Your search keyword '"*HYBRID zones"' showing total 2,598 results

1. Fate of the Hybrid Chickadees.

Author

HEISMAN, REBECCA

Subjects

*SPECIES hybridization, *BASAL metabolism, *EXTREME weather, *HYBRID zones, *INTROGRESSION (Genetics), REPRODUCTIVE isolation

Abstract

This article explores the hybridization of Black-capped Chickadees and Carolina Chickadees, two bird species that overlap in certain regions of North America. The hybrid zone between these species has been shifting northward, potentially due to climate change. Female Black-capped Chickadees sometimes choose to mate with Carolina males, and the resulting hybrid offspring face challenges in survival and reproduction. The study provides insights into how species adapt and interact in a changing environment. It also discusses the genetic patterns and potential outcomes of hybridization, as well as the impact of human activities on this phenomenon. The article concludes by considering the future implications of hybridization in the face of climate change and habitat disturbance. [Extracted from the article]

Published

2024

2. Permeability of postzygotic barriers: embryology of a partially fertile Epidendrum (Orchidaceae) hybrid.

Author

Alves, M. F., Pinheiro, F., Silva Graciano, D., De Toni, K. L. G., and Baumgratz, J. F. A.

Subjects

*EMBRYOLOGY, *PLANT species, *HYBRID zones, *SYMPATRIC speciation, *SEED development, REPRODUCTIVE isolation

Abstract

Hybrid zones offer unique insight into reproductive barriers and plant speciation mechanisms. This study investigated postzygotic reproductive isolation in the natural hybrid Epidendrum × purpureum, which occurs in sympatry with its parent species, Epidendrum denticulatum and E. orchidiflorum. We examined the development of male and female gametophytes and the events leading to seed formation in this hybrid zone. Floral buds and flowers from E. × purpureum individuals were collected at various stages of development. Both self‐pollination and backcrosses between hybrids and parental species were performed to follow ovule and seed development up to 60 days after pollination. The material was analysed using optical and confocal microscopy. In most hybrids, microsporogenesis and microgametogenesis occur regularly, forming viable male gametophytes. Non‐viable male gametophytes were also observed and are the result of symmetrical mitotic division. The development of the female gametophyte occurs after self‐pollination, and proceeds regularly, resulting in a reduced female gametophyte. Embryo development in the parental species occurs without abnormalities, while in backcrosses between hybrids and parental species, most embryos degenerate. Embryo degeneration in the crosses between hybrids can be explained by genetic incompatibilities. The co‐occurrence of viable embryos and degenerating embryos in backcrosses between hybrids and parental species point to incomplete postzygotic reproductive barriers between the hybrid and the progenitors. Our findings suggest that E. × purpureum could facilitate gene flow between parental species, as much of its embryological development occurs without abnormalities. [ABSTRACT FROM AUTHOR]

Published

2024

3. Go west, young bunting: recent climate change drives rapid movement of a Great Plains hybrid zone.

Author

Dougherty, Paul J and Carling, Matthew D

Subjects

*EFFECT of human beings on climate change, *HYBRID zones, *SPECIES distribution, *CLIMATE change, *TWENTIETH century, REPRODUCTIVE isolation

Abstract

Describing how hybrid zones respond to anthropogenic influence can illuminate how the environment regulates both species distributions and reproductive isolation between species. In this study, we analyzed specimens collected from the Passerina cyanea × P. amoena hybrid zone between 2004 and 2007 and between 2019 and 2021 to explore changes in genetic structure over time. This comparison follows a previous study that identified a significant westward shift of the Passerina hybrid zone during the latter half of the twentieth century. A second temporal comparison of hybrid zone genetic structure presents unique potential to describe finer-scale dynamics and to identify potential mechanisms of observed changes more accurately. After concluding that the westward movement of the Passerina hybrid zone has accelerated in recent decades, we investigated potential drivers of this trend by modeling the influence of bioclimatic and landcover variables on genetic structure. We also incorporated eBird data to determine how the distributions of P. cyanea and P. amoena have responded to recent climate and landcover changes. We found that the distribution of P. cyanea in the northern Great Plains has shifted west to track a moving climatic niche, supporting anthropogenic climate change as a key mediator of introgression in this system. [ABSTRACT FROM AUTHOR]

Published

2024

4. Asymmetric mate preference and reproductive interference mediate climate-induced changes in mate availability in a small mammal hybrid zone.

Author

Matocq, Marjorie D, Hunter, Elizabeth A, Murphy, Peter J, Adkins, Casey L, and Shoemaker, Kevin T

Subjects

*BIOLOGICAL fitness, *HYBRID zones, *POPULATION dynamics, *REPRODUCTIVE health, *CLIMATE change, REPRODUCTIVE isolation

Abstract

Range expansion and contraction are among the most common biotic responses to changing environmental conditions, yet much is to be learned about the mechanisms that underlie range-edge population dynamics, especially when those areas are points of secondary contact between closely related species. Here, we present field-measured parentage data that document the reproductive outcomes of changes in mate availability at a secondary contact zone between two species of woodrat in the genus Neotoma. Changes in mate availability resulted from drought-driven differential survival between the species and their hybrids. As the availability of conspecific mates declined, rates of hybridization increased, leading to the accumulation of admixed individuals in the zone of contact. Patterns of reproductive success in the wild appear to be the result of a combination of both pre-mating isolation and post-zygotic selection resulting from genomic incompatibilities between the parental lineages. Evidence of asymmetric mate preference between the parental lineages came from both skewed reproductive output in the field and laboratory preference trials. Moreover, partial genomic incompatibility was evident from the near-zero reproductive success of F1 males and because nearly all surviving hybrids had one pure parent. Nonetheless, the high reproductive success of F1 females and backcrossing in both parental directions allow for introgression between the parental species. These findings reveal how climate change may alter evolutionary outcomes for species at the edge of their ranges through an interplay of behavioral, demographic, and genetic mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

5. Collective resilience and resistance in hybrid times: gender struggles in Germany, Turkey and Sweden.

Author

Çağatay, Selin, Göker, Zeynep Gülru, Hünler, Olga Selin, and Polatdemir, Aslı

Subjects

*POOR women, *SEXUAL rights, *SEXUAL minority women, *LGBTQ+ people, *AFFECT (Psychology), *HYBRID zones

Abstract

In activist circles, the concept of resilience seems to have captured the spotlight once enjoyed by resistance. Instead of treating resilience as antithetical to resistance, and a discursive neoliberal vehicle that seeks individual solutions to collective problems, this article demonstrates its relationality to resistance in the context of online/offline struggles of feminist and LGBTI + activists challenged by mobilizations against gender and sexual rights. Reflecting on the discussions and outputs of a series of digital workshops involving activists from Germany, Turkey and Sweden, the article investigates from a transnational perspective the meanings and aspects of collective resilience in the anti-gender context, and what resilience entails in the increasing online/offline hybridity of activism. Three themes emerge from this investigation: the connectedness of resistance and resilience across scale and context, the pronouncing of care and support networks as activist resources, and the emergence of the need and efforts to develop new alliances and solidarity structures in the face of the dual challenges of anti-gender mobilizations and neoliberalism. Resistance and resilience are intertwined in gender struggles taking place in the anti-gender context, in that the cultivation of resilience through care networks, the mobilization of positive affect, and the formation of dynamic and flexible solidarities enable and help sustain resistances in the online/offline interface. While online/offline hybridity offers opportunities to develop and sustain individual/collective resources, the article finds, attention should be paid to the processes of exclusion of underprivileged women and queer people in hybrid times. [ABSTRACT FROM AUTHOR]

Published

2024

6. Hybridization and introgression in deeply differentiated salamander species – molecular genetics and a reappraisal of Dr. Louis Vallée's osteological data.

Author

Arntzen, Jan W.

Subjects

*MOLECULAR genetics, *SINGLE nucleotide polymorphisms, *HYBRID zones, *GENE flow, *INTROGRESSION (Genetics)

Abstract

Two morphologically and genetically distinct salamander species (the crested newt, Triturus cristatus and the marbled newt, T. marmoratus) engage over a large area in the west of France where they hybridize at ca. 4%. The species interaction is characterized by ecological differentiation and limited gene flow beyond the F1 hybrid generation. Incompletely isolated species like these allow to investigate the genetic mechanisms and evolutionary forces that maintain their identity in the face of ongoing gene flow, to which a large mosaic hybrid zone provides excellent opportunities. A reanalysis of published morphological data supports the partial breakdown of the species barrier whereas extensive genetic data show that introgression is low yet asymmetric, in line with the dynamics of species replacement inferred earlier. The current work, with seven diagnostic nuclear markers studied for a large sample, revises the estimates of introgression in both T. cristatus (to 0.24%) and T. marmoratus (to 0.11%). Difficulties remain in the recognition of potential triploid hybrids versus backcross hybrids. Haldane's rule is partially supported, but deeper analyses require the use of a molecular marker for sex that is not yet available. [ABSTRACT FROM AUTHOR]

Published

2024

7. Hybridization has localized effect on genetic variation in closely related pine species.

Author

Szczepański, Sebastian, Łabiszak, Bartosz, Lasek, Martyna, and Wachowiak, Witold

Subjects

*HYBRID zones, *GENETIC variation, *GENE flow, *GENETIC markers, *SPECIES hybridization

