Your search keyword '"GLACIAL REFUGIA"' showing total 1,687 results

1. Snow leopard phylogeography and population structure supports two global populations with single refugial origin.

Author

Cancellare, Imogene A., Weckworth, Byron, Caragiulo, Anthony, Pilgrim, Kristine L., McCarthy, Thomas M., Abdullaev, Alisher, Amato, George, Bian, Xiaoxing, Bykova, Elena, Dias-Freedman, Isabela, Gritsina, Mariya, Hennelly, Lauren M., Janjua, Safia, Johansson, Orjan, Kachel, Shannon, Karnaukhov, Alexander, Korablev, Miroslav, Kubanychbekov, Zairbek, Kulenbekov, Rahim, and Liang, Xuchang

Subjects

SNOW leopard, MITOCHONDRIAL DNA, CONSERVATION genetics, GENETIC variation, GENETIC markers, PHYLOGEOGRAPHY, MICROSATELLITE repeats

Abstract

Snow leopards (Panthera uncia) inhabit the mountainous regions of High Asia, which experienced serial glacial contraction and expansion during climatic cycles of the Pleistocene. The corresponding impacts of glacial vicariance may have alternately promoted or constrained genetic differentiation to shape the distribution of genetic lineages and population structure. We studied snow leopard phylogeography across High Asia by examining range-wide historical and contemporary genetic structure with mitochondrial DNA and microsatellite markers. We genotyped 182 individuals from across snow leopard range and sequenced portions of the mitogenome in a spatially stratified subset of 80 individuals to infer historical biogeographic and contemporary patterns of genetic diversity. We observed a lack of phylogeographic structure, and analyses suggested a single refugial origin for all sampled populations. Molecular data provided tentative evidence of a hypothesized glacial refugia in the Tian Shan-Pamir-Hindu Kush-Karakoram mountain ranges, and detected mixed signatures of population expansion. Concordant assessments of microsatellite data indicated two global genetic populations, though we detected geographic differences between historical and contemporary population structure and connectivity inferred from mitochondrial and microsatellite data, respectively. Using the largest sample size and geographic coverage to date, we demonstrate novel information on the phylogeographic history of snow leopards, and corroborate existing interpretations of snow leopard connectivity and genetic structure. We recommend that conservation efforts incorporate genetic data to define and protect meaningful conservation units and their underlying genetic diversity, and to maintain the snow leopard's adaptive potential and continued resilience to environmental changes. [ABSTRACT FROM AUTHOR]

Published

2024

2. Revealing the evolutionary history and contemporary population structure of Pacific salmon in the Fraser River through genome resequencing.

Author

Christensen, Kris A, Flores, Anne-Marie, Sakhrani, Dionne, Biagi, Carlo A, Devlin, Robert H, Sutherland, Ben J G, Withler, Ruth E, Rondeau, Eric B, and Koop, Ben F

Subjects

*SOCKEYE salmon, *COHO salmon, *CHINOOK salmon, *PACIFIC salmon, *PRINCIPAL components analysis

Abstract

The Fraser River once supported massive salmon returns. However, over the last century, the largest returns have consistently been less than half of the recorded historical maximum. There is substantial interest from surrounding communities and governments to increase salmon returns for both human use and functional ecosystems. To generate resources for this endeavor, we resequenced genomes of Chinook (Oncorhynchus tshawytscha), coho (Oncorhynchus kisutch), and sockeye salmon (Oncorhynchus nerka) from the Fraser River at moderate coverage (∼16×). A total of 954 resequenced genomes were analyzed, with 681 collected specifically for this study from tissues sampled between 1997 and 2021. An additional 273 were collected from previous studies. At the species level, Chinook salmon appeared to have 1.6–2.1× more SNPs than coho or sockeye salmon, respectively. This difference may be attributable to large historical declines of coho and sockeye salmon. At the population level, 3 Fraser River genetic groups were identified for each species using principal component and admixture analyses. These were consistent with previous research and supports the continued use of these groups in conservation and management efforts. Environmental factors and a migration barrier were identified as major factors influencing the boundaries of these genetic groups. Additionally, 20 potentially adaptive loci were identified among the genetic groups. This information may be valuable in new management and conservation efforts. Furthermore, the resequenced genomes are an important resource for contemporary genomics research on Fraser River salmon and have been made publicly available. [ABSTRACT FROM AUTHOR]

Published

2024

3. Across a phylogeographic break in the Qinling Mountains-Huaihe River Line: Quaternary evolutionary history of a medicinal and edible homologous plant (Allium macrostemon) in China

Author

Chunxue Jiang, Tian Shi, Zhongmei Mo, and Cai Zhao

Subjects

A. macrostemon, Genetic diversity, Genetic variation, Population structure, Qinling Mountains-Huaihe River Line, Glacial refugia, Ecology, QH540-549.5, Evolution, QH359-425

Abstract

Abstract Biogeographic barriers to gene flow are central to studies of plant phylogeography. There are many physical and geographic barriers in China, but few studies have used molecular ecological evidence to investigate the natural geographic isolation barrier of the Qinling Mountains-Huaihe River Line (QHL). Allium macrostemon is a precious Chinese perennial herb belonging to the Amaryllidaceae family. It is used as a food and medicine, with a variety of health and healing properties. Five SSR markers, three chloroplast DNA (cpDNA) markers (psbA-trnH, rps16 and trnL-F), one nuclear ribosomal DNA (nrDNA) marker (ITS), and simplified genome GBS sequencing were used to analyse the genetic diversity and structure of A. macrostemon. Combining SSR, cpDNA, nrDNA ITS data and GBS analysis results, we divided A. macrostemon populations into northern and southern groups, with the southern group further divided into southwestern and central-southeastern groups. Niche simulation results reveal that the distribution area of A. macrostemon will reach its maximum in the future. These data indicate that the regional separation of A. macrostemon has been maintained by the combined influence of a geographical barrier and Quaternary climate, and that the back-and-forth fluctuations of QHL and Quaternary climate have played an important role in this process. QHL acts as a north-south dividing line in phylogeography and population genetic structure, promoting physical geographic isolation. This study provides a theoretical basis for the conservation, development, and utilization of A. macrostemon resources. It further provides a reference for understanding the systematic geographical pattern of the large-scale spatial distribution of plants in China and enriches our understanding of Quaternary plant evolution in areas with complex terrain.

Published

2024

4. Phylogeography of a herbal Pinellia ternata reveals repeated range expansions and inter/postglacial recolonization routes on the fragmented distribution pattern in China.

