.

Published

2024

8. A Next Generation of Hierarchical Bayesian Analyses of Hybrid Zones Enables Model‐Based Quantification of Variation in Introgression in R.

Author

Gompert, Zachariah, DeRaad, Devon A., and Buerkle, C. Alex

Subjects

*HYBRID zones, *GENETIC drift, *GENOMICS, *BAYESIAN analysis, REPRODUCTIVE isolation

Abstract

Hybrid zones, where genetically distinct groups of organisms meet and interbreed, offer valuable insights into the nature of species and speciation. Here, we present a new R package, bgchm, for population genomic analyses of hybrid zones. This R package extends and updates the existing bgc software and combines Bayesian analyses of hierarchical genomic clines with Bayesian methods for estimating hybrid indexes, interpopulation ancestry proportions, and geographic clines. Compared to existing software, bgchm offers enhanced efficiency through Hamiltonian Monte Carlo sampling and the ability to work with genotype likelihoods combined with a hierarchical Bayesian approach, enabling inference for diverse types of genetic data sets. The package also facilitates the quantification of introgression patterns across genomes, which is crucial for understanding reproductive isolation and speciation genetics. We first describe the models underlying bgchm and then provide an overview of the R package and illustrate its use through the analysis of simulated and empirical data sets. We show that bgchm generates accurate estimates of model parameters under a variety of conditions, especially when the genetic loci analyzed are highly ancestry informative. This includes relatively robust estimates of genome‐wide variability in clines, which has not been the focus of previous models and methods. We also illustrate how both selection and genetic drift contribute to variability in introgression among loci and how additional information can be used to help distinguish these contributions. We conclude by describing the promises and limitations of bgchm, comparing bgchm to other software for genomic cline analyses, and identifying areas for fruitful future development. [ABSTRACT FROM AUTHOR]

Published

2024

9. Genomic Introgression in the Hybrid zones at the Margins of the Species' Range Between Ecologically Distinct Rubus Species.

Author

Mimura, Makiko, Tang, Zhenxing, Shigenobu, Shuji, Yamaguchi, Katsushi, and Yahara, Tetsukazu

Subjects

*EXTREME environments, *GENOMICS, *GENE ontology, *SPECIES hybridization, *CLIMATE change, *HYBRID zones

Abstract

Populations in extreme environments at the margins of a species' range are often the most vulnerable to climate change, but they may also experience novel evolutionary processes, such as secondary contact and hybridization with their relatives. The range overlap resulting from secondary contact with related species that have adapted to different climatic zones may act as corridors for adaptive introgression. To test this hypothesis, we examined the hybrid zones along the altitude of two closely related Rubus species, one temperate and the other subtropical species, at their southern and northern limits on Yakushima Island, Japan. Genomic cline analysis revealed non‐neutral introgression throughout the genome in both directions in the two species. Some of these genomic regions involve gene ontology terms related to the regulation of several biological processes. Our niche modeling suggests that, assuming niche conservatism, the temperate species are likely to lose their suitable habitat, and the backcrossed hybrids with the subtropical species are already expanding upslope on the island. Adaptive introgression through the hybrid zone may contribute to the persistence and expansion of the species in the southernmost and northernmost populations. [ABSTRACT FROM AUTHOR]

Published

2024

10. Understanding species limits through the formation of phylogeographic lineages.

Author

Burbrink, Frank T., Myers, Edward A., and Pyron, R. Alexander

Subjects

*HYBRID zones, *GENETIC speciation, *ECOLOGICAL regions, *GENOMES, *PHENOTYPES, *PHYLOGEOGRAPHY

Abstract

The outcomes of speciation across organismal dimensions (e.g., ecological, genetic, phenotypic) are often assessed using phylogeographic methods. At one extreme, reproductively isolated lineages represent easily delimitable species differing in many or all dimensions, and at the other, geographically distinct genetic segments introgress across broad environmental gradients with limited phenotypic disparity. In the ambiguous gray zone of speciation, where lineages are genetically delimitable but still interacting ecologically, it is expected that these lineages represent species in the context of ontology and the evolutionary species concept when they are maintained over time with geographically well‐defined hybrid zones, particularly at the intersection of distinct environments. As a result, genetic structure is correlated with environmental differences and not space alone, and a subset of genes fail to introgress across these zones as underlying genomic differences accumulate. We present a set of tests that synthesize species delimitation with the speciation process. We can thereby assess historical demographics and diversification processes while understanding how lineages are maintained through space and time by exploring spatial and genome clines, genotype‐environment interactions, and genome scans for selected loci. Employing these tests in eight lineage‐pairs of snakes in North America, we show that six pairs represent 12 "good" species and that two pairs represent local adaptation and regional population structure. The distinct species pairs all have the signature of divergence before or near the mid‐Pleistocene, often with low migration, stable hybrid zones of varying size, and a subset of loci showing selection on alleles at the hybrid zone corresponding to transitions between distinct ecoregions. Locally adapted populations are younger, exhibit higher migration, and less ecological differentiation. Our results demonstrate that interacting lineages can be delimited using phylogeographic and population genetic methods that properly integrate spatial, temporal, and environmental data. [ABSTRACT FROM AUTHOR]

Published

2024

11. Demography‐driven and adaptive introgression in a hybrid zone of the Armeria syngameon.

Author

Villa‐Machío, Irene, Heuertz, Myriam, Álvarez, Inés, and Nieto Feliner, Gonzalo

Subjects

*HYBRID zones, *GENETIC variation, *GENOMICS, *ENDANGERED species, *HAPLOTYPES, *INTROGRESSION (Genetics)

Abstract

Syngameons represent networks of otherwise distinct species connected by limited gene exchange. Although most studies have focused on how species maintain their cohesiveness despite gene flow, there are additional relevant questions regarding the evolutionary dynamics of syngameons and their drivers, as well as the success of their members and the network as a whole. Using a ddRADseq approach, we analysed the genetic structure, genomic clines and demographic history of a coastal hybrid zone involving two species of the Armeria (Plumbaginaceae) syngameon in southern Spain. We inferred that a peripheral population of the sand dune‐adapted A. pungens diverged from the rest of the conspecific populations and subsequently hybridized with a locally more abundant pinewood congener, A. macrophylla. Both species display extensive plastid DNA haplotype sharing. Genomic cline analysis identified bidirectional introgression, but more outlier loci with excess A. pungens than A. macrophylla ancestry, suggesting the possibility of selection for A. pungens alleles. This is consistent with the finding that the A. pungens phenotype is selected for in open habitats, and with the strong correlation found between ancestry and phenotype. Taken together, our analyses suggest an intriguing scenario in which bidirectional introgression may, on the one hand, help to avoid reduced levels of genetic diversity due to the small size and isolated location of the A. pungens range‐edge population, thereby minimizing demographic risks of stochastic extinction. On the other hand, the data also suggest that introgression into A. macrophylla may allow individuals to grow in open, highly irradiated, deep sandy, salt‐exposed habitats. [ABSTRACT FROM AUTHOR]

Published

2024

12. Genetic and telomeric variability: Insights from a tropical avian hybrid zone.

Author

Vernasco, Ben J., Long, Kira M., Braun, Michael J., and Brawn, Jeffrey D.

Subjects

*HYBRID zones, *GENETIC variation, *HETEROZYGOSITY, *INTROGRESSION (Genetics), *SINGLE nucleotide polymorphisms

Abstract

Telomere lengths and telomere dynamics can correlate with lifespan, behaviour and individual quality. Such relationships have spurred interest in understanding variation in telomere lengths and their dynamics within and between populations. Many studies have identified how environmental processes can influence telomere dynamics, but the role of genetic variation is much less well characterized. To provide a novel perspective on how telomeric variation relates to genetic variability, we longitudinally sampled individuals across a narrow hybrid zone (n = 127 samples), wherein two Manacus species characterized by contrasting genome‐wide heterozygosity interbreed. We measured individual (n = 66) and population (n = 3) differences in genome‐wide heterozygosity and, among hybrids, amount of genetic admixture using RADseq‐generated SNPs. We tested for population differences in telomere lengths and telomere dynamics. We then examined how telomere lengths and telomere dynamics covaried with genome‐wide heterozygosity within populations. Hybrid individuals exhibited longer telomeres, on average, than individuals sampled in the adjacent parental populations. No population differences in telomere dynamics were observed. Within the parental population characterized by relatively low heterozygosity, higher genome‐wide heterozygosity was associated with shorter telomeres and higher rates of telomere shortening—a pattern that was less apparent in the other populations. All of these relationships were independent of sex, despite the contrasting life histories of male and female manakins. Our study highlights how population comparisons can reveal interrelationships between genetic variation and telomeres, and how naturally occurring hybridization and genome‐wide heterozygosity can relate to telomere lengths and telomere dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

13. Geographical and genetic clines in Dracocephalum kotschyi X Dracocephalum oligadenium hybrids: landscape genetics and genocline analyses.