Abstract

Background: Hybridization is a known phenomenon in nature but its genetic impact on populations of parental species remains less understood. We investigated the evolutionary consequences of the interspecific gene flow in several contact zones of closely related pine species. Using a set of genetic markers from both nuclear and organellar genomes, we analyzed four hybrid zones (384 individuals) and a large panel of reference allopatric populations of parental taxa (2104 individuals from 96 stands). Results: We observed reduced genetic diversity in maternally transmitted mitochondrial genomes of pure pine species and hybrids from contact zones compared to reference allopatric populations. The distribution of mtDNA haplotypes followed geographic rather than species boundaries. Additionally, no new haplotypes emerged in the contact zones, instead these zones contained the most common local variants. However, species diverged significantly at nuclear genomes and populations in contact zones exhibited similar or higher genetic diversity compared to the reference stands. There were no signs of admixture in any allopatric population, while clear admixture was evident in the contact zones, indicating that hybridization has a geographically localized effect on the genetic variation of the analyzed pine species. Conclusions: Our results suggest that hybrid zones act as sinks rather than melting pots of genetic diversity. Hybridization influences sympatric populations but is confined to contact zones. The spectrum of parental species ancestry in hybrids reflects the old evolutionary history of the sympatric populations. These findings also imply that introgression may play a crucial role in the adaptation of hybrids to specific environments. [ABSTRACT FROM AUTHOR]

Published

2024

8. Phylogeography of the Red‐Headed Manakin Supports the River‐Refuge Hypothesis.

Author

Mikkelsen, Else, Lavareda, Diogo, Vallinoto, Marcelo, Aleixo, Alexandre, and Weir, Jason

Subjects

*GENE flow, *PASSERIFORMES, *SONGBIRDS, *RAIN forests, *PHYLOGEOGRAPHY, *HYBRID zones

Abstract

ABSTRACT Aim Location Taxon Methods Results Main Conclusions The Amazon rainforest is one of the most biodiverse regions on earth, but our understanding of the processes that have shaped its patterns of diversity remains incomplete. One hypothesis for Amazonian speciation is the river‐refuge hypothesis, which suggests that retraction of forests away from the periphery of Amazonia, where rivers are narrow, facilitated divergence of populations separated by wide rivers. Later re‐expansion of forests would have allowed secondary contact between these populations, and co‐occurring hybrid zones may reveal the location where expanding forests first reconnected. Here, we test whether a widespread Amazonian songbird species shows evidence of population contact zones in the eastern headwaters of the Tapajós river, hypothesised to be an area of secondary contact under the river‐refuge hypothesis.Amazon and Atlantic forests of South America.Ceratopipra rubrocapilla (Pipridae, Passeriformes).We sampled 147 C. rubrocapilla (Red‐headed Manakin) across its vast range, with 70 samples sequenced using reduced‐representation genomic sequencing and 139 sequenced at the mitochondrial gene cytochrome b. We use population genetic and phylogenetic analyses to investigate patterns of gene flow and population structure across the range, with a particular focus on samples from the headwaters of the Tapajós River to evaluate the potential role of the river‐refuge hypothesis.We observe shallow population structure and evidence for widespread gene flow across the range of C. rubrocapilla. Patterns in the Tapajós headwaters match predictions of the river‐refuge hypothesis, with eastern headwater samples most similar to samples farther west on the opposite bank of the Tapajós River.The close co‐occurrence between population contact zones within C. rubrocapilla and other previously studied hybrid zones reinforces the hypothesis that the eastern Tapajós headwaters is where rainforest populations reconnected in the past, following predictions of the river‐refuge hypothesis of Amazonian speciation. [ABSTRACT FROM AUTHOR]

Published

2024

9. 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

10. 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

11. Making Noah's Ark Work for Fishing Cat Conservation: A Blueprint for Connecting Populations across an Interactive Wild Ex Situ Spectrum.

Author

Adhya, Tiasa, Singh, Simran, Gottumukkala, Himaja Varma, Banerjee, Aditya, Chongder, Ishita, Maity, Sulata, and Reddy, P. Anuradha

Subjects

*POPULATION viability analysis, *CAT breeds, *FELIDAE, *FISH conservation, *ANIMAL welfare, *HYBRID zones

Abstract

Simple Summary: This study presents an integrated conservation framework for the globally threatened fishing cat, synthesizing both ex situ management and in situ strategies. The strategy aligns with the One Plan Approach, which views captive populations as part of a broader metapopulation network, and the Opportunities to Thrive framework, which emphasizes animal welfare in captivity. This study analyzed the genetic diversity of a recently initiated fishing cat captive breeding population by the West Bengal Zoo Authority, India, and conducted a population viability analysis. The results suggest that the current genetic diversity (56%) and population carrying capacity (30 individuals) can be sustained for over 100 years through a strategy of supplementation and harvesting. Introducing two adult males and females annually will allow for sustainable harvesting to supplement wild populations. Additionally, this study identified 21 potential reintroduction zones in the Sundarbans and Terai regions of West Bengal, using environmental criteria that favor fishing cat occurrence. This work offers a comprehensive blueprint for applying the One Plan Approach to ensure the long-term survival of the fishing cat. The One Plan Approach advocates for a hybrid species management framework, wherein captive-bred populations are considered metapopulations nested within a broader network of zoos and wild populations Additionally, the Opportunities to Thrive framework aims to enhance animal welfare by addressing the physiological, psychological, and emotional needs of captive individuals, thereby improving conservation outcomes. Here, we present an integrated framework for the conservation of a globally threatened wetland wild cat species, the fishing cat, by synthesizing optimal ex situ management practices and in situ conservation strategies. Further, we examined the genetic constitution of the founder population in a fishing cat captive breeding program that was recently initiated by the West Bengal Zoo Authority, India and conducted a population viability analysis to suggest how best to maintain the genetic diversity of the population. We found that the present genetic diversity of 56% and maximum carrying capacity of the captive population (30 individuals) can be maintained for more than 100 years with a combination of supplementation and harvesting. Keeping stochastic events in mind, the introduction of two adult males and females to the existing population each year will seamlessly allow the harvesting of two adult males and two adult females every alternate year to supplement wild populations. Further, we adopted the proposed integrated framework to delineate recommendations for the supplementation of wild populations in West Bengal. We used environmental criteria known to influence fishing cat occurrence to identify 21 potential reintroduction zones in the Sundarbans landscape and Terai region in northern West Bengal with habitable areas for the fishing cat that are larger than the maximum known species' home range. Our study is timely and insightful because it provides a holistic blueprint for implementing the One Plan Approach in safeguarding a threatened species. [ABSTRACT FROM AUTHOR]

Published

2024

12. Heritability and Variability of Productivity Traits in Spring Soft Wheat Hybrids of the First to Fourth Generations.

Author

Alekberova, Sevinj

Subjects

GENOTYPE-environment interaction, WHEAT, STATISTICAL correlation, EAR, PHENOTYPES, HYBRID zones, GRAIN yields

Abstract

Under the conditions of the Absheron region, the effects of interaction between genotype and environment were determined in nine varieties of spring soft wheat and seven hybrid populations F1...F4 formed with their participation. A reliable effect of environmental conditions on all the studied traits was established. The contribution of the "year" factor to the number of grains per ear in varieties and hybrids was 10.9 and 13.9%, respectively; to the weight of 1000 grains - 5.8 and 19.5%; to the yield - 47.3 and 41.1%. The genetic component made a significant contribution to the weight of 1000 grains in varieties and hybrids (81.5 and 58.8%), as well as to the number of grains in varieties (38.4%). A higher varietal specificity in the manifestation of traits in parental varieties was noted compared to hybrids. Two component traits of ear productivity in a series of generations against the background of various lim-factors were analyzed, shifts of their average values and their influence on the yield were predicted and determined. The phenotypic dominance index (hp) was determined in the first generation by the number of grains per ear and 1000-grain weight, combinations with a high level were identified. The selection differential and efficiency of selections carried out under contrasting environmental conditions in the second and third hybrid generations were calculated. The yield in the initial populations varied within 219.0...789.6 g/m2, in the selected progeny - 317.0...647.6 g/m2. The average yield increase in the progeny selected in a dry year, in relation to the initial populations, was 56.8 g/m2; in the progeny selected under conditions of excess moisture - 10.8 g/m2. Correlation analysis revealed an average positive relationship between the hp indicator in the first generation and the selection differential in subsequent generations for the traits "weight of 1000 grains" and "number of grains per ear". [ABSTRACT FROM AUTHOR]

Published

2024

13. Widespread Adaptive Introgression of Major Histocompatibility Complex Genes across Vertebrate Hybrid Zones.

Author

Gaczorek, T, Dudek, K, Fritz, U, Bahri-Sfar, L, Baird, S J E, Bonhomme, F, Dufresnes, C, Gvoždík, V, Irwin, D, Kotlík, P, Marková, S, McGinnity, P, Migalska, M, Moravec, J, Natola, L, Pabijan, M, Phillips, K P, Schöneberg, Y, Souissi, A, and Radwan, J