Author

Jiang, Chunxue, Wu, Ming, He, Shanshan, Lu, Yuxia, and Zhao, Cai

Subjects

*GENETIC variation, *PLANT protection, *SPECIES distribution, *CHLOROPLAST DNA, *REFERENCE values, *PHYLOGEOGRAPHY

Abstract

Most plant phylogeographic studies in China have focused on the importance of genetic divergence and where should the shelter be located. Little attention has been paid to range expansion and recolonization routes in this region. In this study, two cpDNA fragments (psbK‐psbI and trnL‐F), two pairs of nuclear gene sequences (ITS and ETS), and nine pairs of SSR molecular markers were used, combined with Bayesian Skyline Plot method, gene barrier analysis, and species distribution models to explore the phylogeographical pattern, potential expansion routes and population dynamic history of Pinellia ternata from 22 population. The results showed that phylogeograhical pattern and genetic structure for P. ternata are effected by environmental heterogeneity and climate fluctuation, and it can be divided into two groups (Southwest group, Central and Eastern group) and thus there are at least two glacial refugia in China. Three expanding routes within groups were explored to contribute to the phylogeogrephic pattern of P. ternata based on the geographical distribution and network analysis of haplotypes. In a word, our study reveals repeated range expansions and inter/postglacial recolonization routes on the fragmented distribution pattern in China and resolves the refugia distributing in China and has also certain reference value for the protection of the medicinal plant P. ternata. [ABSTRACT FROM AUTHOR]

Published

2024

5. Genomic, morphological and physiological data support fast ecotypic differentiation and incipient speciation in an alpine diving beetle.

Author

Pallarés, Susana, Ortego, Joaquín, Carbonell, José Antonio, Franco‐Fuentes, Eduardo, Bilton, David T., Millán, Andrés, and Abellán, Pedro

Subjects

*BIOLOGICAL classification, *DYTISCIDAE, *MOUNTAIN ecology, *CLIMATE change, *GENETIC variation, *PHYLOGEOGRAPHY

Abstract

An intricate interplay between evolutionary and demographic processes has frequently resulted in complex patterns of genetic and phenotypic diversity in alpine lineages, posing serious challenges to species delimitation and biodiversity conservation planning. Here we integrate genomic data, geometric morphometric analyses and thermal tolerance experiments to explore the role of Pleistocene climatic changes and adaptation to alpine environments on patterns of genomic and phenotypic variation in diving beetles from the taxonomically complex Agabus bipustulatus species group. Genetic structure and phylogenomic analyses revealed the presence of three geographically cohesive lineages, two representing trans‐Palearctic and Iberian populations of the elevation‐generalist A. bipustulatus and another corresponding to the strictly‐alpine A. nevadensis, a narrow‐range endemic taxon from the Sierra Nevada mountain range in southeastern Iberia. The best‐supported model of lineage divergence, along with the existence of pervasive genetic introgression and admixture in secondary contact zones, is consistent with a scenario of population isolation and connectivity linked to Quaternary climatic oscillations. Our results suggest that A. nevadensis is an alpine ecotype of A. bipustulatus, whose genotypic, morphological and physiological differentiation likely resulted from an interplay between population isolation and local altitudinal adaptation. Remarkably, within the Iberian Peninsula, such ecotypic differentiation is unique to Sierra Nevada populations and has not been replicated in other alpine populations of A. bipustulatus. Collectively, our study supports fast ecotypic differentiation and incipient speciation processes within the study complex and points to Pleistocene glaciations and local adaptation along elevational gradients as key drivers of biodiversity generation in alpine environments. [ABSTRACT FROM AUTHOR]

Published

2024

6. Dispersal, glacial refugia and temperature shape biogeographical patterns in European freshwater biodiversity.

Author

Cortés‐Guzmán, Daniela, Sinclair, James, Hof, Christian, Kalusche, Jan B., and Haase, Peter

Subjects

*LAST Glacial Maximum, *ENVIRONMENTAL history, *FRESHWATER fishes, *FRESHWATER invertebrates, *SPECIES diversity, *FISH diversity

Abstract

Aim: Temperature is regarded as an important driver of broad‐scale biodiversity patterns. However, less is known of the role of dispersal in shaping broad‐scale species and trait distributions, particularly given that species had to disperse out of glacial refugia after the Last Glacial Maximum (LGM). Here, we used a unique dataset describing the distributions of freshwater fauna combined with trait information to evaluate biodiversity relationships to distance to glacial refugia and temperature. Location: Twenty‐five biogeographical regions across Europe. Time Period: Data from species occurrence were gathered in 1978. Major Taxa Studied: A total of 2816 freshwater invertebrate species and 230 freshwater fish species. Methods: Using the occurrence of invertebrate and fish species in the biogeographical regions, and publicly available trait information, we analysed patterns in diversity indices (i.e. species richness, trait richness and trait redundancy), trait distribution and species and trait β‐diversity, and their relationship to distance to known glacial refugia and regional temperature. Results: We show that distributions of European invertebrate and fish species and traits are primarily explained by distance to refugia and its covarying effect with temperature (i.e. refugia tend to be warmer). Specifically, species and trait richness were higher in regions proximate to refugia and lower in distant regions. Additionally, communities in colder and distant regions exhibited reduced niche dimensions and slower life histories, suggesting increased vulnerability to environmental change. Main Conclusions: Species more distant from their refugia were characterized by higher dispersal capacities. Accordingly, since the LGM, only a subset of species was able to colonize distant regions, while many species have spatial ranges constrained by their dispersal capacity, increasing their potential for extinction under ongoing climate change. Therefore, additional conservation measures considering species' dispersal capacities are required. [ABSTRACT FROM AUTHOR]

Published

2024

7. High dispersal ability versus migratory traditions: Fine‐scale population structure and post‐glacial colonisation in bar‐tailed godwits.

Author

Conklin, Jesse R., Verkuil, Yvonne I., Lefebvre, Margaux J. M., Battley, Phil F., Bom, Roeland A., Gill, Robert E., Hassell, Chris J., ten Horn, Job, Ruthrauff, Daniel R., Tibbitts, T. Lee, Tomkovich, Pavel S., Warnock, Nils, Piersma, Theunis, and Fontaine, Michaël C.