Author

Sheidai, Masoud, Koohdar, Fahimeh, and Mazinani, Javad

Subjects

SPECIES distribution, HYBRID zones, LANDSCAPE changes, CLIMATE change, GENETICS

Abstract

Conservation and management of medicinally important plants are among the necessary tasks all over the world. The genus Dracocephalum (Lamiaceae) contains about 186 perennials, or annual herb species that have been used for their medicinal values in different parts of the world as an antihyperlipidemic, analgesic, antimicrobial, antioxidant, as well as anticancer medicine. Producing detailed data on the genetic structure of these species and their response against climate change and human landscape manipulation can be very important for conservation purposes. Therefore, the present study was performed on six geographical populations of two species in the Dracocephalum genus, namely, Dracocephalum kotschyi, and Dracocephalum oligadenium, as well as their inter-specific hybrid population. We carried out, population genetic study, landscape genetics, species modeling, and genetic cline analyses on these plants. We present here, new findings on the genetic structure of these populations, and provide data on both geographical and genetic clines, as well as morphological clines. We also identified genetic loci that are potentially adaptive to the geographical spatial features and genocide conditions. Different species distribution modeling (SDM) methods, used in this work revealed that bioclimatic variables related to the temperature and moisture, play an important role in Dracocephalum population's geographical distribution within IRAN and that due to the presence of some potentially adaptive genetic loci in the studied plants, they can survive well enough by the year 2050 and under climate change. The findings can be used for the protection of these medicinally important plant. [ABSTRACT FROM AUTHOR]

Published

2024

14. Delimiting phylogeographic diversity in the genomic era: application to an Iberian endemic frog.

Author

Dufresnes, Christophe, Ambu, Johanna, Galán, Pedro, Sequeira, Fernando, Viesca, Leticia, Choda, Magdalena, Álvarez, David, Alard, Bérénice, Suchan, Tomasz, Künzel, Sven, Martínez-Solano, Iñigo, Vences, Miguel, and Nicieza, Alfredo

Subjects

*HYBRID zones, *GENETIC variation, *MITOCHONDRIAL DNA, *SPECIES diversity, *GENETIC barcoding, *INTROGRESSION (Genetics), *SUBSPECIES

Abstract

The rich genetic and phenotypic diversity of species complexes is best recognized through formal taxonomic naming, but one must first assess the evolutionary history of phylogeographic lineages to identify and delimit candidate taxa. Using genomic markers, mitochondrial DNA barcoding, and morphometric analyses, we examined lineage diversity and distribution in the Iberian endemic frog Rana parvipalmata. We confirmed two deep phylogeographic lineages, one relatively homogenous genetically, found in Asturias and adjacent areas (T2), and one more fragmented and locally genetically impoverished, restricted to Galicia (T1). Analyses of their hybrid zone suggested a shallow transition characterized by far-ranging admixture, which was modelled by a wide geographic cline (~60 km for the genome average) and no obvious barrier loci (i.e. loci showing disproportionally restricted introgression). The relatively young T1 and T2 have thus remained reproductively compatible, which argues against their distinction as biological species, and we accordingly describe T2 as a new subspecies, Rana parvipalmata asturiensis ssp. nov. Remarkably, we highlight striking discordances between mitochondrial and nuclear distributions across their hybrid zones, as well as between their genetic and morphological differentiation. Our study illustrates how genomic-based phylogeographic frameworks can help decipher the high genetic and phenotypic variation of species complexes and substantiate the taxonomic assessment of candidate lineages. [ABSTRACT FROM AUTHOR]

Published

2024

15. Spatio‐Temporal Patterns of Hybridization in an Alloploid Salamander (Ambystomatidae: Ambystoma) and Conservation Implications of Introgression in a Unisexual Vertebrate

Author

Alessa V. Laserna, Christopher A. Phillips, Andrew R. Kuhns, Mark A. Davis, Joel B. Corush, and Ken N. Paige

Subjects

allopolyploid, Ambystoma, conservation, genetic leakage, gynogenesis, hybrid zone, Ecology, QH540-549.5

Abstract

ABSTRACT Maynard Smith's proposed two‐fold cost of sex states that one of the disadvantages of clonal reproduction is the decreased ability to persist in dynamic ecosystems. However, the long‐term persistence of some clonal alloploid lineages suggests that these lineages may not always be so ephemeral in nature. Understanding the stability of these lineages over time can inform our understanding of the advantages of an asexual mode of life. Here we investigate a gynogenetic allopolyploid triploid, the Silvery Salamander (LJJ—historically referred to as Ambystoma platineum), an asexual lineage closely related to A. barbouri. However, in our focal populations, neither parental species is present, and another sexual host, A. texanum (TT), is a required sperm donor. Gynogenetic reproduction involving LJJ and its host A. texanum should result in a clone of the mother (LJJ); however, with the occurrence of kleptogenesis, it often can result in tetraploid hybrids (LJJT). LJJ is considered endangered in this population due to its restricted range coupled with concerns that the cryptic tetraploid (LJJT) could completely replace LJJ. Here we assess the level of LJJ × A. texanum hybridization in nine ephemeral wetland populations in east central Illinois. Using species‐specific microsatellite loci, we compared the prevalence of LJJ and LJJT genotypes across localities and years. We find variation across ponds and developmental stages but suggest relative stability over time. Given the considerable amount of environmental degradation and loss, we suggest continued monitoring of this unique segment of biodiversity to ensure its persistence into the future.

Published

2025

16. Accelerated mitochondrial evolution and asymmetric fitness of hybrids contribute to the persistence of Helix thessalica in the Helix pomatia range.

Author

Korábek, Ondřej and Hausdorf, Bernhard

Subjects

*HYBRID zones, *GENE flow, *MITOCHONDRIAL proteins, *GENOMICS, *MITOCHONDRIA, *MITOCHONDRIAL DNA

Abstract

Interbreeding and introgression between recently diverged species is common. However, the processes that prevent these species from merging where they co‐occur are not well understood. We studied the mechanisms that allowed an isolated group of populations of the snail Helix thessalica to persist within the range of the related Helix pomatia despite high gene flow. Using genomic cline analysis, we found that the nuclear gene flow between the two taxa across the mosaic hybrid zone was not different from that expected under neutral admixture, but that the exchange of mtDNA was asymmetric. Tests showed that there is relaxed selection in the mitochondrial genome of H. thessalica and that the substitution rate is elevated compared to that of H. pomatia. A lack of hybrids that combine the mtDNA of H. thessalica with a mainly (>46%) H. pomatia genomic background indicates that the nuclear‐encoded mitochondrial proteins of H. pomatia are not well adapted to the more rapidly evolving proteins and RNAs encoded by the mitochondrion of H. thessalica. The presumed reduction of fitness of hybrids with the fast‐evolving mtDNA of H. thessalica and a high H. pomatia ancestry, similar to 'Darwin's Corollary to Haldane's rule', resulted in a relative loss of H. pomatia nuclear ancestry compared to H. thessalica ancestry in the hybrid zone. This probably prevents the H. thessalica populations from merging quickly with the surrounding H. pomatia populations and supports the hypothesis that incompatibilities between rapidly evolving mitochondrial genes and nuclear genes contribute to speciation. [ABSTRACT FROM AUTHOR]

Published

2024

17. Ecological niche contributes to the persistence of the western × glaucous‐winged gull hybrid zone.

Author

Geng, Xuewen, Summers, Jeremy, and Chen, Nancy

Subjects

*ECOLOGICAL models, *ECOLOGICAL niche, *GULLS, *HYBRID zones, *EMPIRICAL research

Abstract

Hybrid zones occur in nature when populations with limited reproductive barriers overlap in space. Many hybrid zones persist over time, and different models have been proposed to explain how selection can maintain hybrid zone stability. More empirical studies are needed to elucidate the role of ecological adaptation in maintaining stable hybrid zones. Here, we investigated the role of exogenous factors in maintaining a hybrid zone between western gulls (Larus occidentalis) and glaucous‐winged gulls (L. glaucescens). We used ecological niche models (ENMs) and niche similarity tests to quantify and examine the ecological niches of western gulls, glaucous‐winged gulls, and their hybrids. We found evidence of niche divergence between all three groups. Our results support the bounded superiority model, providing further evidence that exogenous selection favoring hybrids may be an important factor in maintaining this stable hybrid zone. [ABSTRACT FROM AUTHOR]

Published

2024

18. A hybrid population of Willow Warblers in the Åland Archipelago.

Author

Andersson, Jesper Emanuel, Lehikoinen, Petteri, Berdougo, Michaëla, Jolkkonen, Juho, and Bensch, Staffan

Subjects

*WARBLERS, *ARCHIPELAGOES, *WILLOWS, *SUBSPECIES, REPRODUCTIVE isolation

Abstract

Differences in migratory behavior have been suggested to drive speciation, but the genetics underlying this process remain unknown. Identification and study of migratory divides can help us understand how differential migration can lead to reproductive isolation. Here, we genotyped Willow Warblers Phylloscopus trochilus, from the Åland islands, located in between the ranges of the differentially migrating subspecies P. t. trochilus and P. t. acredula. We found that Willow Warblers on the Åland islands were genetically intermediate to allopatric populations of both parental subspecies, providing evidence that the islands constitute a previously unknown hybrid swarm, likely to be a migratory divide. [ABSTRACT FROM AUTHOR]

Published

2024

19. Mapping the Mountain Caracara (Phalcoboenus megalopterus)/White-Throated Caracara (P. albogularis) Contact Zone and Possible Hybrid Zone in Northern Patagonia.

Author

Balza, Ulises, Lois, Nicolás A., and Ojeda, Valeria

Subjects

*HYBRID zones, *MOUNTAIN forests

Abstract

This article explores the presence of putative hybrids between the Mountain Caracara and White-throated Caracara in northern Patagonia. The authors use eBird records and other sources to map the distribution and overlap of the two species. They identify potential hybrids based on plumage characteristics and discuss the ecological importance of northern Patagonia for the evolutionary processes within this group of caracaras. The study suggests that further research and genetic studies are needed to confirm these hybrids and understand their evolutionary history, with potential implications for the impact of climate change on Andean ecosystems and the conservation of national parks in the region. [Extracted from the article]

Published

2024

20. Evolutionary Dynamics of American Manatee Species on the Northern Coast of South America: Origins and Maintenance of an Interspecific Hybrid Zone.