Subjects

HYBRID zones, COEVOLUTION, INTROGRESSION (Genetics), GENETIC speciation, SQUAMATA, AMPHIBIANS

Abstract

Interspecific introgression is a potentially important source of novel variation of adaptive significance. Although multiple cases of adaptive introgression are well documented, broader generalizations about its targets and mechanisms are lacking. Multiallelic balancing selection, particularly when acting through rare allele advantage, is an evolutionary mechanism expected to favor adaptive introgression. This is because introgressed alleles are likely to confer an immediate selective advantage, facilitating their establishment in the recipient species even in the face of strong genomic barriers to introgression. Vertebrate major histocompatibility complex genes are well-established targets of long-term multiallelic balancing selection, so widespread adaptive major histocompatibility complex introgression is expected. Here, we evaluate this hypothesis using data from 29 hybrid zones formed by fish, amphibians, squamates, turtles, birds, and mammals at advanced stages of speciation. The key prediction of more extensive major histocompatibility complex introgression compared to genome-wide introgression was tested with three complementary statistical approaches. We found evidence for widespread adaptive introgression of major histocompatibility complex genes, providing a link between the process of adaptive introgression and an underlying mechanism. Our work identifies major histocompatibility complex introgression as a general mechanism by which species can acquire novel, and possibly regain previously lost, variation that may enhance defense against pathogens and increase adaptive potential. [ABSTRACT FROM AUTHOR]

Published

2024

14. Genome‐wide SNP assessment of contemporary European red deer genetic structure highlights the distinction of peripheral populations and the main admixture zones in Europe.

Author

Carranza, Juan, Pérez‐González, Javier, Anaya, Gabriel, de Jong, Menno, Broggini, Camilla, Zachos, Frank E., McDevitt, Allan D., Niedziałkowska, Magdalena, Sykut, Maciej, Csányi, Sándor, Bleier, Norber, Csirke, Lázló, Røed, Knut, Saint‐Andrieux, Christine, Barboiron, Aurelie, Gort‐Esteve, Araceli, Ruiz‐Olmo, Jordi, Seoane, Jose Manuel, Godoy, Jose Antonio, and Mackiewicz, Paweł

Subjects

*RED deer, *SINGLE nucleotide polymorphisms, *HYBRID zones, *GENE frequency, *WILDLIFE management

Abstract

Genome‐wide technologies open up new possibilities to clarify questions on genetic structure and phylogeographic history of taxa previously studied with microsatellite loci and mitochondrial sequences. Here, we used 736 individual red deer (Cervus elaphus) samples genotyped at 35,701 single nucleotide polymorphism loci (SNPs) to assess the population structure of the species throughout Europe. The results identified 28 populations, with higher degrees of genetic distinction in peripheral compared to mainland populations. Iberian red deer show high genetic differentiation, with lineages in Western and Central Iberia maintaining their distinctiveness, which supports separate refugial ranges within Iberia along with little recent connection between Iberian and the remaining Western European populations. The Norwegian population exhibited the lowest variability and the largest allele frequency differences from mainland European populations, compatible with a history of bottlenecks and drift during post‐glacial colonization from southern refugia. Scottish populations showed high genetic distance from the mainland but high levels of diversity. Hybrid zones were found between Eastern and Western European lineages in Central Europe as well as in the Pyrenees, where red deer from France are in close contact with Iberian red deer. Anthropogenic restocking has promoted the Pyrenean contact zone, admixture events in populations on the Isle of Rum and in the Netherlands, and at least partly the admixture of the two main lineages in central‐eastern Europe. Our analysis enabled detailed resolution of population structure of a large mammal widely distributed throughout Europe and contributes to resolving the evolutionary history, which can also inform conservation and management policies. [ABSTRACT FROM AUTHOR]

Published

2024

15. 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

16. 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

17. Association between Genetic Admixture and Morphological Patterns in a Hybrid Zone between the Two Iberian Vipers, Vipera aspis and V. latastei.

Author

Freitas, Inês, Velo-Antón, Guillermo, Kaliontzopoulou, Antigoni, Zuazo, Óscar, Martínez-Freiría, Fernando, and Daniels, Savel

Subjects

*BIOLOGICAL evolution, *SPECIES hybridization, *MICROSATELLITE repeats, *GENETIC variation, *GENETIC speciation, *HYBRID zones, *INTROGRESSION (Genetics)

Abstract

Understanding how hybridization influences the morphology and fitness of hybrids is essential for studying adaptive evolution and ecological speciation. Secondary contact zones, where separately evolving populations meet and hybridize, offer valuable insights into the evolutionary processes driving speciation and provide an excellent system to address these questions. In this study, we investigate patterns of morphological and genetic variation of two congeneric viper species, Vipera aspis and V. latastei, across a contact zone in northern Spain (Oja‐Tirón), where vipers with mixed morphology are often detected, but genetic studies addressing hybridization and relating patterns of genetic and morphological admixture are lacking. Using nine morphological traits (scalation and colouration) and 18 microsatellite markers, we (1) estimated the extent of hybridization, (2) morphologically characterized parental species and hybrids, and (3) evaluated the correlation between patterns of genetic and morphological admixture. Analyses revealed a bimodal hybrid zone with high rate of hybridization (22%) and prevalence of late‐generation hybrids (F2 and backcrosses). Morphological analyses differentiated the two parental species, and a positive correlation (r = 0.95) was found between morphological and genetic patterns. The hybrid group displayed on average an intermediate morphology between the parentals, yet morphologically intermediate hybrids were rare in our dataset. Instead, most hybrids resembled the parental species with whom they share most of the genetic background. Notably, the hybrid group exhibited greater morphological variation than the parental groups. Traits with adaptative value, such as ventral scales and dorsal marks, showed significant differences between hybrids and the two parental species. Introgression of these traits may confer ecological advantages to hybrids, enhancing local adaptation. Overall, this study reveals a positive correlation between patterns of morphological and genetic variation across a hybrid zone and provides insights into the phenotypic consequences of hybridization on these viper species. [ABSTRACT FROM AUTHOR]

Published

2024

18. Lineage diversification and rampant hybridization among subspecies explain taxonomic confusion in the endemic Hawaiian fern Polypodium pellucidum.

Author

Mendez‐Reneau, Jonas I., Richards, Joseph L., Hobbie, Julia, Bollich, Emily, Kooyers, Nicholas J., and Sigel, Erin M.

Subjects

*PLANT hybridization, *ECOLOGICAL niche, *BIOGEOGRAPHY, *ARCHIPELAGOES, *BOTANY, *HYBRID zones

Abstract

Premise: Polypodium pellucidum, a fern endemic to the Hawaiian Islands, encompasses five ecologically and morphologically variable subspecies, suggesting a complex history involving both rapid divergence and rampant hybridization. Methods: We employed a large target‐capture data set to investigate the evolution of genetic, morphological, and ecological variation in P. pellucidum. With a broad sampling across five Hawaiian Islands, we deciphered the evolutionary history of P. pellucidum, identified nonhybrid lineages and intraspecific hybrids, and inferred the relative influence of geography and ecology on their distributions. Results: Polypodium pellucidum is monophyletic, dispersing to the Hawaiian archipelago 11.53–7.77 Ma and diversifying into extant clades between 5.66 and 4.73 Ma. We identified four nonhybrid clades with unique morphologies, ecological niches, and distributions. Additionally, we elucidated several intraspecific hybrid combinations and evidence for undiscovered or extinct "ghost" lineages contributing to extant hybrid populations. Conclusions: We provide a foundation for revising the taxonomy of P. pellucidum to account for cryptic lineages and intraspecific hybrids. Geologic succession of the Hawaiian Islands through cycles of volcanism, vegetative succession, and erosion has determined the available habitats and distribution of ecologically specific, divergent clades within P. pellucidum. Intraspecific hybrids have likely arisen due to ecological and or geological transitions, often persisting after the local extinction of their progenitors. This research contributes to our understanding of the evolution of Hawai'i's diverse fern flora and illuminated cryptic taxa to allow better‐informed conservation efforts. [ABSTRACT FROM AUTHOR]

Published

2024

19. A reappraisal of mitochondrial DNA introgression in the Mus musculus musculus/Mus musculus domesticus hybrid zone suggests ancient North-European associations between mice and humans.

Author

Macholán, Miloš, Baird, Stuart J E, Fornůsková, Alena, Ďureje, Ľudovít, Burgstaller, Jörg P, Bellocq, Joëlle Goüy de, Heitlinger, Emanuel, Klusáčková, Pavla, Koshev, Yordan, and Piálek, Jaroslav

Subjects

*HYBRID zones, *CYTOCHROME b, *MITOCHONDRIAL DNA, *BRONZE Age, *HAPLOTYPES

Abstract

The house mouse is the best-studied mammal species after humans, yet our understanding of its evolutionary history remains incomplete. Here, we focused on the colonisation of Europe by two subspecies and formation of a hybrid zone between them. We carried out a large-scale study of ~7000 mice sampled across an area embracing an ~900 km long portion of the zone, supplemented with cytochrome b and D-loop sequencing of ~1200 individuals collected worldwide. We demonstrate that the course of the mtDNA contact front is intricate and highly discordant with the consensus front for autosomal and X-linked markers, suggesting that local snapshots of mtDNA introgression may be misleading when treated in isolation. While multiple unrelated M. m. domesticus haplotypes occur in the zone area, the diversity of M. m. musculus haplotypes is limited. Moreover, we uncovered a vast region of domesticus introgression into musculus territory in northern areas and showed this introgression is unlikely to be driven by positive selection. We consider two previously published hypotheses explaining this phenomenon and put forth an alternative scenario assuming associations between mice and humans in northern Europe during the Nordic Bronze Age and subsequent zone movement associated with the expansion of Balto-Slavic peoples. [ABSTRACT FROM AUTHOR]

Published

2024

20. 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

21. Mitonuclear and phenotypic discordance in an Atlantic Forest frog hybrid zone.

Author

de Sá, Fábio P., Akopyan, Maria, Santana, Erika M., Haddad, Célio F. B., and Zamudio, Kelly R.