Subjects

*COLONIZATION (Ecology), *LAST Glacial Maximum, *SHORE birds, *MIGRATORY birds, *MIGRATORY animals, *SINGLE nucleotide polymorphisms, *FUSION reactor blankets, *AIR travel

Abstract

In migratory animals, high mobility may reduce population structure through increased dispersal and enable adaptive responses to environmental change, whereas rigid migratory routines predict low dispersal, increased structure, and limited flexibility to respond to change. We explore the global population structure and phylogeographic history of the bar‐tailed godwit, Limosa lapponica, a migratory shorebird known for making the longest non‐stop flights of any landbird. Using nextRAD sequencing of 14,318 single‐nucleotide polymorphisms and scenario‐testing in an Approximate Bayesian Computation framework, we infer that bar‐tailed godwits existed in two main lineages at the last glacial maximum, when much of their present‐day breeding range persisted in a vast, unglaciated Siberian‐Beringian refugium, followed by admixture of these lineages in the eastern Palearctic. Subsequently, population structure developed at both longitudinal extremes: in the east, a genetic cline exists across latitude in the Alaska breeding range of subspecies L. l. baueri; in the west, one lineage diversified into three extant subspecies L. l. lapponica, taymyrensis, and yamalensis, the former two of which migrate through previously glaciated western Europe. In the global range of this long‐distance migrant, we found evidence of both (1) fidelity to rigid behavioural routines promoting fine‐scale geographic population structure (in the east) and (2) flexibility to colonise recently available migratory flyways and non‐breeding areas (in the west). Our results suggest that cultural traditions in highly mobile vertebrates can override the expected effects of high dispersal ability on population structure, and provide insights for the evolution and flexibility of some of the world's longest migrations. [ABSTRACT FROM AUTHOR]

Published

2024

8. The Fast Evolution of the Stenobothrini Grasshoppers (Orthoptera, Acrididae, and Gomphocerinae) Revealed by an Analysis of the Control Region of mtDNA, with an Emphasis on the Stenobothrus eurasius Group.

Author

Sorokina, Svetlana, Sevastianov, Nikita, Tarasova, Tatiana, and Vedenina, Varvara

Subjects

*HAPLOTYPES, *MITOCHONDRIAL DNA, *PHYLOGENY, *PHYLOGEOGRAPHY, *GRASSHOPPERS, *INTROGRESSION (Genetics), *GENETIC polymorphisms

Abstract

Simple Summary: Grasshopper species of the Stenobothrini tribe are known by the wide diversity of their premating traits, such as acoustic behavior and morphological characters. However, the phylogenetic relationships, divergence time, and phylogeography of these species inferred with the mtDNA markers (the control region and the COI gene) did not reflect the species divergence. The analysis of interspecific and intraspecific variability in the control region in two hybridizing species of this genus, S. eurasius and S. hyalosuperficies, supports the hypothesis of putative hybridization between the species and shows the direction of the mtDNA introgression. The two cryptic grasshopper species of the genus Stenobothrus, S. eurasius and S. hyalosuperficies, demonstrate different acoustic behavior despite a strong similarity in morphology. A hybridization between these species is possible in the contact zone; however, there are little molecular data about the relationships of these species. The analysis of the mtDNA control region (CR) reveals that haplotypes of S. hyalosuperficies have more in common with the more distant Stenobothrus species than with the closely related S. eurasius. In the contact zone, S. eurasius has mt-haplotypes shared with S. hyalosuperficies, which might indicate an introgression of mtDNA from S. hyalosuperficies to the S. eurasius gene pool. We also analyze the structure and evolutionary rate of the mtDNA CR for the Stenobothrus genus and estimate the time of divergence of the species within the genus. The phylogenetic tree of the tribe Stenobothrini reconstructed with either the CR or COI gave the same four groups. The phylogenetic tree of the Stenobothrus genus has a star-like topology with each mtDNA haplotype found in any analyzed species, except S. eurasius, which forms a separate branch. The maximum degree of incomplete lineage sorting can demonstrate either ancestral polymorphism or introgression. [ABSTRACT FROM AUTHOR]

Published

2024

9. Geographic barriers but not life history traits shape the phylogeography of North American mammals.

Author

Jensen, Alex J., Cove, Michael V., Goldstein, Benjamin R., Kays, Roland, McShea, William, Pacifici, Krishna, Rooney, Brigit, and Kierepka, Elizabeth

Subjects

*PHYLOGEOGRAPHY, *LIFE history theory, *LITERATURE reviews, *SPECIES distribution, *MAMMALS, *BODIES of water

Abstract

Aim: Synthesize literature on genetic structure within species to understand how geographic features and species traits influence past responses to climate change. Location: North America. Time Period: We synthesized phylogeographic studies from 1978 to 2023, which describe genetic lineages that diverged during the Pleistocene (≥11,700 years ago). Major Taxa Studied: Mammals. Methods: We conducted a literature review to map genetic breaks in species distributions, then tested a set of geographic hypotheses (e.g., mountains, rivers) to explain their position by comparing break locations to a grid within each species' sampled range using logistic regression. We then conducted a meta‐analysis using species‐specific model estimates to ask if life‐history traits explained variation in which barriers were most important in species' past response to climate change. Results: Our findings reveal heterogeneity in both where North American mammal phylogeography has been studied and the density of genetic breaks across 229 species. We found relatively high concordance among carnivores, ungulates and lagomorphs, where breaks were associated with mountains, major water bodies and relatively even terrain. In contrast, we found high variability within rodents and shrews, and no evidence that intrinsic factors related to dispersal ability explained the importance of hypothesized barriers across all species. Main Conclusions: Southern Mexico is a hotspot for genetic breaks that has yet to be integrated into the broader story of North American phylogeography. We show that mountains and major water bodies play particularly important roles as barriers, but substantial variation across species within orders suggests that there is more to the story besides shared climatic or phylogenetic histories. Thus, understanding the phylogeography of individual species will continue to be important given that our results suggest high variability in how species may respond to future global change. [ABSTRACT FROM AUTHOR]

Published

2024

10. Biogeography of larches in eastern Siberia – using single nucleotide polymorphisms derived by genotyping by sequencing.