Author

de Lima, Camilla Savicius, de Magalhães, Rafael Félix, Camargo, Arley, de Thoisy, Benoit, Marmontel, Miriam, Carvalho, Vitor Luz, de Meirelles, Ana Carolina Oliveira, and Santos, Fabrício Rodrigues

Abstract

Interspecific hybridization has been historically neglected in research and conservation practice, but it is a common phenomenon in nature, and several models have been developed to characterize it genetically. Even though Trichechus inunguis (Amazonian manatee) and T. manatus (West Indian manatee) exhibit large morphological, karyotypic, and molecular differences, a hybrid zone was identified on the northern coast of South America, from the Amazon River estuary toward the Guianas coastline. Two major populations or evolutionarily significant units (ESUs) within T. manatus, namely, the Caribbean and Atlantic, were separated and their differentiation was likely promoted or reinforced by the interspecific hybridization zone. We used nuclear and mtDNA sequences to reconstruct manatee speciation, population diversification through time and space, and secondary contact, which resulted in a hybrid zone. In this hybrid zone, the genetic contribution of each parental species was estimated, and different models for generating the current scenario were tested using statistical phylogeographic tools. All the results suggest a long hybridization history, during which a stable and structured hybrid swarm is generated. The coastline hybrid zone is composed of individuals with a lesser genomic contribution from T. inunguis; this zone works as a genetic sink that restricts gene flow between neighbouring Atlantic (Brazil) and Caribbean (all others) T. manatus populations, which further reinforces the isolation and differentiation of the Brazilian manatees. [ABSTRACT FROM AUTHOR]

Published

2024

21. Cryptic diversity and rampant hybridization in annual gentians on the Qinghai-Tibet Plateau revealed by population genomic analysis

Author

Peng-Cheng Fu, Qiao-Qiao Guo, Di Chang, Qing-Bo Gao, and Shan-Shan Sun

Subjects

Gentiana aristata, Hybrid zone, Qinghai-Tibet Plateau, Plastome, Nuclear SNPs, Biology (General), QH301-705.5, Botany, QK1-989

Abstract

Understanding the evolutionary and ecological processes involved in population differentiation and speciation provides critical insights into biodiversity formation. In this study, we employed 29,865 single nucleotide polymorphisms (SNPs) and complete plastomes to examine genomic divergence and hybridization in Gentiana aristata, which is endemic to the Qinghai-Tibet Plateau (QTP) region. Genetic clustering revealed that G. aristata is characterized by geographic genetic structures with five clusters (West, East, Central, South and North). The West cluster has a specific morphological character (i.e., blue corolla) and higher values of FST compared to the remaining clusters, likely the result of the geological barrier formed by the Yangtze River. The West cluster diverged from the other clusters in the Early Pliocene; these remaining clusters diverged from one another in the Early Quaternary. Phylogenetic reconstructions based on SNPs and plastid data revealed substantial cyto-nuclear conflicts. Genetic clustering and D-statistics demonstrated rampant hybridization between the Central and North clusters, along the Bayankala Mountains, which form the geological barrier between the Central and North clusters. Species distribution modeling demonstrated the range of G. aristata expanded since the Last Interglacial period. Our findings provide genetic and morphological evidence of cryptic diversity in G. aristata, and identified rampant hybridization between genetic clusters along a geological barrier. These findings suggest that geological barriers and climatic fluctuations have an important role in triggering diversification as well as hybridization, indicating that cryptic diversity and hybridization are essential factors in biodiversity formation within the QTP region.

Published

2024

22. Genotype-environment associations across spatial scales reveal the importance of putative adaptive genetic variation in divergence.

Author

Alvarado, Allison H, Bossu, Christen M, Harrigan, Ryan J, Bay, Rachael A, Nelson, Allison RP, Smith, Thomas B, and Ruegg, Kristen C

Subjects

Catharus guttatus, cline analysis, genoscape map, gradient forest, hybrid zone, landscape genomics, Genetics, Human Genome, Medicinal and Biomolecular Chemistry, Evolutionary Biology

Abstract

Identifying areas of high evolutionary potential is a judicious strategy for developing conservation priorities in the face of environmental change. For wide-ranging species occupying heterogeneous environments, the evolutionary forces that shape distinct populations can vary spatially. Here, we investigate patterns of genomic variation and genotype-environment associations in the hermit thrush (Catharus guttatus), a North American songbird, at broad (across the breeding range) and narrow spatial scales (at a hybrid zone). We begin by building a genoscape or map of genetic variation across the breeding range and find five distinct genetic clusters within the species, with the greatest variation occurring in the western portion of the range. Genotype-environment association analyses indicate higher allelic turnover in the west than in the east, with measures of temperature surfacing as key predictors of putative adaptive genomic variation rangewide. Since broad patterns detected across a species' range represent the aggregate of many locally adapted populations, we investigate whether our broadscale analysis is consistent with a finer scale analysis. We find that top rangewide temperature-associated loci vary in their clinal patterns (e.g., steep clines vs. fixed allele frequencies) across a hybrid zone in British Columbia, suggesting that the environmental predictors and the associated candidate loci identified in the rangewide analysis are of variable importance in this particular region. However, two candidate loci exhibit strong concordance with the temperature gradient in British Columbia, suggesting a potential role for temperature-related barriers to gene flow and/or temperature-driven ecological selection in maintaining putative local adaptation. This study demonstrates how patterns identified at the broad (macrogeographic) scale can be validated by investigating genotype-environment correlations at the local (microgeographic) scale. Furthermore, our results highlight the importance of considering the spatial distribution of putative adaptive variation when assessing population-level sensitivity to climate change and other stressors.

Published

2022

23. Species recognition limits mating between hybridizing ant species

Author

Blacher, Pierre, Zahnd, Sacha, Purcell, Jessica, Avril, Amaury, Honorato, Thalita Oliveira, Bailat‐Rosset, Gaëlle, Staedler, Davide, Brelsford, Alan, and Chapuisat, Michel

Subjects

Zoology, Ecology, Evolutionary Biology, Biological Sciences, Animals, Ants, Hybridization, Genetic, Hydrocarbons, Male, Recognition, Psychology, Reproduction, Assortative mating, hybrid zone, hydrocarbon cues, Formica ants, speciation, species recognition, Evolutionary biology

Abstract

Identifying mechanisms limiting hybridization is a central goal of speciation research. Here, we studied premating and postmating barriers to hybridization between two ant species, Formica selysi and Formica cinerea. These species hybridize in the Rhône valley in Switzerland, where they form a mosaic hybrid zone, with limited introgression from F. selysi into F. cinerea. There was no sign of temporal isolation between the two species in the production of queens and males. With choice experiments, we showed that queens and males strongly prefer to mate with conspecifics. Yet, we did not detect postmating barriers caused by genetic incompatibilities. Specifically, hybrids of all sexes and castes were found in the field and F1 hybrid workers did not show reduced viability compared to nonhybrid workers. To gain insights into the cues involved in species recognition, we analyzed the cuticular hydrocarbons (CHCs) of queens, males, and workers and staged dyadic encounters between workers. CHC profiles differed markedly between species, but were similar in F. cinerea and hybrids. Accordingly, workers also discriminated species, but they did not discriminate F. cinerea and hybrids. We discuss how the CHC-based recognition system of ants may facilitate the establishment of premating barriers to hybridization, independent of hybridization costs.

Published

2022

24. Mapping seasonal migration in a songbird hybrid zone -- heritability, genetic correlations, and genomic patterns linked to speciation.

Author

Justen, Hannah C., Easton, Wendy E., and Delmore, Kira E.

Subjects

*BIRD migration, *HYBRID zones, *GENETIC correlations, *CHOLINERGIC receptors, REPRODUCTIVE isolation

Abstract

Seasonal migration is a widespread behavior relevant for adaptation and speciation, yet knowledge of its genetic basis is limited. We leveraged advances in tracking and sequencing technologies to bridge this gap in a well- characterized hybrid zone between songbirds that differ in migratory behavior. Migration requires the coordinated action of many traits, including orientation, timing, and wing morphology. We used genetic mapping to show these traits are highly heritable and genetically correlated, explaining how migration has evolved so rapidly in the past and suggesting future responses to climate change may be possible. Many of these traits mapped to the same genomic regions and small structural variants indicating the same, or tightly linked, genes underlie them. Analyses integrating transcriptomic data indicate cholinergic receptors could control multiple traits. Furthermore, analyses integrating genomic differentiation further suggested genes underlying migratory traits help maintain reproductive isolation in this hybrid zone. [ABSTRACT FROM AUTHOR]

Published

2024

25. The emerging importance of cross‐ploidy hybridisation and introgression.

Author

Brown, Max R., Abbott, Richard J., and Twyford, Alex D.