Subjects

*HYBRID zones, *NUCLEAR DNA, *GENETIC variation, *COASTAL forests, *SEXUAL selection

Abstract

Discordance between mitochondrial and nuclear DNA is common among animals and can be the result of a number of evolutionary processes, including incomplete lineage sorting and introgression. Particularly relevant in contact zones, mitonuclear discordance is expected because the mitochondrial genome is haploid and primarily uniparentally inherited, whereas nuclear loci are evolving at slower rates. In addition, when closely related taxa come together in hybrid zones, the distribution of diagnostic phenotypic characters and their concordance with the mitochondrial or nuclear lineages can also inform on historical and ongoing dynamics within hybrid zones. Overall, genetic and phenotypic discordances provide evidence for evolutionary divergence and processes that maintain boundaries among sister species or lineages. In this study, we characterized patterns of genetic and phenotypic variation in a contact zone between Cycloramphus dubius and Cycloramphus boraceiensis, two sister species of frogs endemic to the Atlantic Coastal Forest of Brazil. We examined genomic‐scale nuclear diversification across 19 populations, encompassing the two parental forms and a contact zone between them. We compared the distribution of genomic DNA variability with that of a mitochondrial locus (16S) and two morphological traits (dorsal tubercles and body size). Our results reveal multiple divergent lineages with ongoing admixture. We detected discordance in patterns of introgression across the three data types. Cycloramphus dubius males are significantly larger than C. boraceiensis males, and we posit that competition among males in the hybrid zone, coupled with mate choice by females, may be one mechanism leading to patterns of introgression observed between the species. [ABSTRACT FROM AUTHOR]

Published

2024

22. Application of a Multi-Layer Perceptron and Markov Chain Analysis-Based Hybrid Approach for Predicting and Monitoring LULCC Patterns Using Random Forest Classification in Jhelum District, Punjab, Pakistan.

Author

Aftab, Basit, Wang, Zhichao, Wang, Shan, and Feng, Zhongke

Subjects

*SUSTAINABLE urban development, *CLIMATE change mitigation, *RANDOM forest algorithms, *LAND cover, *MARKOV processes, *HYBRID zones

Abstract

Land-use and land-cover change (LULCC) is a critical environmental issue that has significant effects on biodiversity, ecosystem services, and climate change. This study examines the land-use and land-cover (LULC) spatiotemporal dynamics across a three-decade period (1998–2023) in a district area. In order to forecast the LULCC patterns, this study suggests a hybrid strategy that combines the random forest method with multi-layer perceptron (MLP) and Markov chain analysis. To predict the dynamics of LULC changes for the year 2035, a hybrid technique based on multi-layer perceptron and Markov chain model analysis (MLP-MCA) was employed. The area of developed land has increased significantly, while the amount of bare land, vegetation, and forest cover have all decreased. This is because the principal land types have changed due to population growth and economic expansion. This study also discovered that between 1998 and 2023, the built-up area increased by 468 km2 as a result of the replacement of natural resources. It is estimated that 25.04% of the study area's urbanization will increase by 2035. The performance of the model was confirmed with an overall accuracy of 90% and a kappa coefficient of around 0.89. It is important to use advanced predictive models to guide sustainable urban development strategies. The model provides valuable insights for policymakers, land managers, and researchers to support sustainable land-use planning, conservation efforts, and climate change mitigation strategies. [ABSTRACT FROM AUTHOR]

Published

2024

23. Ongoing introgression of a secondary sexual plumage trait in a stable avian hybrid zone.

Author

Long, Kira M, Rivera-Colón, Angel G, Bennett, Kevin F P, Catchen, Julian M, Braun, Michael J, and Brawn, Jeffrey D

Subjects

*HYBRID zones, *NATURAL selection, *SEXUAL selection, *SINGLE nucleotide polymorphisms, *GENETIC variation

Abstract

Hybrid zones are dynamic systems where natural selection, sexual selection, and other evolutionary forces can act on reshuffled combinations of distinct genomes. The movement of hybrid zones, individual traits, or both are of particular interest for understanding the interplay between selective processes. In a hybrid zone involving two lek-breeding birds, secondary sexual plumage traits of Manacus vitellinus , including bright yellow collar and olive belly color, have introgressed ~50 km asymmetrically across the genomic center of the zone into populations more genetically similar to Manacus candei. Males with yellow collars are preferred by females and are more aggressive than parental M. candei , suggesting that sexual selection was responsible for the introgression of male traits. We assessed the spatial and temporal dynamics of this hybrid zone using historical (1989–1994) and contemporary (2017–2020) transect samples to survey both morphological and genetic variation. Genome-wide single nucleotide polymorphism data and several male phenotypic traits show that the genomic center of the zone has remained spatially stable, whereas the olive belly color of male M. vitellinus has continued to introgress over this time period. Our data suggest that sexual selection can continue to shape phenotypes dynamically, independent of a stable genomic transition between species. [ABSTRACT FROM AUTHOR]

Published

2024

24. Next‐generation species delimitation and taxonomy: Implications for biogeography.

Author

Vences, Miguel, Miralles, Aurélien, and Dufresnes, Christophe

Subjects

*BIOLOGICAL classification, *GENETIC barcoding, *BIODIVERSITY, *BIOGEOGRAPHY, *SUBSPECIES, *HYBRID zones

Abstract

An accurate species‐level taxonomy is paramount for biogeographical research, and conversely, biogeographical data are of importance for species delimitation. We here review recent developments and future perspectives of taxonomy of direct relevance for biogeographers. The understanding that species are independently evolving segments of population‐level lineages, the rise of integrative approaches to delimit such lineages, and the advent of high‐throughput sequencing have considerably renewed the discipline of taxonomy. Using genome‐scale molecular datasets, the extent of admixture across hybrid zones can now be effectively assessed and the evolutionary independence of lineages inferred, leading to more reliable and comparable species delimitation criteria. Substantially divergent but admixing phylogeographical lineages can conveniently be named as subspecies, thus avoiding taxonomic oversplitting and taxonomic inflation. At the same time, comprehensive DNA barcoding and DNA metabarcoding efforts are uncovering an enormous proportion of undiscovered biotic diversity, and we encourage the development of bioinformatic pipelines that combine high‐throughput species discovery and delimitation with diagnosis and scientific naming, to approach a biotic inventory of the globe without abandoning the established Linnaean system. [ABSTRACT FROM AUTHOR]

Published

2024

25. Sea blindness in grey zone preparations.

Author

Larsson, Oscar Leonard

Subjects

*INFRASTRUCTURE (Economics), *SOVEREIGNTY, *DRONE warfare, *HYBRID zones, *PUBLIC service advertising, *MARITIME piracy

Abstract

Although grey zone and hybrid threats, such as cyberattacks, information campaigns, and sabotage against critical infrastructure, are becoming increasingly common in the contemporary world, relatively little attention has been directed to similar threats in the maritime environment. The recent global pandemic, Russian aggression against Ukraine, the Nord Stream sabotage in 2022, the sabotage of the Finnish-Baltic pipeline in 2023 in the Baltic Sea, as well as drone attacks on shipping in the Persian Gulf are but a few examples that illustrate the fragility of international maritime communications. The present article explores the topic of grey zone and hybrid threats within the maritime environment. Based on an analysis of recent security events, particularly hybrid threats in the maritime environment, the article proposes that it is essential to seek a broader role for naval forces in supporting national sovereignty and international law and order regarding the Open Seas. The article aims to conceptualize and explore the foundations of maritime grey zone threats and the new roles of naval forces operating within this new context, asking whether the UN, through the International Maritime Organization, NATO, and the European Union, suffer from "sea blindness" concerning how they are preparing for the new world order. [ABSTRACT FROM AUTHOR]

Published

2024

26. Introducing Neurodiversity to the Physics Education Community.

Author

McDermott, Liam Gregory

Subjects

*SOCIAL model of disability, *TOURETTE syndrome, *AUTOMATICITY (Learning process), *PRAXIS (Process), *CONCEPT mapping, *SPACE, *HYBRID zones

Abstract

This article discusses the concept of neurodiversity and its relevance to the field of physics education. The author introduces neurodiversity as a paradigm shift in understanding and supporting neurodivergent students, emphasizing the importance of moving away from deficit-based frameworks. The article provides definitions of key terms related to neurodiversity and explores the differences between the neurodiversity model and the social model of disability. It also offers recommendations for educators on how to create accessible and equitable classrooms for neurodivergent students, including being flexible in documentation requirements, allowing for flexible interpretation of tasks, integrating different modalities of communication, removing time limits, scaffolding lessons, allowing makeup work, and engaging in open dialogue with neurodivergent students. [Extracted from the article]

Published

2024

27. The Fate of a Polygenic Phenotype Within the Genomic Landscapes of Introgression in the European Seabass Hybrid Zone.