Author

Haupt, Sarah, Bernhardt, Nadine, Killing, Stefanie, Meucci, Stefano, Herzschuh, Ulrike, Zakharov, Evgenii S., Harpke, Dörte, Pestryakova, Luidmila A., and Kruse, Stefan

Subjects

*SINGLE nucleotide polymorphisms, *LAST Glacial Maximum, *BIOGEOGRAPHY, *LARCHES, *PHYLOGEOGRAPHY, *TAIGAS

Abstract

The present distribution of Siberian boreal forests that are dominated by larches (Larix spp.) is influenced, to an unknown extent, by glacial history. Knowing the past treeline dynamics can improve our understanding of future treeline shifts under changing climate. Here, we study patterns in the genetic variability of Siberian Larix to help unravel biogeographic migration routes since the Last Glacial Maximum (LGM). We infer the spatial distribution and the postglacial demographic history of Larix using genome‐wide single nucleotide polymorphisms (SNPs) derived through genotyping by sequencing (GBS) from 130 individuals sampled across eastern Siberia. Our analysis gives statistical support for two or three clusters, spanning from western to eastern Siberia. These clusters reveal a genetic structure influenced by isolation resulting from geographical distance, barriers imposed by geographic features, and distinct glacial histories. Assuming three clusters, our demographic inference indicates that the common ancestor of the current Larix populations existed in northeast Siberia well before the LGM. This suggests that Larix persisted in the northern region throughout previous glacials. Our genetic studies suggest that Larix likely survived the cold LGM in northern refugia, enabling a fast colonization of Siberia. Instead of complete repopulation from southern areas postglacially, the northernmost Larix expansion during the Holocene seems to have benefitted from refugial populations ahead of the treeline. Present‐day migration is expected to be slow initially, due to the absence of current refugial populations in the far north, in contrast to the early‐Holocene situation. [ABSTRACT FROM AUTHOR]

Published

2024

11. Genomic and ecological insights into phylogeography: the complex history of the widespread herb Carex nigra (Cyperaceae) revisited

Author

Valdés-Florido, Ana, Gómez, Inés, Escudero, Marcial, Maguilla, Enrique, Luceño, Modesto, Jiménez-Mejías, Pedro, and Benítez-Benítez, Carmen

Published

2024

12. Genetic diversity, phylogeography, and maternal origin of yak (Bos grunniens)

Author

Xingdong Wang, Jie Pei, Lin Xiong, Pengjia Bao, Min Chu, Xiaoming Ma, Yongfu La, Chunnian Liang, Ping Yan, and Xian Guo

Subjects

Genetic diversity, Mitochondrial DNA, Phylogeography, Yak, Glacial refugia, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background There is no consensus as to the origin of the domestic yak (Bos grunniens). Previous studies on yak mitochondria mainly focused on mitochondrial displacement loop (D-loop), a region with low phylogenetic resolution. Here, we analyzed the entire mitochondrial genomes of 509 yaks to obtain greater phylogenetic resolution and a comprehensive picture of geographical diversity. Results A total of 278 haplotypes were defined in 509 yaks from 21 yak breeds. Among them, 28 haplotypes were shared by different varieties, and 250 haplotypes were unique to specific varieties. The overall haplotype diversity and nucleotide diversity of yak were 0.979 ± 0.0039 and 0.00237 ± 0.00076, respectively. Phylogenetic tree and network analysis showed that yak had three highly differentiated genetic branches with high support rate. The differentiation time of clades I and II were about 0.4328 Ma, and the differentiation time of clades (I and II) and III were 0.5654 Ma. Yushu yak is shared by all haplogroups. Most (94.70%) of the genetic variation occurred within populations, and only 5.30% of the genetic variation occurred between populations. The classification showed that yaks and wild yaks were first clustered together, and yaks were clustered with American bison as a whole. Altitude had the highest impact on the distribution of yaks. Conclusions Yaks have high genetic diversity and yak populations have experienced population expansion and lack obvious phylogeographic structure. During the glacial period, yaks had at least three or more glacial refugia.

Published

2024

13. Genetic diversity and genetic structure of wild Pinellia ternata (Araceae) in China

Author

WU Min, WU Shiqi, PAN Feng, SHI Tian, and ZHAO Cai

Subjects

pinellia ternata, geographical distribution pattern, genetic diversity, genetic structure, glacial refugia, Botany, QK1-989

Abstract

Due to global climate change (especially the repeated fluctuation of the Quaternary climate) and environmental isolation have a profound impact on the genetic diversity, genetic structure, geographical distribution pattern and population historical dynamics of modern plants. We used the research method of molecular pedigree geography to analyze the three non-coding chloroplast fragments psbK-psbI, atpF-atpH and trnL-F of 212 individuals from 19 populations in China of Pinellia ternata, a Araceae Pinellia perennial herb with high value of medicin, to explore the genetic diversity, genetic structure, geographical distribution pattern and its causes, and also explore the historical dynamics of its population. The results were as follows: (1) The total haplotype diversity (Hd) of P. ternata was 0.882 and the total nucleotide diversity (π) was 1.23 × 10-3, which means high genetic diversity at the species level. (2) The results of molecular analysis of variance (AMOVA) showed that genetic variation of P. ternata occurred mainly in 89.27% of populations, with significant genetic differentiation (FST=0.909, P GST(0.01

Published

2024

14. Genetic Diversity and Phylogeography of the Relict Tree Fern Culcita macrocarpa : Influence of Clonality and Breeding System on Genetic Variation.

Author

Suárez-Santiago, Víctor N., Provan, Jim, Romero-García, Ana Teresa, and Ben-Menni Schuler, Samira

Subjects

GENETIC variation, LAST Glacial Maximum, CHLOROPLAST DNA, PHYLOGEOGRAPHY, COLONIZATION (Ecology), SPECIES distribution

Abstract

The tree fern Culcita macrocarpa, a threatened Iberian–Macaronesian endemism, represents the sole European species of the order Cyatheales. Considered a Tertiary relict of European Palaeotropical flora, its evolutionary history and genetic diversity, potentially influenced by presumed high clonal propagation, remain largely unknown. This study elucidates the phylogeographic history of C. macrocarpa, assessing the impact of vegetative reproduction on population dynamics and genetic variability. We provide genetic data from eight newly identified nuclear microsatellite loci and one plastid DNA region for 17 populations spanning the species' range, together with species distribution modeling data. Microsatellites reveal pervasive clonality in C. macrocarpa, which has varied among populations. We assess the impact of clonality on genetic diversity and evaluate how estimates of intra-population genetic diversity indices and genetic structuring are affected by the chosen definition of "individual" (focusing exclusively on genetically distinct individuals, genets, as opposed to considering all independent clonal replicates, ramets). We identify two main population groups, one in the northern Iberian Peninsula and the other in the Macaronesian archipelagos and southern Iberian Peninsula. Within each group, we found relict populations (in the Azores and the Cantabrian Cornice) as well as recent originated populations. This population structure suggests colonization dynamics in which recent populations originated from one or a few genets of relict populations and became established through intra-gametophytic self-fertilization and vegetative expansion. DAPC analysis facilitated the identification of alleles that most significantly contributed to the observed population structure. The current Andalusian populations appear to have originated from colonization events from the Azores and the Cantabrian Cornice. Our findings suggest that C. macrocarpa persisted through the Last Glacial Maximum in two refugia: the Azores and the Cantabrian Cornice. Colonization into new areas occurred presumably from these refuges, generating two large population groups with structured genetic diversity. This study underscores the significance of clonality in establishing new populations and shaping genetic structure. [ABSTRACT FROM AUTHOR]