Subjects

*SPECIES hybridization, *INTROGRESSION (Genetics), *BOTANY, *HYBRID zones, *PLOIDY, *POLYPLOIDY

Abstract

Natural hybridisation is now recognised as pervasive in its occurrence across the Tree of Life. Resurgent interest in natural hybridisation fuelled by developments in genomics has led to an improved understanding of the genetic factors that promote or prevent species cross‐mating. Despite this body of work overturning many widely held assumptions about the genetic barriers to hybridisation, it is still widely thought that ploidy differences between species will be an absolute barrier to hybridisation and introgression. Here, we revisit this assumption, reviewing findings from surveys of polyploidy and hybridisation in the wild. In a case study in the British flora, 203 hybrids representing 35% of hybrids with suitable data have formed via cross‐ploidy matings, while a wider literature search revealed 59 studies (56 in plants and 3 in animals) in which cross‐ploidy hybridisation has been confirmed with genetic data. These results show cross‐ploidy hybridisation is readily overlooked, and potentially common in some groups. General findings from these studies include strong directionality of hybridisation, with introgression usually towards the higher ploidy parent, and cross‐ploidy hybridisation being more likely to involve allopolyploids than autopolyploids. Evidence for adaptive introgression across a ploidy barrier and cases of cross‐ploidy hybrid speciation shows the potential for important evolutionary outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

26. Morphological and genetic diversification of pygmy and marbled newts, with the description of a new species from the wider Lisbon Peninsula (Triturus, Salamandridae).

Author

Arntzen, Jan W.

Subjects

*NEWTS, *SALAMANDRIDAE, *SINGLE nucleotide polymorphisms, *ESTUARIES, *HYBRID zones, *SPECIES

Abstract

Iberian populations of large-bodied newts, with Triturus marmoratus in the north and T. pygmaeus in the south of the peninsula, were studied for external morphology, mitochondrial dna and for a panel of single nucleotide polymorphisms. This confirmed the species' low level of interspecific hybridization and their parapatric, mosaic-like mutual range border across the peninsula. The genetic data also revealed substantial variation within T. pygmaeus, with narrow (0.43-35.2 km) clinal transitions in the very centre of Portugal. Similar clines were observed for body size and colouration pattern. Pygmy newts in the west of Portugal are larger, with a more striped (less reticulated) green dorso-lateral colouration pattern than those in the east and south of the country. The western group of populations is described as a new species, Triturus rudolfi sp. nov., on account of a long, ca. 2.5 Ma, independent evolutionary history and limited hybridization with its sister-species T. pygmaeus, suggesting selection against hybrid offspring. The range of the newly described species may be restricted to the wider Lisbon Peninsula, stretching northwards along the Atlantic coast to the river Vouga estuary. Inland, the range border may be set by the lower Tejo River, or by the currently wide area of agricultural land at either side of that river, that may accommodate a residual hybrid zone. The close contact between both pygmy newt species is effectively limited to a ca. 20 × 40 km area directly north of the town Entroncamento, where T. rudolfi sp. nov. is sandwiched in between T. marmoratus and the river Tejo. [ABSTRACT FROM AUTHOR]

Published

2024

27. Intermediary floral traits between natural hybrid and its parents in the Xiquexique (Cactaceae).

Author

Albuquerque-Lima, Sinzinando, Milet-Pinheiro, Paulo, Navarro, Daniela M. A. F., Taylor, Nigel P., Zappi, Daniela C., and Machado, Isabel C.

Subjects

*CACTUS, *HYBRID zones, *FLORAL morphology, *SPHINGIDAE, *HABITAT selection

Abstract

Hybrid systems represent 'new ecological opportunities', as the changes in their vegetative and reproductive traits may facilitate colonization of new niches. The Cactaceae species Xiquexique gounellei and Xiquexique tuberculatus present different habitat preferences in the Brazilian Caatinga, however, across their distributions, some populations occur sympatrically and some individuals showed vegetative characteristics intermediate between these two species, suggesting a hybrid zone. These individuals also clearly did not belong to either of the two species, leading us to suppose that they could be hybrids, named as X. × heptagonus. Taking into account this assumption, we used a series of protocols to compare the floral attributes and signals, and floral biology displayed by the putative hybrid with those of its parents. The results showed that the flowers of the hybrid are morphologically intermediate to those of their parents. The colour of the external elements of the perianth is transgressive, and the white colour of the internal perianth-segments is shared between the three taxa. Scent analyses showed that X. × heptagonus has a scent profile that is intermediate to those of its parents, with only a few compounds indicating a transgressive phenotype. Both taxa of Xiquexique received visits from nectarivorous bats (Glossophaginae and Lonchophyllinae) and from the hawkmoths Agrius cingulata and Erinnyis ello. Our results reinforce the existence of this hybrid in the genus Xiquexique being derived from the possible parent species present. We also revealed how the floral morphology and the visual and olfactory cues of X. × heptagonus were shaped by the hybridization. [ABSTRACT FROM AUTHOR]

Published

2024

28. Integration of natural selection across the life cycle stabilizes a marine mussel hybrid zone.

Author

Willis, Allison B., Ermolaeva, Evgeniya, Zyck, Amaelia, Rognstad, Rhiannon, Davis, Shannon, and Hilbish, Thomas J.

Subjects

*LIFE cycles (Biology), *HYBRID zones, *MYTILIDAE, *NATURAL selection, *MYTILUS edulis

Abstract

Hybridization among related species is now recognized as common but it remains unclear how hybrid zones persist for prolonged periods. Here, we test the hypothesis that selection in different components of the life cycle may stabilize a hybrid zone. A hybrid zone occurs in southwest England between the marine mussels Mytilus edulis and M. galloprovincialis. Previous studies have found strong directional selection against alleles from M. edulis occurs among hybrids in the adult stage. Traditional hybrid zone models argue that alleles that are selected within the hybrid zone are replaced by migration from neighboring parental population into the hybrid zone. In this system, however, migration occurs out of this hybrid zone into neighboring parental populations. This hybrid zone should therefore be unstable and dissipate, yet this zone has persisted for more than 30 years. We tested and rejected the hypothesis that differences in fecundity may select for M. edulis alleles within this hybrid zone and thus counter the selection observed against these alleles among adults. We also tested the hypothesis that selection during the larval stage may counter selection against M. edulis alleles in the adult stage. We found that selection favors M. edulis alleles during the veliger stage of larval development. The direction and strength of selection during the larval stage are sufficient to counter strong selection during the adult portion of the life cycle. This hybrid zone is stabilized by opposing forms of directional selection operating in different portions of the life cycle. [ABSTRACT FROM AUTHOR]

Published

2024

29. Bayesian hybrid index and genomic cline estimation with the R package gghybrid.

Author

Bailey, Richard Ian

Subjects

*BIOLOGICAL evolution, *SHORT tandem repeat analysis, *GENE flow, *GENOMICS, *SPECIES hybridization, *CROSSBREEDING, *GENE frequency, REPRODUCTIVE isolation

Abstract

Admixture, the interbreeding of individuals from differentiated source populations, is now known to be a widespread phenomenon. Genomic studies of natural hybridisation can help to answer many questions on the impacts of admixture on adaptive evolution, reproductive isolation, and speciation. When a large variety of admixture proportions between two source populations exist, both geographic and genomic cline analysis are suitable methods for inferring biased, restricted or excessive gene flow at individual loci into the foreign genomic background, providing evidence for reproductive isolation, selection across an environmental transition, balancing selection, and adaptive introgression. Genomic cline analysis replaces geographic location with genome‐wide hybrid index and is therefore useable in circumstances that violate geographic cline assumptions. Here, I introduce gghybrid, an R package for simple and flexible Bayesian estimation of Buerkle's hybrid index and Fitzpatrick's logit‐logistic genomic clines using bi‐allelic data, suitable for both small and large datasets. gghybrid allows any ploidy and uses Structure input file format. It has separate functions for hybrid index and cline estimation, treating each individual and locus respectively as an independent analysis, making it highly parallelisable. Admixture proportions from other software can alternatively be used in cline analysis, alongside parental allele frequencies. Parameters can be fixed and samples pooled for statistical model comparison with AIC or waic. Here, I describe the functions, pipeline, and statistical properties of gghybrid. Simulations reveal that model comparison with waic is preferred, and use of Bayesian posterior distributions and p values to select candidate non‐null loci is problematic and should be avoided. [ABSTRACT FROM AUTHOR]

Published

2024

30. Insights into Aotearoa New Zealand's biogeographic history provided by the study of natural hybrid zones.

Author

Shepherd, Lara, Simon, Chris, Langton-Myers, Shelley, and Morgan-Richards, Mary

Subjects

*HYBRID zones, *LAST Glacial Maximum, *MARINE plants

Abstract

Hybridisation is commonly observed in geographical zones of contact between distinct lineages. These contact zones have long been of interest for biogeographers because they provide insight into the evolutionary and ecological processes that influence the distribution of species as well as the process of speciation. Here we review research on hybrid zones and zones of past introgression, both terrestrial and marine, in Aotearoa New Zealand. Many of New Zealand's hybrid zones occur between lineages or species that diverged prior to the Last Glacial Maximum (LGM), with numerous divergences dating to the early Pleistocene or Pliocene. Few secondary contact zones have been detected in terrestrial plants and in marine taxa. This may reflect a lack of the intensive sampling required to detect hybrid zones in these groups but for plants may also indicate widespread Pleistocene survival across the country. Lastly, we suggest avenues for research into New Zealand hybrid zones that are likely to be fruitful. [ABSTRACT FROM AUTHOR]

Published

2024

31. Tracking hybrid viability across life stages in a natural avian contact zone.

Author

Ålund, Murielle, Segami Marzal, J. Carolina, Yishu Zhu, Krishna Menon, P. Navaneeth, Jones, William, and Qvarnström, Anna