Author

Leitwein, Maeva, Durif, Ghislain, Delpuech, Emilie, Gagnaire, Pierre-Alexandre, Ernande, Bruno, Vandeputte, Marc, Vergnet, Alain, Duranton, Maud, Clota, Frederic, and Allal, François

Subjects

HYBRID zones, EUROPEAN seabass, SINGLE nucleotide polymorphisms, MARICULTURE, GENE mapping

Abstract

Unraveling the evolutionary mechanisms and consequences of hybridization is a major concern in biology. Many studies have documented the interplay between recombination and selection in modulating the genomic landscape of introgression, but few have considered how associations with phenotype may affect this landscape. Here, we use the European seabass (Dicentrarchus labrax), a key species in marine aquaculture that undergoes natural hybridization, to determine how selection on phenotype modulates the introgression landscape between Atlantic and Mediterranean lineages. We use a high-density single nucleotide polymorphism array to assess individual local ancestry along the genome and improve the mapping of muscle fat content, a polygenic trait that is divergent between lineages. Taking into account variation in recombination rates, we reveal a purging of Atlantic ancestry in the admixed Mediterranean populations. While Atlantic individuals had higher muscle fat content, we observed that genomic regions associated with this trait in Mediterranean populations displayed reduced introgression of Atlantic ancestry. These results emphasize how selection against maladapted alleles shapes the genomic landscape of introgression. [ABSTRACT FROM AUTHOR]

Published

2024

28. Hybridization has localized effect on genetic variation in closely related pine species

Author

Sebastian Szczepański, Bartosz Łabiszak, Martyna Lasek, and Witold Wachowiak

Subjects

Hybrid zones, Introgression, Genetic divergence, Speciation, Interspecific gene flow, Botany, QK1-989

Abstract

Abstract Background Hybridization is a known phenomenon in nature but its genetic impact on populations of parental species remains less understood. We investigated the evolutionary consequences of the interspecific gene flow in several contact zones of closely related pine species. Using a set of genetic markers from both nuclear and organellar genomes, we analyzed four hybrid zones (384 individuals) and a large panel of reference allopatric populations of parental taxa (2104 individuals from 96 stands). Results We observed reduced genetic diversity in maternally transmitted mitochondrial genomes of pure pine species and hybrids from contact zones compared to reference allopatric populations. The distribution of mtDNA haplotypes followed geographic rather than species boundaries. Additionally, no new haplotypes emerged in the contact zones, instead these zones contained the most common local variants. However, species diverged significantly at nuclear genomes and populations in contact zones exhibited similar or higher genetic diversity compared to the reference stands. There were no signs of admixture in any allopatric population, while clear admixture was evident in the contact zones, indicating that hybridization has a geographically localized effect on the genetic variation of the analyzed pine species. Conclusions Our results suggest that hybrid zones act as sinks rather than melting pots of genetic diversity. Hybridization influences sympatric populations but is confined to contact zones. The spectrum of parental species ancestry in hybrids reflects the old evolutionary history of the sympatric populations. These findings also imply that introgression may play a crucial role in the adaptation of hybrids to specific environments.

Published

2024

29. 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

30. 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

2024

31. Climate change differentially alters distribution of two marten species in a hybrid zone.

Author

Chmura, Helen E., Olson, Lucretia E., Murdoch, Remi, Fraik, Alexandra K., Jackson, Scott, McKelvey, Kevin S., Koenig, Rex, Pilgrim, Kristine L., DeCesare, Nicholas, and Schwartz, Michael K.

Subjects

*BIOTIC communities, *SPECIES distribution, *CLIMATE change, *SPECIES hybridization, *HYBRID zones, *ENTROPY

Abstract

Species' ranges are shifting rapidly with climate change, altering the composition of biological communities and interactions within and among species. Hybridization is among the species interactions that may change markedly with climate change, yet it is understudied relative to others. We used non‐invasive genetic detections to build a maximum entropy species distribution model and investigate the factors that delimit the present and future ranges of American marten (Martes americana) and Pacific marten (Martes caurina) in a contact zone in the Northern Rockies. We found that climate change will decrease the suitable habitat predicted for both species, as well as the amount of overlap in predicted suitable habitat between the species. Interestingly, predicted suitable habitat for Pacific marten extended further north in the study region than our genetic detections for the species, suggesting that biotic factors, such as interactions with American marten, may affect the realized range of this species. Our results suggest that future work investigating the interactions among biotic and abiotic factors that influence hybrid zone dynamics is important for predicting the futures of these two species in this area under climate change. Climate change is altering the distributions of species worldwide, including those of hybridizing species. We use species distribution models, built from non‐invasive genetic detections of marten species, to show that the distributions of American marten and Pacific marten in the Northern Rockies of the United States will be differentially affected by climate change. [ABSTRACT FROM AUTHOR]

Published

2024

32. Coupling of twelve putative chromosomal inversions maintains a strong barrier to gene flow between snail ecotypes.

Author

Moan, Alan Le, Stankowski, Sean, Rafajlović, Marina, Ortega-Martinez, Olga, Faria, Rui, Butlin, Roger K, and Johannesson, Kerstin

Subjects

*CHROMOSOME inversions, *HYBRID zones, *WHOLE genome sequencing, *SINGLE nucleotide polymorphisms, *CHROMOSOMAL rearrangement

Abstract

Chromosomal rearrangements can lead to the coupling of reproductive barriers, but whether and how they contribute to the completion of speciation remains unclear. Marine snails of the genus Littorina repeatedly form hybrid zones between populations segregating for multiple inversion arrangements, providing opportunities to study their barrier effects. Here, we analyzed 2 adjacent transects across hybrid zones between 2 ecotypes of Littorina fabalis ("large" and "dwarf") adapted to different wave exposure conditions on a Swedish island. Applying whole-genome sequencing, we found 12 putative inversions on 9 of 17 chromosomes. Nine of the putative inversions reached near differential fixation between the 2 ecotypes, and all were in strong linkage disequilibrium. These inversions cover 20% of the genome and carry 93% of divergent single nucleotide polymorphisms (SNPs). Bimodal hybrid zones in both transects indicated that the 2 ecotypes of Littorina fabalis maintain their genetic and phenotypic integrity following contact. The bimodality reflects the strong coupling between inversion clines and the extension of the barrier effect across the whole genome. Demographic inference suggests that coupling arose during a period of allopatry and has been maintained for > 1,000 generations after secondary contact. Overall, this study shows that the coupling of multiple chromosomal inversions contributes to strong reproductive isolation. Notably, 2 of the putative inversions overlap with inverted genomic regions associated with ecotype differences in a closely related species (Littorina saxatilis), suggesting the same regions, with similar structural variants, repeatedly contribute to ecotype evolution in distinct species. [ABSTRACT FROM AUTHOR]

Published

2024

33. Tufted titmice, black-crested titmice, and their hybrids occupy different types of habitat within their hybrid zone.

Author

Martinez, Carli R. and Veech, Joseph A.

Subjects

DECIDUOUS forests, HUMAN settlements, MIXED forests, LAND cover, DATABASES, HYBRID zones

Abstract

Tufted Titmice (Baeolophus bicolor) (TUTI) and Black-crested Titmice (Baeolophus atricristatus) (BCTI) are sister species that hybridize within a narrow east–west contact zone that extends from central Texas into southwest Oklahoma. The zone corresponds with an ecotone that transitions from closed-canopy deciduous forests in the east, occupied by TUTI, to arid and open woodlands in the west occupied by BCTI. Furthermore, the ecotone encompasses areas impacted by urban and suburban development. We tested whether landscape-level landcover characteristics found within the TUTI × BCTI hybrid zone influence the abundances of the two parent species and their hybrids. We predicted that the parent species would differ in their habitat associations and hybrids would associate with habitats intermediate between that of TUTI and BCTI and with human disturbed habitats. In ArcGIS Pro, we used a grid-based sampling design to extract estimates of six land cover variables (derived from National Landcover Database data) and TUTI, BCTI, and hybrid abundances (derived from eBird data). Partial redundancy analysis (RDA) was used to examine the habitat associations of the three titmice types. The results revealed that TUTI associated most strongly with the percentage of mixed forest cover, and BCTI with the percentage of evergreen forest cover and impervious surface cover. No single landcover variable could be identified as a definitive association for hybrids, however, hybrid individuals do appear to be more abundant in a habitat type that is intermediate between that of the two parent species. Future studies should incorporate genotypic data from titmice in the hybrid zone and analyze habitat associations at finer spatial scales to gain a more conclusive understanding of the patterns detected in this broad scale study. [ABSTRACT FROM AUTHOR]

Published

2024

34. Genomic insights into hybrid zone formation: The role of climate, landscape, and demography in the emergence of a novel hybrid lineage.