Published

2024

15. How dispersal rates depend on the prey capture strategy: A case study of Georgia's spiders.

Author

Tarkhnishvili, David, Seropian, Armen, Erhardt, Christoph, Kachlishvili, Nino, Krammer, Hans‐Joachim, and Hein, Nils

Subjects

*WOLF spiders, *JUMPING spiders, *SPIDERS, *LINYPHIIDAE, *COBWEB weavers, *GENETIC variation

Abstract

Large‐scale barcoding projects help to aggregate information on genetic variability of multiple species throughout their ranges. Comparing DNA sequences of both non‐conspecific and conspecific individuals from distant parts of their ranges helps to compare level of genetic isolation‐by‐distance patterns in different species and adaptive types. We compared mitochondrial CO1 gene sequences of 223 spiders from Georgia (Caucasus), representing 124 species and eight families, with 3097 homological sequences from spiders mostly from Europe, but also from other parts of the World. In most families, a significant isolation‐by distance pattern was observed on family level. On species level, a significant isolation‐by‐distance was observed in 40 species, although this low proportion is most likely related to a lack of data. Simultaneously, remarkable differences in spatial structure were shown for different species. Although the majority of the studied species have a broad western Palearctic range, web‐building spiders from families Araneidae, Theridiidae, and Linyphiidae are less isolated spatially than flower spiders (Thomisidae), jumping spiders (Salticidae), wolf spiders (Lycosidae), sac spiders (Clubionidae), and ground spiders (Gnaphosidae). This pattern is related with more common ballooning in web building than in actively hunting spiders, which commonly remain isolated since preglacial time. Ground spiders build the most isolated populations in the Caucasus. [ABSTRACT FROM AUTHOR]

Published

2024

16. Mid‐Pleistocene events influenced the current spatial structure of genetic diversity in Scots pine (Pinus sylvestris L.).

Author

Łabiszak, Bartosz and Wachowiak, Witold

Subjects

*GENETIC variation, *SCOTS pine, *LAST Glacial Maximum, *SINGLE nucleotide polymorphisms, *GENE flow, *SPECIES distribution

Abstract

Scots pine (Pinus sylvestris L.) is one of the most important tree species of the temperate and boreal zones in Eurasia. Its wide distribution range and current patterns of genetic variation have been influenced by Quaternary climatic oscillations and the demographic processes connected to them. In order to better understand the relationship between evolutionary history and demographic factors in a widespread species with a large genome, we used the single‐nucleotide polymorphism (SNP) array to genotype thousands of SNP markers across 62 natural populations (N = 686 trees) of Scots pine in Eurasia. This provides the largest range‐wide SNPs' genetic diversity assessment of Scots pine to date. Our findings show evidence of past admixture events between genetic clusters that were retained despite the potential for effective pollen‐mediated gene flow across the species' distribution range. We also examined the contemporary population structure of the species and analyzed the range‐wide genetic diversity patterns. Phylogenetic analyses and demographic modeling suggest that the observed divergence patterns between genetic lineages likely predate the last glaciation events. Two of the most distinctive groups are represented by trees from the eastern parts of Fennoscandia and Eastern Russia, which have remained separated since the mid‐Pleistocene. The patterns of genetic variation also confirm the dual colonization of Fennoscandia and the existence of an admixture zone in Central Europe that was formed during multiple waves of postglacial recolonization. This study provides insights into the genetic relationships of Scots pine populations from Europe and Asia and offers a more comprehensive understanding of the species' history. Highlights: •A range‐wide population genomic study of important highly outcrossing and wind‐dispersed Eurasian conifer (Pinus sylvestris) was carried out.•The signature of distinct genetic lineages was maintained across populations despite putative efficient gene flow.•Patterns of spatial genetic variation were shaped long before the Last Glacial Maximum. [ABSTRACT FROM AUTHOR]

Published

2024

17. Parallel patterns of genetic diversity and structure in circumboreal species of the Sphagnum capillifolium complex.

Author

Imwattana, Karn, Aguero, Blanka, Nieto‐Lugilde, Marta, Duffy, Aaron, Jaramillo‐Chico, Juan, Hassel, Kristian, Afonina, Olga, Lamkowski, Paul, and Jonathan Shaw, A.

Subjects

*GENETIC variation, *LAST Glacial Maximum, *PEAT mosses, *SPECIES, *TUNDRAS, *PLANT anatomy, *BOGS

Abstract

Premise: Shared geographical patterns of population genetic variation among related species is a powerful means to identify the historical events that drive diversification. The Sphagnum capillifolium complex is a group of closely related peat mosses within the Sphagnum subgenus Acutifolia and contains several circumboreal species whose ranges encompass both glaciated and unglaciated regions across the northern hemisphere. In this paper, we (1) inferred the phylogeny of subg. Acutifolia and (2) investigated patterns of population structure and genetic diversity among five circumboreal species within the S. capillifolium complex. Methods: We generated RAD sequencing data from most species of the subg. Acutifolia and samples from across the distribution ranges of circumboreal species within the S. capillifolium complex. Results: We resolved at least 14 phylogenetic clusters within the S. capillifolium complex. Five circumboreal species show some common patterns: One population system comprises plants in eastern North America and Europe, and another comprises plants in the Pacific Northwest or around the Beringian and Arctic regions. Alaska appears to be a hotspot for genetic admixture, genetic diversity, and sometimes endemic subclades. Conclusions: Our results support the hypothesis that populations of five circumboreal species within the S. capillifolium complex survived in multiple refugia during the last glacial maximum. Long‐distance dispersal out of refugia, population bottlenecks, and possible adaptations to conditions unique to each refugium could have contributed to current geographic patterns. These results indicate the important role of historical events in shaping the complex population structure of plants with broad distribution ranges. [ABSTRACT FROM AUTHOR]

Published

2024

18. 中国野生半夏的遗传多样性和遗传结构研究.