Subjects

*HYBRID zones, *MITOCHONDRIAL DNA, *DNA fingerprinting, *DEATH rate, *FLYCATCHERS

Abstract

Hybrid inviability is an important post-zygotic reproductive barrier between species, but emerging signs of reduced viability can be difficult to study across the lifespan of natural hybrids. We use a combination of long-term monitoring, extra-pair paternity, and mitochondrial DNA identification in a natural hybrid zone of Ficedula flycatchers to detect emerging signs of intrinsic hybrid inviability across their entire lifespan. We evaluate possible evidence of Darwin’s corollary to Haldane’s rule, predicting asymmetries in inviability between hybrids resulting from reciprocal crosses, due to incompatible genetic factors with sex-specific inheritance patterns. We found higher hatching failure among mixed-species pairs, possibly indicating early developmental impairments associated with specific parental genetic combinations. Adult hybrids had a higher basal mortality rate than both parental species and different age-specific mortality trajectories. There were signs of differences in age-independent mortality rates between the reciprocal hybrid crosses: hybrids with a pied flycatcher mother experienced slightly increased mortality later in life. Using an exceptional dataset with many natural hybrids tracked across life stages, we provide evidence for several emerging signs of reduced hybrid viability. Incompatibilities between alleles located on autosomes and uniparentally inherited factors such as Z-linked and/or mitochondrial genes are strong candidates underlying intrinsic hybrid dysfunction in this system. [ABSTRACT FROM AUTHOR]

Published

2024

32. Nuclear gene introgressions in hybrid populations of water frog Pelophylax esculentus complex: geographical analysis of the phenomenon and its interpretation.

Author

Mezhzherin, Sergey V., Morozov-Leonov, Svyatoslav Yu., and Rostovska, Olga V.

Abstract

Reproduction of water frog hybrids Pelophylax esculentus (Pelophylax ridibundus x Pelophylax lessonae) is associated with hemiclonal reproduction and backcrossing. The hemiclonal mode of reproduction occurs within P. esculentus allodiploids. In this case, the unrecombined genome of one parental species is transmitted to the offspring after premeiotic elimination of the chromosome set of the second parental species. Usually, the chromosome set of P. lessonae is eliminated, and the altered genome of P. ridibundus is passed on to the progeny. The hemiclonal inheritance within diploid Pelophylax esculentus hybrids may be accompanied by certain aberrations of premeiotic elimination. As a result, the formation of P. ridibundus specimens with introgressions of the P. lessonae genetic material, or the formation of recombinant hybrids occurs, depending on which of the parental species backcrossing takes place. The aim of our study is to describe the aberration of premeiotic elimination within the water frog P. esculentus complex detected by the nuclear gene Ldh-B inheritance, with an attempt to find out the causes of this phenomenon. It has been established that aberrations of premeiotic elimination are widespread, but only within populations of water frog from the river system of Upper Dnieper within Ukraine. The highest level of introgression takes place in the water frog populations within Kiev metropolis under conditions of expressed anthropogenization, while the maximum frequency of recombinants was detected within populations from the basin of Desna River, that has preserved native ecosystems. It was demonstrated that the frequency of premeiotic aberrations does not correlate with the intensity of interspecific water frog hybridization. Populations with introgressions are more common than populations with recombinants, however, within the latter, the frequency of recombination events is higher. The primary factor of gametogenesis aberrations, most likely, is the genetic characteristics of the local populations of parental species, since unambiguous explanations of this phenomenon based on the action of environmental stress (pollution of water systems) are not obvious. [ABSTRACT FROM AUTHOR]

Published

2024

33. Combining RADseq and contact zone analysis to decipher cryptic diversification in reptiles: Insights from the Spiny‐footed Lizard (Reptilia, Lacertidae).

Author

Doniol‐Valcroze, Paul, Rancilhac, Loïs, Brito, José‐Carlos, Miralles, Aurélien, Geniez, Philippe, Benoit, Laure, Loiseau, Anne, Leblois, Raphaël, Dufresnes, Christophe, and Crochet, Pierre‐André

Subjects

*LACERTIDAE, *BIOLOGICAL classification, *LIZARDS, *GENE flow, *REPTILES, REPRODUCTIVE isolation

Abstract

Uncertainties on species taxonomy and distribution are major factors hampering efficient conservation planning in the current context of biodiversity erosion, even concerning widespread and abundant species in relatively well‐studied regions. Species delimitation have long been based on phylogenetic analyses of a small number of standard markers, but accurate lineage identification through this approach can be hampered by incomplete lineage sorting, introgression or isolation by distance. In that context, analyses of introgression patterns at secondary contact zones offer an interesting alternative by allowing a direct estimation of reproductive isolation, especially when using genome‐wide markers. Here, we investigated a contact zone between two genetic groups of the Spiny‐footed Lizard Acanthodactylus erythrurus (Schinz, 1833) in Morocco, whose status as separate lineages remained disputed in previous multilocus studies. Based on thousands of genome‐wide markers obtained through a RADseq approach, we confirmed that they represent distinct evolutionary lineages. Furthermore, the transition at their contact zone was very steep, with spatially restricted gene flow, highlighting levels of reproductive isolation consistent with species‐level lineages. Our study further illustrates the power of RADseq‐based studies of contact zones to understand cryptic diversity in non‐model organisms. [ABSTRACT FROM AUTHOR]

Published

2024

34. The effect of host admixture on wild house mouse gut microbiota is weak when accounting for spatial autocorrelation.

Author

Čížková, Dagmar, Schmiedová, Lucie, Kváč, Martin, Sak, Bohumil, Macholán, Miloš, Piálek, Jaroslav, and Kreisinger, Jakub

Subjects

*GUT microbiome, *MICE, *HYBRID zones, *STATISTICAL models, REPRODUCTIVE isolation

Abstract

The question of how interactions between the gut microbiome and vertebrate hosts contribute to host adaptation and speciation is one of the major problems in current evolutionary research. Using bacteriome and mycobiome metabarcoding, we examined how these two components of the gut microbiota vary with the degree of host admixture in secondary contact between two house mouse subspecies (Musmusculus musculus and M. m. domesticus). We used a large data set collected at two replicates of the hybrid zone and model‐based statistical analyses to ensure the robustness of our results. Assuming that the microbiota of wild hosts suffers from spatial autocorrelation, we directly compared the results of statistical models that were spatially naive with those that accounted for spatial autocorrelation. We showed that neglecting spatial autocorrelation can strongly affect the results and lead to misleading conclusions. The spatial analyses showed little difference between subspecies, both in microbiome composition and in individual bacterial lineages. Similarly, the degree of admixture had minimal effects on the gut bacteriome and mycobiome and was caused by changes in a few microbial lineages that correspond to the common symbionts of free‐living house mice. In contrast to previous studies, these data do not support the hypothesis that the microbiota plays an important role in host reproductive isolation in this particular model system. [ABSTRACT FROM AUTHOR]

Published

2024

35. Demographic imbalance in the hybrid zone led to asymmetric gene flow between two closely related geckos, Gekko hokouensis and Gekko yakuensis (Squamata: Gekkonidae).

Author

Okamoto, Kota, Tominaga, Atsushi, and Toda, Mamoru

Subjects

*HYBRID zones, *GENE flow, *INTROGRESSION (Genetics), *GECKOS, *ASSORTATIVE mating, *SQUAMATA, *MICROSATELLITE repeats

Abstract

Introgressive hybridization caused by invasive species may lead to the extinction of pure native species, but a theoretical model of the invasion process with hybridization (the neutral demographic model) suggests that introgression occurs mainly from native to invasive species. Clarifying the direction of introgression is important to evaluate the impact of hybridization on native species. In southern Japan, a widely disseminated gecko, Gekko hokouensis , and a local gecko, Gekko yakuensis , have formed mosaic hybrid zones. Given the presumed invasiveness of Gekko hokouensis , the neutral demographic model predicts that introgression would mainly occur in the direction to Gekko hokouensis , whereas possible asymmetric assortative mating suggested by a previous study predicts the opposite direction of introgression. Our investigations using microsatellite markers and mitochondrial DNA for the gecko assemblages in 12 localities and comparisons with allozyme data collected 18 years ago indicated that Gekko hokouensis expanded its range and tended to have replaced hybrids and Gekko yakuensis. Introgression was skewed towards Gekko hokouensis , but interspecific mating between the parental species was reciprocal. These results suggest that their hybridization progress follows the neutral demographic model and that the higher population growth rate of Gekko hokouensis is the major cause of species replacement, although we cannot rule out the possibility that asymmetric assortative mating also influences the later stages of species replacement. [ABSTRACT FROM AUTHOR]

Published

2024

36. High sexual display trait diversity without measured genetic divergence in a montane hybrid zone involving young species (Habronattus americanus subgroup, Araneae: Salticidae).