Author

Bolte, Constance E., Phannareth, Tommy, Zavala‐Paez, Michelle, Sutara, Brianna N., Can, Muhammed F., Fitzpatrick, Matthew C., Holliday, Jason A., Keller, Stephen R., and Hamilton, Jill A.

Subjects

*HYBRID zones, *CHLOROPLAST DNA, *BLACK cottonwood, *WHOLE genome sequencing, *GENE flow, *PHYLOGEOGRAPHY, *LANDSCAPES, *GEOGRAPHY

Abstract

Population demographic changes, alongside landscape, geographic and climate heterogeneity, can influence the timing, stability and extent of introgression where species hybridise. Thus, quantifying interactions across diverged lineages, and the relative contributions of interspecific genetic exchange and selection to divergence at the genome‐wide level is needed to better understand the drivers of hybrid zone formation and maintenance. We used seven latitudinally arrayed transects to quantify the contributions of climate, geography and landscape features to broad patterns of genetic structure across the hybrid zone of Populus trichocarpa and P. balsamifera and evaluated the demographic context of hybridisation over time. We found genetic structure differed among the seven transects. While ancestry was structured by climate, landscape features influenced gene flow dynamics. Demographic models indicated a secondary contact event may have influenced contemporary hybrid zone formation with the origin of a putative hybrid lineage that inhabits regions with higher aridity than either of the ancestral groups. Phylogenetic relationships based on chloroplast genomes support the origin of this hybrid lineage inferred from demographic models based on the nuclear data. Our results point towards the importance of climate and landscape patterns in structuring the contact zones between P. trichocarpa and P. balsamifera and emphasise the value whole genome sequencing can have to advancing our understanding of how neutral processes influence divergence across space and time. [ABSTRACT FROM AUTHOR]

Published

2024

35. Hybridization in palms (Arecaceae).

Author

Bacon, Christine D. and Hill, Adrian

Subjects

*PLANT hybridization, *PLANT evolution, *LITERATURE reviews, *SPECIES diversity, *TROPICAL plants, *PALMS, *HYBRID zones

Abstract

Hybridization has significant evolutionary consequences across the Tree of Life. The process of hybridization has played a major role in plant evolution and has contributed to species richness and trait variation. Since morphological traits are partially a product of their environment, there may be a link between hybridization and ecology. Plant hybrid species richness is noted to be higher in harsh environments, and we explore this hypothesis with a keystone tropical plant lineage, palms (Arecaceae). Leveraging a recent literature review of naturally occurring palm hybrids, we developed a method to calculate hybrid frequency, and then tested if there is phylogenetic signal of hybrids using a phylogeny of all palms. Further, we used phylogenetic comparative methods to examine the interaction between hybrid frequency and presence in dry environments, on islands, and the species richness of genera. Phylogenetic generalized least squares models had stronger support than models of random association, indicating phylogenetic signal for the presence of hybrids in dry and island environments. However, all p‐values were >.05 and therefore the correlation was poor between hybridization and the trait frequencies examined. Presence in particular environments are not strongly correlated to hybrid frequency, but phylogenetic signal suggests a role in its distribution in different habitats. Hybridization in palms is not evenly distributed across subfamilies, tribes, subtribes yet plays an important role in palm diversity, nonetheless. Increasing our understanding hybridization in this economically and culturally important plant family is essential, particularly since rates are projected to increase with climate change, reconfiguring the dynamics and distribution of biodiversity. [ABSTRACT FROM AUTHOR]

Published

2024

36. 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

37. Unraveling the genomic landscape of Campylorhynchus wrens along western Ecuador's precipitation gradient: Insights into hybridization, isolation by distance, and isolation by the environment.

Author

Montalvo, Luis Daniel, Kimball, Rebecca T., Austin, James D., and Robinson, Scott K.

Subjects

*VICARIANCE, *HYBRID zones, *GENE flow, *POPULATION differentiation, *PHYLOGENY

Abstract

Environmental gradients have the potential to influence genetic differentiation among populations ultimately leading to allopatric speciation. However, environmental gradients can also facilitate hybridization between closely related taxa. We investigated a putative hybrid zone in western Ecuador, involving two polytypic wren species (Aves: Troglodytidae), Campylorhynchus zonatus and C. fasciatus. Our study addressed two primary questions: (1) Is there evidence of population structure and genetic admixture between these taxa in western Ecuador? and (2) What are the relative contributions of isolation by distance and isolation by the environment to the observed genetic differentiation along the environmental gradient in this region? We analyzed 4409 single‐nucleotide polymorphisms (SNPs) from 112 blood samples sequenced using ddRadSeq and a de novo assembly. The optimum number of genetic clusters ranged from 2 to 4, aligning with geographic origins, known phylogenetics, and physical or ecological constraints. We observed notable transitions in admixture proportions along the environmental gradient in western Ecuador between C. z. brevirostris and the northern and southern genetic clusters of C. f. pallescens. Genetic differentiation between the two C. f. pallescens populations could be attributed to an unreported potential physical barrier in central western Ecuador, where the proximity of the Andes to the coastline restricts lowland habitats, limiting dispersal and gene flow, especially among dry‐habitat specialists. The observed admixture in C. f. pallescens suggests that this subspecies may be a hybrid between C. z. brevirostris and C. fasciatus, with varying degrees of admixture in western Ecuador and northwestern Peru. We found evidence of isolation by distance, while isolation by the environment was less pronounced but still significant for annual mean precipitation and precipitation seasonality. This study enhances our understanding of avian population genomics in tropical regions. [ABSTRACT FROM AUTHOR]

Published

2024

38. Phenotypic selection patterns in a hybrid zone between two Calceolaria species with contrasting pollinators: insights from field surveys and fitness assessments.

Author

Estévez Manso Galán, Lucía, Antonetti, Marco, Ibañez, Ana C., Sérsic, Alicia N., and Cocucci, Andrea A.

Subjects

*HYBRID zones, *FIELD research, *POLLINATORS, *PHENOTYPES, *POLLEN, *SWARMING (Zoology), REPRODUCTIVE isolation

Abstract

Summary: Hybrid zones provide natural experimental settings to test hypotheses about species divergence. We concentrated on a hybrid swarm in which oil‐collecting bees and flower‐pecking birds act as pollinators of two Calceolaria species. We asked whether both pollinators contributed to flower divergence by differentially promoting prezygotic fitness at the phenotypic extremes that represent parentals.We studied pollinator‐mediated selection on phenotypic traits critical in plant–pollinator mechanical interaction, namely plant height, reward‐to‐stigma distance, and flower shape. We utilised the quantity and quality of pollen deposited as fitness measures and distinguished between the contribution of the two pollinator types.Results showed uni‐ and bivariate disruptive selection for most traits through pollen grains deposited by both pollinators. Bird‐mediated fitness favoured low plants with a long reward‐to‐stigma distance and a straight corolla, while bee‐mediated fitness favoured tall plants with a short reward‐to‐stigma distance and curved corolla. In addition, stabilising selection at one end of the phenotypic range showed a bird‐mediated reproductive asymmetry within the swarm. The disruptive pattern was countered, albeit weakly, by hybrids receiving higher‐quality pollen on the stigmas.Results suggest that pollinator‐mediated selection promotes divergence of integrated flower phenotypes mechanically adjusted either to bees or birds underscoring the importance of pollinator specialisation in diversification. [ABSTRACT FROM AUTHOR]

Published

2024

39. Contrasting effect of hybridization on genetic differentiation in three rockfish species with similar life history.

Author

Wray, Anita, Petrou, Eleni, Nichols, Krista M., Pacunski, Robert, LeClair, Larry, Andrews, Kelly S., Kardos, Marty, and Hauser, Lorenz

Subjects

*LIFE history theory, *INTROGRESSION (Genetics), *STRIPED bass, *SPECIES hybridization, *HYBRID zones, *GENETIC variation

Abstract

Hybridization can provide evolutionary benefits (e.g., population resilience to climate change) through the introduction of adaptive alleles and increase of genetic diversity. Nevertheless, management strategies may be designed based only on the parental species within a hybrid zone, without considering the hybrids. This can lead to ineffective spatial management of species, which can directly harm population diversity and negatively impact food webs. Three species of rockfish (Brown Rockfish (Sebastes caurinus), Copper Rockfish (S. auriculatus), and Quillback Rockfish (S. maliger)) are known to hybridize within Puget Sound, Washington, but genetic data from these species are used to infer population structure in the entire genus, including in species that do not hybridize. The goal of this project was to estimate the hybridization rates within the region and determine the effect of hybridization on geographic patterns of genetic structure. We sequenced 290 Brown, Copper, and Quillback rockfish using restriction‐site associated DNA sequencing (RADseq) from four regions within and outside Puget Sound, Washington. We show that (i) hybridization within Puget Sound was asymmetrical, not recent, widespread among individuals, and relatively low level within the genome, (ii) hybridization affected population structure in Copper and Brown rockfish, but not in Quillback Rockfish and (iii) after taking hybridization into account we found limited directional dispersal in Brown and Copper rockfish, and evidence for two isolated populations in Quillback Rockfish. Our results suggest that rockfish population structure is species‐specific, dependent on the extent of hybridization, and cannot be inferred from one species to another despite similar life history. [ABSTRACT FROM AUTHOR]

Published

2024

40. Maintenance of a narrow hybrid zone between native and introduced red foxes (Vulpes vulpes) despite conspecificity and high dispersal capabilities.