Author

吴 敏, 吴诗琪, 潘 凤, 石 甜, and 赵 财

Abstract

Due to global climate change(especially the repeated fluctuation of the Quaternary climate)and environmental isolation have a profound impact on the genetic diversity, genetic structure, geographical distribution pattern and population historical dynamics of modern plants. We used the research method of molecular pedigree geography to analyze the three non-coding chloroplast fragments psbK-psbI, atpF-atpH and trnL-F of 212 individuals from 19 populations in China of Pinellia ternata, a Araceae Pinellia perennial herb with high value of medicin, to explore the genetic diversity, genetic structure, geographical distribution pattern and its causes, and also explore the historical dynamics of its population. The results were as follows: (1) The total haplotype diversity (Hd) of P. ternata was 0.882 and the total nucleotide diversity (π) was 1.23 × 10-3, which means high genetic diversity at the species level. (2) The results of molecular analysis of variance (AMOVA) showed that genetic variation of P. ternata occurred mainly in 89.27% of populations, with significant genetic differentiation (FST=0.909, P<0.001) and lower within population genetic diversity(HS=0.134). The coefficient of genetic differentiation among populations was 0.855 and 0.913 respectively, NST> GST (0.01

Published

2024

19. Phylogeography of a herbal Pinellia ternata reveals repeated range expansions and inter/postglacial recolonization routes on the fragmented distribution pattern in China

Author

Chunxue Jiang, Ming Wu, Shanshan He, Yuxia Lu, and Cai Zhao

Subjects

genetic diversity, glacial refugia, P. ternata, population structure, range expansion, Ecology, QH540-549.5

Abstract

Abstract Most plant phylogeographic studies in China have focused on the importance of genetic divergence and where should the shelter be located. Little attention has been paid to range expansion and recolonization routes in this region. In this study, two cpDNA fragments (psbK‐psbI and trnL‐F), two pairs of nuclear gene sequences (ITS and ETS), and nine pairs of SSR molecular markers were used, combined with Bayesian Skyline Plot method, gene barrier analysis, and species distribution models to explore the phylogeographical pattern, potential expansion routes and population dynamic history of Pinellia ternata from 22 population. The results showed that phylogeograhical pattern and genetic structure for P. ternata are effected by environmental heterogeneity and climate fluctuation, and it can be divided into two groups (Southwest group, Central and Eastern group) and thus there are at least two glacial refugia in China. Three expanding routes within groups were explored to contribute to the phylogeogrephic pattern of P. ternata based on the geographical distribution and network analysis of haplotypes. In a word, our study reveals repeated range expansions and inter/postglacial recolonization routes on the fragmented distribution pattern in China and resolves the refugia distributing in China and has also certain reference value for the protection of the medicinal plant P. ternata.

Published

2024

20. Across a phylogeographic break in the Qinling Mountains-Huaihe River Line: Quaternary evolutionary history of a medicinal and edible homologous plant (Allium macrostemon) in China

Author

Jiang, Chunxue, Shi, Tian, Mo, Zhongmei, and Zhao, Cai

Published

2024

21. Genetic diversity, phylogeography, and maternal origin of yak (Bos grunniens)

Author

Wang, Xingdong, Pei, Jie, Xiong, Lin, Bao, Pengjia, Chu, Min, Ma, Xiaoming, La, Yongfu, Liang, Chunnian, Yan, Ping, and Guo, Xian

Published

2024

22. Riverscape genetics of the orangethroat darter complex.

Author

Belcik, John T. and Ashley, Mary V.

Subjects

*GENETICS, *GENETIC variation, *GENE flow, *WATERSHEDS, *INTROGRESSION (Genetics), *SPECIES diversity

Abstract

Freshwater darters belonging to the orangethroat darter species complex, or Ceasia, are widely distributed in the Central and Southern United States, with ranges that span both glaciated and unglaciated regions. Up to 15 species have been recognized in the complex, with one, Etheostoma spectabile, having a widespread northern distribution and another, Etheostoma pulchellum, having a sizeable southern distribution. The other species in the complex have much more restricted distributions in unglaciated regions of the Central Highlands. We sampled 384 darters from 52 sites covering much of the range of Ceasia and evaluated patterns of genetic diversity, genetic structure, and pre‐ and post‐glacial patterns of range contraction and expansion. We anticipated finding much stronger signals of genetic differentiation and diversification in unglaciated regions, given the higher species diversity and levels of endemism reported there. Surprisingly, microsatellite genotyping revealed two well‐differentiated genetic clusters of E. spectabile in samples from glaciated regions, one confined to the Illinois River basin and another found in the Wabash drainage and Great Lakes tributaries. This suggests that there was expansion from two isolated glacial refugia, with little subsequent post‐glacial gene flow. Fish collected from throughout the unglaciated region were less genetically differentiated. Fish assigned to Etheostoma burri and Etheostoma uniporum based on collection sites and morphological characters were not genetically differentiated from E. spectabile samples from the region. Hybridization and introgression occurring in the Central Highlands may confound genetic delineation of species in this region of high endemism and diversity. [ABSTRACT FROM AUTHOR]

Published

2024

23. Maintenance of species boundaries amid hybridization in two island gingers with similar ecological niches.

Author

Chai, Min-Wei, Lu, Hsin-Pei, Tseng, Yi-Ting, and Liao, Pei-Chun

Subjects

*ECOLOGICAL niche, *SPECIES hybridization, *INTROGRESSION (Genetics), *GINGER, *SPECIES, *LAST Glacial Maximum, REPRODUCTIVE isolation

Abstract

Understanding species boundaries maintenance in the face of hybridization/introgression is an intriguing yet complex topic in evolutionary biology. The underlying mechanisms, however, remain elusive. To address this, we propose to investigate the role of climatic shifts in shaping genetic structure and influencing species boundaries. We combine multilocus genetic data and species distribution modeling to explore how past and current climatic shifts affect the genetic structure and demographic history of two Taiwan endemic gingers, Zingiber pleiostachyum and Z. shuanglongense. We identified a well-delimited genetic structure with evidence of admixture, indicating incomplete reproductive isolation between the two gingers. This is likely due to secondary contact and range overlap during the last glacial maximum, leading to sporadic instances of hybridization. Niche overlap tests based on climate and soil data indicate that these two gingers occupy similar but nonidentical ecological niches. Furthermore, we found that the considerable differences in their current geographic distribution and altitude preferences might have resulted from different seed dispersal capabilities and competitive exclusion due to their similar niche preferences. Our results reveal a model where altitudinal differentiation and dispersal strategy synergistically reinforce the species divergence, thereby illuminating the importance of these factors in shaping and maintaining the island's biodiversity. [ABSTRACT FROM AUTHOR]

Published

2024

24. Rapid diversification of grey mangroves (Avicennia marina) driven by geographic isolation and extreme environmental conditions in the Arabian Peninsula.