Author

Bougie, Tierney, Brelsford, Alan, and Hedin, Marshal

Abstract

Genetic introgression, allele exchange across species boundaries, is a commonly recognized feature of animal evolution. Under such a paradigm, contemporary contact zones provide first-hand insight into the geographic, phenotypic, and genetic details of introgression. Also, when mate choice phenotypes are conspicuous and variable in hybrids, contact zones provide potential insight into how sexual selection interacts with species boundary maintenance, particularly when postzygotic reproductive isolation is weak. The Habronattus americanus subgroup includes several recently evolved jumping spider species, with an estimated age of about 200,000 yr, and substantial evidence for hybridization and introgression. We explored a contact zone involving H. americanus (Keyserling, 1885) and H. kubai (Griswold, 1979) on Mount Shasta, CA, in alpine habitats that would have been unavailable (under ice) at the Last Glacial Maximum. We characterized morphological diversity within the contact zone, including the fine-scale geographic distribution of hybrid and parental individuals, and assessed genetic variation using ddRADseq data. Combined results indicate a lack of measured genomic differentiation between specimens with distinct morphologies, including individuals with phenotypes of the parental species. We identified a diverse array of hybrid morphologies, with phenotypic evidence for backcrossing, essentially forming a phenotypic bridge between parental taxa. The study area is characterized by more hybrid than parental individuals, with a significantly larger number of red-palped morphologies than white- and/or yellow-palped morphologies; the novel, white-palped phenotype is perhaps transgressive. Overall, these results contribute to a better understanding of the expected ebb and flow of lineage interactions during the early stages of speciation. [ABSTRACT FROM AUTHOR]

Published

2024

37. Long-Term Dynamics of Spatial and Genetic Structure of a Narrow Hybrid Zone between Russet (Spermophilus major Pallas, 1778) and Yellow (Spermophilus fulvus Lichtenstein, 1823) Ground Squirrels.

Author

Titov, S. V., Kuzmin, A. A., Chernyshova, O. V., Kartavov, N. A., and Simakov, M. D.

Subjects

*HYBRID zones, *GROUND squirrels, *COLONIES (Biology), *ECOLOGICAL zones, *BIOLOGICAL evolution, *INTROGRESSION (Genetics)

Abstract

The research into the structure, population and genetic patterns of formation and long-term existence of natural hybrid zones is of paramount importance for modern biology and the theory of evolution. The article presents the research results on the 22-year monitoring (2002–2023) of a hybrid zone and hybrid colonies of russet (Spermophilus major Pallas, 1778) and yellow (Spermophilus fulvus Lichtenstein, 1823) ground squirrels. This hybrid zone arose as a result of active dispersal of S. major to the south in the Saratov Trans-Volga region in the early 2000s. Twelve rodent colonies attributed to different research periods were studied. A total of 405 individuals (including 103 individuals of S. major, 52 individuals of S. fulvus, and 250 genetically confirmed interspecific hybrids) were trapped and sampled. Based on evidence, the article examines the structure and factors for formation of the hybrid zone between russet and yellow ground squirrels. Hybrid colony features and the evolution of hybrid population are considered. Introgressive hybridization between russet and yellow ground squirrels clearly manifests itself towards actively dispersing S. major. The revealed structural and genetic features of the hybrid zone between S. major and S. fulvus have enabled it to be termed as a bimodal hybrid zone of an ecological type with introgressive hybridization and stable hybrid colonies. [ABSTRACT FROM AUTHOR]

Published

2023

38. On Widening the Hybrid Zone for Chars of Genus Salvelinus, Kundscha S. leucomaenis and Northern Dolly Varden S. malma (Salmonidae), in Rivers of Kamchatka Peninsula.

Author

Kuzishchin, K. V., Gruzdeva, M. A., and Semenova, A. V.

Abstract

The data on widening the zone for hybridization between the chars of the genus Salvelinus, kundscha S. leucomaenis and northern dolly varden S. malma (Salmonidae), in rivers of the Kamchatka Peninsula are reported. If the hybrids between the kundscha and the northern dolly varden could be previously observed only in the Utkholok River in the northwest of the peninsula, the mass hybridization between these species have occurred in two more nearby rivers, the Kvachina and Snatolveem Rivers since 2009. A microsatellite analysis has shown that hybrid specimens are characterized by intermediate values for allelic diversity, when compared to that in the representatives of parental species, while the mean expected heterozygosity values for hybrids are higher than that in Dolly Varden and kundscha fish. The analysis results for maternal inheritance in hybrid specimens from the Kvachina River coincide with that obtained in the surveys previously performed in the Utkholok River. Thus, the same haplotype specific for the kundscha fish was revealed in all the hybrid specimens, which can indicate that the hybrids originate from kundscha females and Dolly Varden males. The appearance and coloration of kundscha × northern dolly varden hybrids in the Kvachina and Snatolveem Rivers are similar to that in the specimens in the Utkholok River. Rather similar chacteristics of hybrid specimens in all three rivers can give reason to consider that a mechanism of their occurrence in the Kvachina and Snatolveem Rivers is simalr to that in the Utkholok River, since the kundscha eggs are inseminated by the Dolly Varden dwarf males. The increased local biological production of rivers due to increased sizes of spawning stocks of pink salmon Oncorhynchusgorbuscha along with large-scale climate changes in the North Pacific are considered as a possible cause of disturbances of isolation between species. It is quite probable that these two factors have contributed to improving the environmental conditions for fattening the Dolly Varden fish in the freshwater phase of their life cycle and, as a resultl of this process, increasing the number of Dolly Varden male fish matuaring in the river. [ABSTRACT FROM AUTHOR]

Published

2023

39. The Ecology of Hybrid Zone Formation and Maintenance in Impatiens.

Author

Joshi, Sneha Sadanand and Kodandaramaiah, Ullasa

Subjects

*HYBRID zones, *POLLINATION, *POLLINATORS, *IMPATIENS, *BIOLOGICAL fitness, *GENE flow

Abstract

Premise of research. Narrow hybrid zones are maintained by the counteracting forces of selection and gene flow. Understanding the mechanisms of formation and maintenance of narrow hybrid zones helps elucidate the evolutionary forces shaping reproductive biology, distribution, and diversification. We studied the ecology of the hybrid zone of two Impatiens species, Impatiens rosea and Impatiens balsamina , and the causes of the hybrid zone's restriction in space. Methodology. We characterized floral morphometry for the identification of hybrids and parents. To understand the selection on floral traits, we modeled and compared geographic clines of floral traits. We assessed the effect of environmental niche, local adaptation, reproductive niche, and hybrid fitness on maintaining the structure of the hybrid zone. We studied two hybridization sites, one with an altitudinal gradient (Mulshi) and one without (Dapoli), to test the importance of environmental gradients. Pivotal results. We found that pollination-related floral traits, the length of the nectar spur and the size and shape of the wing petal, differ strongly between the parental populations; that these traits are intermediate in hybrids; and that they form the steepest coincident clines across the hybrid zone. Abiotic environmental niche and hybrid fitness do not regulate the hybrid zone structure. Parental species and hybrids show overlapping pollinators but differ in visitation frequencies. Local adaptation for reproductive success influences hybridization only in the site with an altitudinal gradient. Conclusions. The hybrid zone structure and its influencing factors differ across hybridization sites with and without altitudinal gradient. Neither the tension zone model nor the environment-dependent selection model completely explain this hybrid zone. Pollinator-mediated selection on floral traits is important in maintaining the narrow hybrid zone structure. Ecological factors primarily responsible for lineage divergence are also most likely to govern the dynamics of hybridization of the lineages. [ABSTRACT FROM AUTHOR]

Published

2023

40. Natural selection maintains species despite frequent hybridization in the desert shrub Encelia

Author

DiVittorio, Christopher T, Singhal, Sonal, Roddy, Adam B, Zapata, Felipe, Ackerly, David D, Baldwin, Bruce G, Brodersen, Craig R, Búrquez, Alberto, Fine, Paul VA, Padilla Flores, Mayra, Solis, Elizabeth, Morales-Villavicencio, Jaime, Morales-Arce, David, and Kyhos, Donald W

Subjects

Biological Sciences, Ecology, Evolutionary Biology, Genetics, Biotechnology, Life on Land, Asteraceae, Desert Climate, Ecosystem, Gene Flow, Genetic Fitness, Herbivory, Hybridization, Genetic, Mexico, Salinity, Selection, Genetic, Water, Wind, adaptation, gene flow, hybrid zone, reciprocal transplant, speciation

Abstract

Natural selection is an important driver of genetic and phenotypic differentiation between species. For species in which potential gene flow is high but realized gene flow is low, adaptation via natural selection may be a particularly important force maintaining species. For a recent radiation of New World desert shrubs (Encelia: Asteraceae), we use fine-scale geographic sampling and population genomics to determine patterns of gene flow across two hybrid zones formed between two independent pairs of species with parapatric distributions. After finding evidence for extremely strong selection at both hybrid zones, we use a combination of field experiments, high-resolution imaging, and physiological measurements to determine the ecological basis for selection at one of the hybrid zones. Our results identify multiple ecological mechanisms of selection (drought, salinity, herbivory, and burial) that together are sufficient to maintain species boundaries despite high rates of hybridization. Given that multiple pairs of Encelia species hybridize at ecologically divergent parapatric boundaries, such mechanisms may maintain species boundaries throughout Encelia.