Author

Preckler‐Quisquater, Sophie, Quinn, Cate B., and Sacks, Benjamin N.

Subjects

*HYBRID zones, *GENE flow, *CYTOCHROME b, *CANIDAE, *SPECIES hybridization, *RED fox, *WILDLIFE reintroduction

Abstract

Human‐facilitated introductions of nonnative populations can lead to secondary contact between allopatric lineages, resulting in lineage homogenisation or the formation of stable hybrid zones maintained by reproductive barriers. We investigated patterns of gene flow between the native Sacramento Valley red fox (Vulpes vulpes patwin) and introduced conspecifics of captive‐bred origin in California's Central Valley. Considering their recent divergence (20–70 kya), we hypothesised that any observed barriers to gene flow were primarily driven by pre‐zygotic (e.g. behavioural differences) rather than post‐zygotic (e.g. reduced hybrid fitness) barriers. We also explored whether nonnative genes could confer higher fitness in the human‐dominated landscape resulting in selective introgression into the native population. Genetic analysis of red foxes (n = 682) at both mitochondrial (cytochrome b + D‐loop) and nuclear (19,051 SNPs) loci revealed narrower cline widths than expected under a simulated model of unrestricted gene flow, consistent with the existence of reproductive barriers. We identified several loci with reduced introgression that were previously linked to behavioural divergence in captive‐bred and domestic canids, supporting pre‐zygotic, yet possibly hereditary, barriers as a mechanism driving the narrowness and stability of the hybrid zone. Several loci with elevated gene flow from the nonnative into the native population were linked to genes associated with domestication and adaptation to human‐dominated landscapes. This study contributes to our understanding of hybridisation dynamics in vertebrates, particularly in the context of species introductions and landscape changes, underscoring the importance of considering how multiple mechanisms may be maintaining lineages at the species and subspecies level. [ABSTRACT FROM AUTHOR]

Published

2024

41. Cryptic hybridization between the ancient lineages of Natterer's bat (Myotis nattereri).

Author

Josić, Darija, Çoraman, Emrah, Waurick, Isabelle, Franzenburg, Sören, Ancillotto, Leonardo, Bajić, Branka, Budinski, Ivana, Dietz, Christian, Görföl, Tamás, Hayden Bofill, Sofia I., Presetnik, Primož, Russo, Danilo, Spada, Martina, Zrnčić, Vida, Blom, Mozes P. K., and Mayer, Frieder

Subjects

*HYBRID zones, *MYOTIS, *WHOLE genome sequencing, *INTROGRESSION (Genetics), *SHOTGUN sequencing, *GENE flow, *BIODIVERSITY, REPRODUCTIVE isolation

Abstract

Studying hybrid zones that form between morphologically cryptic taxa offers valuable insights into the mechanisms of cryptic speciation and the evolution of reproductive barriers. Although hybrid zones have long been the focus of evolutionary studies, the awareness of cryptic hybrid zones increased recently due to rapidly growing evidence of biological diversity lacking obvious phenotypic differentiation. The characterization of cryptic hybrid zones with genome‐wide analysis is in its early stages and offers new perspectives for studying population admixture and thus the impact of gene flow. In this study, we investigate the population genomics of the Myotis nattereri complex in one of its secondary contact zones, where a putative hybrid zone is formed between two of its cryptic lineages. By utilizing a whole‐genome shotgun sequencing approach, we aim to characterize this cryptic hybrid zone in detail. Demographic analysis suggests that the cryptic lineages diverged during the Pliocene, c. 3.6 million years ago. Despite this ancient separation, the populations in the contact zone exhibit mitochondrial introgression and a considerable amount of mixing in nuclear genomes. The genomic structure of the populations corresponds to geographic locations and the genomic admixture changes along a geographic gradient. These findings suggest that there is no effective hybridization barrier between both lineages, nevertheless, their population structure is shaped by dispersal barriers. Our findings highlight how such deeply diverged cryptic lineages can still readily hybridize in secondary contact. [ABSTRACT FROM AUTHOR]

Published

2024

42. Population structure and plastron shape variability of European pond turtles (Emys orbicularis) in the Comunitat Valenciana, Spain.

Author

BREJCHA, Jindřich, ELIÁŠOVÁ, Kristýna, BATALLER, Jose V., KLEISNER, Karel, ČTRNÁCTOVÁ, Lenka, ANDUEZA, José I. L., NEVEČEŘALOVÁ, Petra, ALCAYDE, Vicent S., and MORAVEC, Jiří

Subjects

*EMYDIDAE, *GENETIC variation, *MITOCHONDRIAL DNA, *HYBRID zones, *SEXUAL dimorphism, *CHLOROPLAST DNA, *UBIQUINONES

Abstract

The European pond turtle (Emys orbicularis) is an endangered Old World species. The phylogeographic history of E. orbicularis has been extensively studied throughout its range. While local genetic variation holds valuable information for conservation efforts, specific regional details have yet to be thoroughly examined everywhere. The Valencian region on the Iberian Peninsula is one such area. Here, different evolutionary lineages of E. orbicularis meet, forming a part of the western Mediterranean hybrid zone. In this study, we comprehensively sampled all Valencian localities where E. orbicularis occurs. Using mitochondrial DNA and nuclear microsatellites, we determined the genetic structure of E. orbicularis populations. Our data reveals that the mitochondrial haplotype originating from the glacial refugium in the Apennine Peninsula is primarily restricted to the northern part of the Valencian region. Additionally, human-mediated dispersal processes may have contributed to the complex relationships between the evolutionary lineages of E. orbicularis in the natural hybrid zone. On a finer scale, E. orbicularis in the Valencian region can be classified into five distinct genetic populations. Morphometric analyses revealed sexual dimorphism in the plastron shape and slight variation among genetic populations. Notably, female, but not male, plastron shape correlates with individual heterozygosity. Given the ongoing threat posed by exotic turtles, we propose implementing targeted management strategies to mitigate the presence of alien turtles. These strategies should be directed towards localities that represent each genetic population within the region, reflecting the extensive population structure observed in our study. [ABSTRACT FROM AUTHOR]

Published

2024

43. Mitonuclear interactions impact aerobic metabolism in hybrids and may explain mitonuclear discordance in young, naturally hybridizing bird lineages.

Author

McDiarmid, Callum S., Hooper, Daniel M., Stier, Antoine, and Griffith, Simon C.

Subjects

*AEROBIC metabolism, *CELL respiration, *HYBRID zones, *GENE regulatory networks, *INTROGRESSION (Genetics), *MITOCHONDRIA, *RESPIRATION

Abstract

Understanding genetic incompatibilities and genetic introgression between incipient species are major goals in evolutionary biology. Mitochondrial genes evolve rapidly and exist in dense gene networks with coevolved nuclear genes, suggesting that mitochondrial respiration may be particularly susceptible to disruption in hybrid organisms. Mitonuclear interactions have been demonstrated to contribute to hybrid dysfunction between deeply divergent taxa crossed in the laboratory, but there are few empirical examples of mitonuclear interactions between younger lineages that naturally hybridize. Here, we use controlled hybrid crosses and high‐resolution respirometry to provide the first experimental evidence in a bird that inter‐lineage mitonuclear interactions impact mitochondrial aerobic metabolism. Specifically, respiration capacity of the two mitodiscordant backcrosses (with mismatched mitonuclear combinations) differs from one another, although they do not differ significantly from the parental groups or mitoconcordant backcrosses as we would expect of mitonuclear disruptions. In the wild hybrid zone between these subspecies, the mitochondrial cline centre is shifted west of the nuclear cline centre, which is consistent with the direction of our experimental results. Our results therefore demonstrate asymmetric mitonuclear interactions that impact the capacity of cellular mitochondrial respiration and may help to explain the geographic discordance between mitochondrial and nuclear genomes observed in the wild. [ABSTRACT FROM AUTHOR]

Published

2024

44. Genomic and environmental insights and conservation challenges for two hybridizing iconic crocodile species across Mexico: Crocodylus acutus and C. moreletii.

Author

Suárez‐Atilano, M., Pacheco‐Sierra, G., Vázquez‐Domínguez, E., Kass, J. M., Paz, A., and Pérez‐Alquicira, J.