Author

Friis, Guillermo, Smith, Edward G., Lovelock, Catherine E., Ortega, Alejandra, Marshell, Alyssa, Duarte, Carlos M., and Burt, John A.

Subjects

*MANGROVE plants, *AVICENNIA, *BIOLOGICAL systems, *GENE flow, *BODY temperature regulation, *GLACIATION

Abstract

Biological systems occurring in ecologically heterogeneous and spatially discontinuous habitats provide an ideal opportunity to investigate the relative roles of neutral and selective factors in driving lineage diversification. The grey mangroves (Avicennia marina) of Arabia occur at the northern edge of the species' range and are subject to variable, often extreme, environmental conditions, as well as historic large fluctuations in habitat availability and connectivity resulting from Quaternary glacial cycles. Here, we analyse fully sequenced genomes sampled from 19 locations across the Red Sea, the Arabian Sea and the Persian/Arabian Gulf (PAG) to reconstruct the evolutionary history of the species in the region and to identify adaptive mechanisms of lineage diversification. Population structure and phylogenetic analyses revealed marked genetic structure correlating with geographic distance and highly supported clades among and within the seas surrounding the Arabian Peninsula. Demographic modelling showed times of divergence consistent with recent periods of geographic isolation and low marine connectivity during glaciations, suggesting the presence of (cryptic) glacial refugia in the Red Sea and the PAG. Significant migration was detected within the Red Sea and the PAG, and across the Strait of Hormuz to the Arabian Sea, suggesting gene flow upon secondary contact among populations. Genetic‐environment association analyses revealed high levels of adaptive divergence and detected signs of multi‐loci local adaptation driven by temperature extremes and hypersalinity. These results support a process of rapid diversification resulting from the combined effects of historical factors and ecological selection and reveal mangrove peripheral environments as relevant drivers of lineage diversity. [ABSTRACT FROM AUTHOR]

Published

2024

25. Diverse Communities of Endemic and Cosmopolitan Lineages at Local Sites in the Lecanora polytropa Aggregate (Ascomycota).

Author

Woodhouse, John, Pérez-Ortega, Sergio, Roux, Claude, Bertrand, Michel, and Leavitt, Steven D.

Subjects

*BIOLOGICAL classification, *LICHENS, *ASCOMYCETES, *GENETIC barcoding, *GENETIC variation, *ENDEMIC species

Abstract

Recent work has suggested exceptional species-level diversity in the lichen-forming Lecanora polytropa complex (Lecanoraceae, Ascomycota). However, biogeographic patterns and the spatial structuring of this diversity remains poorly known. To investigate diversity across multiple spatial scales, we sampled members of this species complex from two distinct regions—the Pacific Coast Ranges in southern Alaska, USA, and montane habitats in Spain. We also included sequence data from several species within this complex that were recently described from populations in France. Using the standard DNA barcoding marker and a sequence-based species delimitation approach (ASAP), we inferred a total of 123 candidate species (SHs) within the Lecanora polytropa complex, 32 of which were sampled for the first time here. Of 123 SHs, 21 had documented intercontinental distributions, while the vast majority were found at much smaller spatial scales. From our samples collected from Alaska, USA, and Spain, representing 36 SHs, we found high genetic diversity occurring within each sampled site, but limited overlap among all sites. Mountain ranges in both regions had high proportions of endemic lineages, with the highest diversity and endemism occurring in mountain ranges in Spain. Our sequence data generally support the recent taxonomic proposals, and an integrative taxonomy may help partly resolve the taxonomic conundrums within this hyper-diverse lineage. [ABSTRACT FROM AUTHOR]

Published

2024

26. Phylogeography reveals the complex impact of the Last Glacial Maximum on New Zealand's terrestrial biota.

Author

Marske, Katharine A. and Boyer, Sarah L.

Subjects

*LAST Glacial Maximum, *PHYLOGEOGRAPHY, *BIOTIC communities, *GLACIATION, *PLEISTOCENE Epoch, NEW Zealand history

Abstract

We review the major phylogeographic patterns in Aotearoa New Zealand's terrestrial flora and fauna that have been associated with the Ōtira Glaciation of the Pleistocene, the end of which coincides with the global Last Glacial Maximum (LGM). We focus on (1) the complexity of biogeographic histories of New Zealand species, with LGM-driven phenomena overlaying the impacts of mountain-building and other drivers of phylogeographic structure; (2) the locations of glacial refugia and sets of taxa which may have shared refugia; and (3) the role of glaciation in driving diversification. We end with a brief focus on the next directions, including what can we learn about New Zealand's glacial history by expanding our phylogeographic toolbox to include genomic methods and hypothesis-driven inference methods. We provide follow-up questions which take advantage of the wealth of phylogeographic data for New Zealand. [ABSTRACT FROM AUTHOR]

Published

2024

27. Tracing the Maternal Line in Glacial–Interglacial Migrations of Populus tremuloides : Finding Trees for Future Sustainable Forests by Searching in the Past.

Author

Tembrock, Luke R., Zink, Frida A., Zhang, Guozhe, Schuhmann, Andrea, Gu, Cuihua, and Wu, Zhiqiang

Abstract

Maintaining and planting sustainable forests is fundamental in perpetuating the essential functions of these ecosystems. A central aspect of managing forests for future resilience is the consideration of past migration and evolution of trees using genetic and genomic data to ensure that functionally appropriate diversity is conserved and utilized. In our study, we generated and compared genetic and genomic data from the plastome to better understand phylogeography and molecular evolution in the tree species Populus tremuloides (aspen). With these analyses, we found evidence of divergence and migration between northern and southern sites. Additionally, evidence of deep incomplete plastome sorting across the Salicaceae was found when examining insertion–deletion (indel) sites associated with DNA repair. By examining these indels in plastomic genes with introns across Salicaceae, we found a strong correlation between the abundance of DNA repair with genomic position and transcript abundance. From our findings, we conclude that previously ignored plastomic data are essential in understanding phylogeography and the evolution of key metabolic processes for improved aspen forest planning. Given the propensity of aspen forests to host high levels of biodiversity, rapidly sequester carbon, absorb excess nitrogen, and efficiently regulate snowmelt, improvements to planning and conservation will be highly impactful. [ABSTRACT FROM AUTHOR]