Published

2020

41. Genome polarisation for detecting barriers to geneflow

Author

Stuart J. E. Baird, Jan Petružela, Izar Jaroň, Pavel Škrabánek, and Natália Martínková

Subjects

gene capture, geneflow, genome admixture, genome polarisation, hybrid zone, hybridisation, Ecology, QH540-549.5, Evolution, QH359-425

Abstract

Abstract Semi‐permeable barriers to geneflow in principle allow distantly related organisms to capture and exchange pre‐adapted genes potentially speeding adaptation. However, describing barriers to geneflow on a genomic scale is non‐trivial. We extend classic diagnostic allele counting measures of geneflow across a barrier to the case of genome‐scale data. Diagnostic index expectation maximisation (diem) polarises the labelling of bistate markers with respect to the sides of a barrier. An initial state of ignorance is enforced by starting with randomly generated marker polarisations. This means there is no prior on population or taxon membership of the genomes concerned. Using a deterministic data labelling, small numbers of classic diagnostic markers can be replaced by large numbers of markers, each with a diagnostic index. Individuals' hybrid indices (genome admixture proportions) are then calculated genome wide conditioned on marker diagnosticity; within diploid, haplodiploid and/or haploid genome compartments; or indeed over any subset of markers, allowing classical cline width/barrier strength comparisons along genomes. Along‐genome barrier strength heterogeneity allows for barrier regions to be identified. Furthermore, blocks of genetic material that have introgressed across a barrier are easily identified with high power. diem indicates panmixis among Myotis myotis bat genomes, with a barrier separating low data quality outliers. In a Mus musculus domesticus/Mus spretus system, diem adds multiple introgressions of olfactory (and vomeronasal) gene clusters in one direction to previous demonstrations of a pesticide resistance gene introgressing in the opposite direction across a strong species barrier. diem is a genome analysis solution, which scales over reduced representation genomics of thousands of markers to treatment of all variant sites in large genomes. While the method lends itself to visualisation, its output of markers with barrier‐informative annotation will fuel research in population genetics, phylogenetics and association studies. diem can equip such downstream applications with millions of informative markers.

Published

2023

42. Genomic signatures of ecological divergence between savanna and forest populations of a Neotropical tree.

Author

Muniz, André Carneiro, Buzatti, Renata Santiago de Oliveira, Lemos-Filho, José Pires de, Heuertz, Myriam, Nazareno, Alison Gonçalves, and Lovato, Maria Bernadete

Subjects

*SAVANNAS, *HYBRID zones, *CERRADOS, *SPECIES diversity, *FOREST biodiversity, *BROMELIACEAE, REPRODUCTIVE isolation

Abstract

Background and Aims In eastern Neotropical South America, the Cerrado, a large savanna vegetation, and the Atlantic Forest harbour high biodiversity levels, and their habitats are rather different from each other. The biomes have intrinsic evolutionary relationships, with high lineage exchange that can be attributed, in part, to a large contact zone between them. The genomic study of ecotypes, i.e. populations adapted to divergent habitats, can be a model to study the genomic signatures of ecological divergence. Here, we investigated two ecotypes of the tree Plathymenia reticulata , one from the Cerrado and the other from the Atlantic Forest, which have a hybrid zone in the ecotonal zone of Atlantic Forest–Cerrado. Methods The ecotypes were sampled in the two biomes and their ecotone. The evolutionary history of the divergence of the species was analysed with double‐digest restriction site‐associated DNA sequencing. The genetic structure and the genotypic composition of the hybrid zone were determined. Genotype-association analyses were performed, and the loci under putative selection and their functions were investigated. Key Results High divergence between the two ecotypes was found, and only early-generation hybrids were found in the hybrid zone, suggesting a partial reproductive barrier. Ancient introgression between the Cerrado and Atlantic Forest was not detected. The soil and climate were associated with genetic divergence in Plathymenia ecotypes and outlier loci were found to be associated with the stress response, with stomatal and root development and with reproduction. Conclusions The high genomic, ecological and morphophysiological divergence between ecotypes, coupled with partial reproductive isolation, indicate that the ecotypes represent two species and should be managed as different evolutionary lineages. We advise that the forest species should be re-evaluated and restated as vulnerable. Our results provide insights into the genomic mechanisms underlying the diversification of species across savanna and forest habitats and the evolutionary forces acting in the species diversification in the Neotropics. [ABSTRACT FROM AUTHOR]

Published

2023

43. Speciation patterns of related species under the hybrid zone: A case study of three sclerophyllous oaks in the east Himalaya–Hengduan Mountains.

Author

Ju, Miaomiao, Yang, Jia, Yue, Ming, and Zhao, Guifang

Subjects

*HYBRID zones, *BIOLOGICAL evolution, *GENETIC speciation, *SINGLE nucleotide polymorphisms, *SYMPATRIC speciation, *SPECIES, REPRODUCTIVE isolation

Abstract

Speciation is often accompanied by frequent gene exchanges, which have been gradually recognized as a common phenomenon in nature. Although gene flow may influence different reproductive isolations, the specific mechanism of the process still requires more experimental evidence, especially in hybrid populations that have no significant differentiation and isolation. To address this challenge, this study aims to elucidate the underlying mechanisms of sympatry and parapatry in related species. Three sclerophyllous oaks (Quercus spinosa, Quercus aquifolioides and Quercus rehderiana), which are mainly distributed in the sympatry/parapatry of the East Himalaya–Hengduan Mountains and adjacent regions, were used to explore the population dynamics and evolutionary history. Based on 12,420 genome‐wide single nucleotide polymorphism datasets, gene flow detection showed that the three species did not present any obvious genetic barriers. Evolutionary analysis indicated that the three species diverged during the Tertiary Period, and no migration events occurred in the early stages of species divergence. Combined with the data of 19 ecological factors, geological movements and climatic turbulence caused the rapid radiated differentiation of the three species during the Neocene, and similar selective pressures resulted in the same evolutionary pattern based on demographic history analysis. In addition, the predicted niche occupancy profiles and Generalized Dissimilarity Modelling revealed that the three species occupied distinct niches and had significant differences in ecological adaptation, which may explain the specific morphological characteristics of the different species. Therefore, we believe that the populations of the three related species underwent adaptive evolution in different habitats during the early stages of divergence. This study provides new experimental evidence of the formation patterns of parallel speciation. [ABSTRACT FROM AUTHOR]

Published

2023

44. Seasonal differences in the timing of flight between the invasive winter moth and native Bruce spanworm promotes reproductive isolation.

Author

Andersen, Jeremy C, Havill, Nathan P, Chandler, Jennifer L, Boettner, George H, Griffin, Brian P, and Elkinton, Joseph S

Subjects

REPRODUCTIVE isolation, MOTHS, SEASONS, MICROSATELLITE repeats, WINTER

Abstract

The European winter moth, Operophtera brumata L. (Lepidoptera: Geometridae), was accidentally introduced to North America on at least 4 separate occasions, where it has been hybridizing with the native Bruce spanworm, O. bruceata Hulst, at rates up to 10% per year. Both species are known to respond to the same sex pheromones and to produce viable offspring, but whether they differ in the seasonal timing of their mating flights is unknown. Therefore, we collected adult male moths weekly along 2 transects in the northeastern United States and genotyped individuals using polymorphic microsatellite markers as males of these 2 species cannot be differentiated morphologically. Along each transect, we then estimated the cumulative proportions (i.e. the number of individuals out of the total collected) of each species on each calendar day. Our results indicate that there are significant differences between the species regarding their seasonal timing of flight, and these allochronic differences likely are acting to promote reproductive isolation between these 2 species. Lastly, our results suggest that the later flight observed by winter moth compared to Bruce spanworm may be limiting its inland spread in the northeastern United States because of increased exposure to extreme winter events. [ABSTRACT FROM AUTHOR]

Published

2023

45. Differing associations between sex determination and sex‐linked inversions in two ecotypes of Littorina saxatilis

Author

Katherine E. Hearn, Eva L. Koch, Sean Stankowski, Roger K. Butlin, Rui Faria, Kerstin Johannesson, and Anja M. Westram

Subjects

Hybrid zone, local adaptation, recombination suppression, sex chromosomes, sexual antagonism, Evolution, QH359-425

Abstract

Abstract Sexual antagonism is a common hypothesis for driving the evolution of sex chromosomes, whereby recombination suppression is favored between sexually antagonistic loci and the sex‐determining locus to maintain beneficial combinations of alleles. This results in the formation of a sex‐determining region. Chromosomal inversions may contribute to recombination suppression but their precise role in sex chromosome evolution remains unclear. Because local adaptation is frequently facilitated through the suppression of recombination between adaptive loci by chromosomal inversions, there is potential for inversions that cover sex‐determining regions to be involved in local adaptation as well, particularly if habitat variation creates environment‐dependent sexual antagonism. With these processes in mind, we investigated sex determination in a well‐studied example of local adaptation within a species: the intertidal snail, Littorina saxatilis. Using SNP data from a Swedish hybrid zone, we find novel evidence for a female‐heterogametic sex determination system that is restricted to one ecotype. Our results suggest that four putative chromosomal inversions, two previously described and two newly discovered, span the putative sex chromosome pair. We determine their differing associations with sex, which suggest distinct strata of differing ages. The same inversions are found in the second ecotype but do not show any sex association. The striking disparity in inversion‐sex associations between ecotypes that are connected by gene flow across a habitat transition that is just a few meters wide indicates a difference in selective regime that has produced a distinct barrier to the spread of the newly discovered sex‐determining region between ecotypes. Such sex chromosome‐environment interactions have not previously been uncovered in L. saxatilis and are known in few other organisms. A combination of both sex‐specific selection and divergent natural selection is required to explain these highly unusual patterns.