Subjects

*ENVIRONMENTAL protection, *ECOLOGICAL niche, *SPECIES hybridization, *ECOLOGICAL genetics, *SYMPATRIC speciation, *HYBRID zones

Abstract

Hybridization is of key relevance for conservation of wild species, and yet it is still one of the most controversial issues in conservation. Identifying historical and contemporary factors promoting the formation and maintenance of hybrids is crucial for the management of endangered species, as well as characterizing the environmental factors and patterns of habitat use among parental species and their hybrids. Crocodiles are a conservation priority group since all 23 species recognized worldwide are in a protected category and hybridization occurs between many of their species, particularly between Crocodylus acutus and C. moreletii. Their hybridization system encompasses a geographically extensive hybrid zone, where two distinct hybrids and two C. acutus lineages have diverged and only a few geographically isolated populations of both parental species remain. We used a combined approach of genome‐wide sequencing and ecological niche modeling to discern the geographic and temporal patterns of introgression, migration, and demography, and to assess the ecological niches of the distinct lineages. Our approach enabled us to determine the spatial and temporal components of the divergence and admixture events of hybrids and non‐admixed lineages, to describe the environmental characteristics and geographic extent of areas of sympatry, and to confirm human‐mediated hybridization events. Our findings also showed overall distinct ranges and ecological niches among lineages, where hybrids presented a different set of environmental requirements from both parental species. This approach can be readily applied to different taxa and ecological contexts, providing species information on genetics and the environment with direct conservation relevance. We additionally describe the various conservation challenges that C. acutus and C. moreletii currently face, highlighting that these distinct crocodile species and hybrid lineages warrant recognition and need urgent conservation effort. [ABSTRACT FROM AUTHOR]

Published

2024

45. Selection leads to remarkable variability in the outcomes of hybridisation across replicate hybrid zones.

Author

McFarlane, S. Eryn, Jahner, Joshua P., Lindtke, Dorothea, Buerkle, C. Alex, and Mandeville, Elizabeth G.

Subjects

*HYBRID zones, *GENETIC drift, *GENE frequency, *TEXTURE mapping, *GENETIC speciation, REPRODUCTIVE isolation

Abstract

Hybrid zones have been viewed as an opportunity to see speciation in action. When hybrid zones are replicated, it is assumed that if the same genetic incompatibilities are maintaining reproductive isolation across all instances of secondary contact, those incompatibilities should be identifiable by consistent patterns in the genome. In contrast, changes in allele frequencies due to genetic drift should be idiosyncratic for each hybrid zone. To test this assumption, we simulated 20 replicates of each of 12 hybrid zone scenarios with varied genetic incompatibilities, rates of migration, selection and different starting population size ratios of parental species. We found remarkable variability in the outcomes of hybridisation in replicate hybrid zones, particularly with Bateson–Dobzhansky–Muller incompatibilities and strong selection. We found substantial differences among replicates in the overall genomic composition of individuals, including admixture proportions, inter‐specific ancestry complement and number of ancestry junctions. Additionally, we found substantial variation in genomic clines among replicates at focal loci, regardless of locus‐specific selection. We conclude that processes other than selection are responsible for some consistent outcomes of hybridisation, whereas selection on incompatibilities can lead to genomically widespread and highly variable outcomes. We highlight the challenge of mapping between pattern and process in hybrid zones and call attention to how selection against incompatibilities will commonly lead to variable outcomes. We hope that this study informs future research on replicate hybrid zones and encourages further development of statistical techniques, theoretical models and exploration of additional axes of variation to understand reproductive isolation. [ABSTRACT FROM AUTHOR]

Published

2024

46. Genomic islands of speciation harbor genes underlying coloration differences in a pair of Neotropical seedeaters.

Author

Nguyen, Tram N, Repenning, Márcio, Fontana, Carla Suertegaray, and Campagna, Leonardo

Subjects

*GENETIC speciation, *WHOLE genome sequencing, *GRANIVORES, *GENE flow, *HYBRID zones, REPRODUCTIVE isolation

Abstract

Incomplete speciation can be leveraged to associate phenotypes with genotypes, thus providing insights into the traits relevant to the reproductive isolation of diverging taxa. We investigate the genetic underpinnings of the phenotypic differences between Sporophila plumbea and Sporophila beltoni. Sporophila beltoni has only recently been described based, most notably, based on differences in bill coloration (yellow vs. black in S. plumbea). Both species are indistinguishable through mtDNA or reduced-representation genomic data, and even whole-genome sequencing revealed low genetic differentiation. Demographic reconstructions attribute this genetic homogeneity to gene flow, despite divergence in the order of millions of generations. We found a narrow hybrid zone in southern Brazil where genetically, yet not phenotypically, admixed individuals appear to be prevalent. Despite the overall low genetic differentiation, we identified 3 narrow peaks along the genome with highly differentiated SNPs. These regions harbor 6 genes, one of which is involved in pigmentation (EDN3) and is a candidate for controlling bill color. Within the outlier peaks, we found signatures of resistance to gene flow, as expected for islands of speciation. Our study shows how genes related to coloration traits are likely involved in generating prezygotic isolation and establishing species boundaries early in speciation. [ABSTRACT FROM AUTHOR]

Published

2024

47. Do genetic loci that cause reproductive isolation in the lab inhibit gene flow in nature?

Author

Frayer, Megan E and Payseur, Bret A

Subjects

*GENE flow, *BIOLOGICAL evolution, *LOCUS (Genetics), *LOCUS (Mathematics), *HYBRID zones, REPRODUCTIVE isolation

Abstract

The genetic dissection of reproductive barriers between diverging lineages provides enticing clues into the origin of species. One strategy uses linkage analysis in experimental crosses to identify genomic locations involved in phenotypes that mediate reproductive isolation. A second framework searches for genomic regions that show reduced rates of exchange across natural hybrid zones. It is often assumed that these approaches will point to the same loci, but this assumption is rarely tested. In this perspective, we discuss the factors that determine whether loci connected to postzygotic reproductive barriers in the laboratory are inferred to reduce gene flow in nature. We synthesize data on the genetics of postzygotic isolation in house mice, one of the most intensively studied systems in speciation genetics. In a rare empirical comparison, we measure the correspondence of loci tied to postzygotic barriers via genetic mapping in the laboratory and loci at which gene flow is inhibited across a natural hybrid zone. We find no evidence that the two sets of loci overlap beyond what is expected by chance. In light of these results, we recommend avenues for empirical and theoretical research to resolve the potential incongruence between the two predominant strategies for understanding the genetics of speciation. [ABSTRACT FROM AUTHOR]

Published

2024

48. Human-Induced Range Expansions Result in a Recent Hybrid Zone between Sister Species of Ducks.

Author

Lavretsky, Philip, Kraai, Kevin J., Butler, David, Morel, James, VonBank, Jay A., Marty, Joseph R., Musni, Vergie M., and Collins, Daniel P.

Subjects

*HYBRID zones, *DUCKS, *ARTIFICIAL habitats, *SPECIES, *SPECIES distribution

Abstract

Landscapes are consistently under pressure from human-induced ecological change, often resulting in shifting species distributions. For some species, changing the geographical breadth of their niche space results in matching range shifts to regions other than those in which they are formally found. In this study, we employ a population genomics approach to assess potential conservation issues arising from purported range expansions into the south Texas Brush Country of two sister species of ducks: mottled (Anas fulvigula) and Mexican (Anas diazi) ducks. Specifically, despite being non-migratory, both species are increasingly being recorded outside their formal ranges, with the northeastward and westward expansions of Mexican and mottled ducks, respectively, perhaps resulting in secondary contact today. We assessed genetic ancestry using thousands of autosomal loci across the ranges of both species, as well as sampled Mexican- and mottled-like ducks from across overlapping regions of south Texas. First, we confirm that both species are indeed expanding their ranges, with genetically pure Western Gulf Coast mottled ducks confirmed as far west as La Salle county, Texas, while Mexican ducks recorded across Texas counties near the USA–Mexico border. Importantly, the first confirmed Mexican × mottled duck hybrids were found in between these regions, which likely represents a recently established contact zone that is, on average, ~100 km wide. We posit that climate- and land use-associated changes, including coastal habitat degradation coupled with increases in artificial habitats in the interior regions of Texas, are facilitating these range expansions. Consequently, continued monitoring of this recent contact event can serve to understand species' responses in the Anthropocene, but it can also be used to revise operational survey areas for mottled ducks. [ABSTRACT FROM AUTHOR]

Published

2024

49. 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

50. Drought-induced growth phenotypes are associated with genetic variation across a white pine hybrid zone.

Author

Peach, L.R., Waring, K.M., Fulé, P.Z., Eckert, A.J., Menon, M., and Swenson, J.K.

Subjects

*DROUGHT management, *WHITE pine, *HYBRID zones, *GENETIC variation, *GLOBAL warming, *PHENOTYPES, *DROUGHTS

Abstract

Understanding relationships among warming climate, increased drought severity, and the genetic architecture of hybrid drought resilience is necessary for forest conservation and management. We calculated three drought-related tree-ring-growth indices (dendrophenotypes) using tree-ring data from hybrid Pinus strobiformis–Pinus flexilis study trees at nine sites across Colorado, New Mexico, Arizona, and Texas. Along with hybrid index (percentage of P. strobiformis ancestry inherited by a single tree) and climate variables, we used dendrophenotypes to (Q1) examine relationships among climate and hybrid index, (Q2) examine relationships between dendrophenotypes and hybrid index, and (Q3) conduct a genotype–phenotype analysis. We observed a significant correlation between hybrid index and dendrophenotypes resulting from high-temperature drought in addition to a significant correlation between those dendrophenotypes and our dataset of single-nucleotide polymorphisms. We conclude that P. strobiformis–P. flexilis trees exhibiting higher hybrid indices are more resilient to high-temperature drought events and encourage future research that identifies a genetic linkage between relevant loci and their conferred physiological benefits. [ABSTRACT FROM AUTHOR]

Published

2024