Published

2022

46. Genotype–environment associations across spatial scales reveal the importance of putative adaptive genetic variation in divergence

Author

Allison H. Alvarado, Christen M. Bossu, Ryan J. Harrigan, Rachael A. Bay, Allison R. P. Nelson, Thomas B. Smith, and Kristen C. Ruegg

Subjects

Catharus guttatus, cline analysis, genoscape map, gradient forest, hybrid zone, landscape genomics, Evolution, QH359-425

Abstract

Abstract Identifying areas of high evolutionary potential is a judicious strategy for developing conservation priorities in the face of environmental change. For wide‐ranging species occupying heterogeneous environments, the evolutionary forces that shape distinct populations can vary spatially. Here, we investigate patterns of genomic variation and genotype–environment associations in the hermit thrush (Catharus guttatus), a North American songbird, at broad (across the breeding range) and narrow spatial scales (at a hybrid zone). We begin by building a genoscape or map of genetic variation across the breeding range and find five distinct genetic clusters within the species, with the greatest variation occurring in the western portion of the range. Genotype–environment association analyses indicate higher allelic turnover in the west than in the east, with measures of temperature surfacing as key predictors of putative adaptive genomic variation rangewide. Since broad patterns detected across a species' range represent the aggregate of many locally adapted populations, we investigate whether our broadscale analysis is consistent with a finer scale analysis. We find that top rangewide temperature‐associated loci vary in their clinal patterns (e.g., steep clines vs. fixed allele frequencies) across a hybrid zone in British Columbia, suggesting that the environmental predictors and the associated candidate loci identified in the rangewide analysis are of variable importance in this particular region. However, two candidate loci exhibit strong concordance with the temperature gradient in British Columbia, suggesting a potential role for temperature‐related barriers to gene flow and/or temperature‐driven ecological selection in maintaining putative local adaptation. This study demonstrates how patterns identified at the broad (macrogeographic) scale can be validated by investigating genotype–environment correlations at the local (microgeographic) scale. Furthermore, our results highlight the importance of considering the spatial distribution of putative adaptive variation when assessing population‐level sensitivity to climate change and other stressors.

Published

2022

47. Beyond plumage: acrobatic courtship displays show intermediate patterns in manakin hybrids.

Author

Barske, Julia, Fuxjager, Matthew J., Ciofi, Claudio, Natali, Chiara, Schlinger, Barney A., Billo, Tim, and Fusani, Leonida

Subjects

*COURTSHIP, *FEATHERS, *BIRD populations, *SEXUAL selection, *HYBRID zones

Abstract

A major goal of evolutionary biology is to understand how sexual traits arise and diversify among populations. One way to address this objective is by studying sexual traits in closely related species and their hybrids. Here, we used this approach to study the evolution of elaborate behavioural display characteristics used during courtship. We focus on bearded manakins (genus: Manacus), where males of this avian clade perform an acrobatic jump-snap display to court females. Hybridization is common among Manacus taxa, and thus, we studied courtship dance behaviour in a hybrid population between golden-collared manakins, Manacus vitellinus , and white-collared manakins, Manacus candei. We found that, despite being genetically more similar to white-collared manakins, hybrid males performed key dance manoeuvres like golden-collared manakins. Hybrids performed other dance manoeuvres intermediate to the two species, or more like their white-collared parents. Select components of the birds' dance routines may have therefore introgressed from the golden-collared population into the white-collared populations. We hypothesize that such modular evolution occurs in response to sexual selection, whereby specific components of the bird's dance routine shift to yield a broader change in its functional appearance. • We studied courtship display in a hybrid population of manakin birds. • Hybrids performed many display traits intermediately to their parental lineages. • Some hybrid traits, however, resembled their high-performing parental line. • Asymmetrical introgression may account for display evolution in hybrids. [ABSTRACT FROM AUTHOR]

Published

2023

48. Hybridization despite elaborate courtship behavior and female choice in Neotropical tree frogs.

Author

NALI, Renato C., ZAMUDIO, Kelly R., and PRADO, Cynthia P. A.

Subjects

*PLANT hybridization, *HYLIDAE, *COURTSHIP, *MATE selection, *ENDANGERED species

Abstract

The mechanisms of hybridization can be elucidated by analyzing genotypes as well as phenotypes that could act as premating barriers, as the reproductive interactions among heterospecifics can alter the evolutionary history of species. In frogs, hybrids typically occur among species that reproduce explosively (in dense aggregations) with few opportunities for mate selection but are rare in species with elaborate courtship behaviors that may prevent erroneous mating. Using 21 microsatellite markers, we examined hybridization in the prolonged‐breeding tree frogs Bokermannohyla ibitiguara and B. sazimai sampled within a contact zone in the Brazilian savanna (72 tadpoles; 74 adults). We also compared acoustic and morphological data. We confirmed both parental species genetically; STRUCTURE results confirmed 14 hybrids, 11 of which were second‐generation according to NEWHYBRIDS, all with intermediate values of genetic dissimilarities compared to the parentals. Morphological and acoustic analyses revealed that hybrids showed variable but not necessarily intermediate phenotypes. Moreover, 2 hybrids exhibited call types different from parentals. The reproduction of B. ibitiguara involves territorial and aggressive males, elaborate courtships with acoustic and tactile stimuli, choosy females, and opportunistic strategies. Our study uncovers a rare case of viable hybridization among closely related frogs with such a combination of complex courtship behaviors and mate choice. We discuss the likely directionality and mechanisms behind this phenomenon, and highlight the importance of investigating hybridization even in species that show elaborate reproduction and female choice to advance our understanding of animal diversification. [ABSTRACT FROM AUTHOR]

Published

2023

49. Geographic Genetic Structure of Alectoris chukar in Türkiye: Post-LGM-Induced Hybridization and Human-Mediated Contaminations.

Author

Kaya, Sarp, Kabasakal, Bekir, and Erdoğan, Ali

Subjects

*CLIMATE change, *HYBRID zones, *MICROSATELLITE repeats, *GENETIC variation, *SYNTHETIC genes

Abstract

Simple Summary: The chukar partridge (Alectoris chukar) is an important bird species with significant economic and ecological value. Every year, thousands of partridges raised in Ministry of Agriculture and Forestry breeding farms are released into nature for hunting purposes. Our investigation of the gene pools of different A. chukar populations using mitochondrial and microsatellite markers from across Türkiye revealed that the Eastern, Western, and Thracian genetic structures have been shaped by Türkiye's geography and topography, past climatic fluctuations, and human-mediated artificial hybridizations. There were no signs of congeneric genetic contamination in native chukar populations, but there were contaminations with the China clade-B, which were detected as reported in the previous studies. Türkiye is considered an important evolutionary area for Chukar partridge (Alectoris chukar), since it is both a potential ancestral area and a diversification center for the species. Using 2 mitochondrial (Cty-b and D-loop) and 13 polymorphic microsatellite markers, we investigated the geographic genetic structure of A. chukar populations to determine how past climatic fluctuations and human activities have shaped the gene pool of this species in Türkiye. Our results indicate, firstly, that only A. chukar of the genus Alectoris is present in Türkiye (Anatolia and Thrace), with no natural or artificial gene flow from congenerics. Secondly, the geographic genetic structure of the species in Türkiye has been shaped by topographic heterogeneity, Pleistocene climatic fluctuations, and artificial transport by humans. Third, there appears to be three genetic clusters: Thracian, Eastern, and Western. Fourth, the post-LGM demographic expansion of the Eastern and Western populations has formed a hybrid zone in Central Anatolia (~8 kyBP). Fifth, the rate of China clade-B contamination in Türkiye is about 8% in mtDNA and about 12% in nuDNA, with the Southeastern Anatolian population having the highest contamination. Sixth, the Thracian population was the most genetically distinct, with the lowest genetic diversity and highest level of inbreeding and no China clad-B contamination. These results can contribute to the conservation regarding A. chukar populations, especially the Thracian population. [ABSTRACT FROM AUTHOR]

Published

2023

50. Patterns of hybridization in a secondary contact zone between two passerine species, the common nightingale Luscinia megarhynchos and the thrush nightingale Luscinia luscinia.

Author

Sottas, Camille, Reif, Jiří, Piálek, Lubomír, Poignet, Manon, Kverek, Pavel, Dolata, Paweł T., and Reifová, Radka

Subjects

*HYBRID zones, *SPECIES, *THRUSHES, *GENE flow, *NIGHTINGALE, *GENETIC speciation, *PASSERIFORMES, REPRODUCTIVE isolation

Abstract

Understanding how reproductive isolation arises and accumulates between incipient species is an important goal of evolutionary biology. Patterns of interspecific hybridization in naturally occurring hybrid zones can provide an important insight into this process since they reflect the strength, symmetry and nature of reproductive barriers separating the species. Here we studied patterns of hybridization in two closely related passerine species, the common nightingale Luscinia megarhynchos and the thrush nightingale L. luscinia, that diverged ~1.8 Mya and co‐occur in a secondary contact zone spanning across Europe. Genome‐wide genotyping of more than three hundred individuals from the sympatric population and adjacent allopatric populations revealed that the vast majority of sympatric individuals were pure parental species. Only 6.5% of sympatric individuals were hybrids, from which 3.4% were F1 hybrids and 3.1% backcross hybrids from the first to the fifth backcross generation. Most F1 hybrids arose from the cross of a thrush nightingale female and a common nightingale male. F1 hybrids showed intermediate morphology and could be distinguished with high confidence from the parental species based on several diagnostic traits. However, backcrosses were morphologically difficult to distinguish from the parental species from which they inherited most of the genome. Our results suggest strong, yet incomplete, reproductive isolation between the two nightingale species both at a prezygotic and postzygotic level. Nightingales thus represent a useful model system for exploring the late stages of speciation with ongoing gene flow after secondary contact. [ABSTRACT FROM AUTHOR]

Published

2023