Published

2024

28. Macroecology of Dung Beetles in Italy.

Author

Fattorini, Simone, Vitozzi, Alessia, Di Biase, Letizia, and Bergamaschi, Davide

Subjects

*DUNG beetles, *GRAZING, *MACROECOLOGY, *SPECIES diversity, *STOCHASTIC processes, *SPECIES distribution, *MARINE biodiversity, *COLD adaptation

Abstract

Simple Summary: Dung beetle communities include three groups of insects: the true dung beetles (scarabaeines), the small dung beetles (aphodiines), and the earth-boring dung beetles (geotrupids). The Italian dung beetle fauna is one of the richest in Europe due to the position of the Italian peninsula in the middle of the Mediterranean global hotspot of biodiversity. Dung beetle faunas in the Italian peninsula appear to be richer than that of Sardinia, which has a distinctly impoverished fauna due to its strong isolation from the mainland. Dung beetle species richness varies along the Italian peninsula in response to climatic factors. Aphodiines (that need to use the dung before it dries) are mainly associated with humid and cold climates and do not show a latitudinal pattern, while scarabaeines (which can cope with dry conditions) increase their diversity southward. Dung beetle species composition in Italian regions reflects both random processes of dispersal (possibly favored by human influences due to millennia of grazing activities) and the role of southern areas as refugia during Pleistocene glacials. The Italian fauna includes about 170 species/subspecies of dung beetles, being one of the richest in Europe. We used data on dung beetle distribution in the Italian regions to investigate some macroecological patterns. Specifically, we tested if species richness decreased southward (peninsula effect) or northward (latitudinal gradient). We also considered the effects of area (i.e., the species–area relationship), topographic complexity, and climate in explaining dung beetle richness. Finally, we used multivariate techniques to identify biotic relationships between regions. We found no support for the peninsula effect, whereas scarabaeines followed a latitudinal gradient, thus supporting a possible role of southern areas as Pleistocene refuges for this group of mainly thermophilic beetles. By contrast, aphodiines were more associated with cold and humid climates and do not show a distinct latitudinal pattern. In general, species richness was influenced by area, with the Sardinian fauna being however strongly impoverished because of its isolation. Faunal patterns for mainland regions reflect the influence of current ecological settings and historical factors (Pleistocene glaciations) in determining species distributions. [ABSTRACT FROM AUTHOR]

Published

2024

29. How dispersal rates depend on the prey capture strategy: A case study of Georgia's spiders

Author

David Tarkhnishvili, Armen Seropian, Christoph Erhardt, Nino Kachlishvili, Hans‐Joachim Krammer, and Nils Hein

Subjects

Araneae, DNA barcoding, glacial refugia, isolation‐by‐distance, molecular divergence rates, postglacial expansion, Ecology, QH540-549.5

Abstract

Abstract Large‐scale barcoding projects help to aggregate information on genetic variability of multiple species throughout their ranges. Comparing DNA sequences of both non‐conspecific and conspecific individuals from distant parts of their ranges helps to compare level of genetic isolation‐by‐distance patterns in different species and adaptive types. We compared mitochondrial CO1 gene sequences of 223 spiders from Georgia (Caucasus), representing 124 species and eight families, with 3097 homological sequences from spiders mostly from Europe, but also from other parts of the World. In most families, a significant isolation‐by distance pattern was observed on family level. On species level, a significant isolation‐by‐distance was observed in 40 species, although this low proportion is most likely related to a lack of data. Simultaneously, remarkable differences in spatial structure were shown for different species. Although the majority of the studied species have a broad western Palearctic range, web‐building spiders from families Araneidae, Theridiidae, and Linyphiidae are less isolated spatially than flower spiders (Thomisidae), jumping spiders (Salticidae), wolf spiders (Lycosidae), sac spiders (Clubionidae), and ground spiders (Gnaphosidae). This pattern is related with more common ballooning in web building than in actively hunting spiders, which commonly remain isolated since preglacial time. Ground spiders build the most isolated populations in the Caucasus.

Published

2024

30. The Fast Evolution of the Stenobothrini Grasshoppers (Orthoptera, Acrididae, and Gomphocerinae) Revealed by an Analysis of the Control Region of mtDNA, with an Emphasis on the Stenobothrus eurasius Group

Author

Svetlana Sorokina, Nikita Sevastianov, Tatiana Tarasova, and Varvara Vedenina

Subjects

acoustic communication, divergence rate, phylogeny, contact zone, glacial refugia, Science

Abstract

The two cryptic grasshopper species of the genus Stenobothrus, S. eurasius and S. hyalosuperficies, demonstrate different acoustic behavior despite a strong similarity in morphology. A hybridization between these species is possible in the contact zone; however, there are little molecular data about the relationships of these species. The analysis of the mtDNA control region (CR) reveals that haplotypes of S. hyalosuperficies have more in common with the more distant Stenobothrus species than with the closely related S. eurasius. In the contact zone, S. eurasius has mt-haplotypes shared with S. hyalosuperficies, which might indicate an introgression of mtDNA from S. hyalosuperficies to the S. eurasius gene pool. We also analyze the structure and evolutionary rate of the mtDNA CR for the Stenobothrus genus and estimate the time of divergence of the species within the genus. The phylogenetic tree of the tribe Stenobothrini reconstructed with either the CR or COI gave the same four groups. The phylogenetic tree of the Stenobothrus genus has a star-like topology with each mtDNA haplotype found in any analyzed species, except S. eurasius, which forms a separate branch. The maximum degree of incomplete lineage sorting can demonstrate either ancestral polymorphism or introgression.

Published

2024

31. Haplotype diversity patterns in Quercus suber (Fagaceae) inferred from cpDNA sequence data.

Author

Sousa, Filipe, Viegas, Mariana Bray, Costa, Joana, Marques, Isabel, Pina-Martins, Francisco, Simões, Fernanda, Matos, José, Glushkova, Maria, Miguel, Célia, Veloso, Maria Manuela, Oliveira, M. Margarida, Ricardo, Cândido Pinto, Batista, Dora, and Paulo, Octávio S.

Subjects

*CORK oak, *CHLOROPLAST DNA, *HAPLOTYPES, *HAPLOGROUPS, *FAGACEAE, *SPECIES distribution

Abstract

Chloroplast genome diversity in cork oak (Quercus suber) is characterised by the occurrence of haplotypes that are akin to those found in other Mediterranean oak species, particularly in Q. ilex and Q. rotundifolia, suggesting the possible presence of an introgressed chloroplast lineage. To further investigate this pattern, we reconstructed chloroplast haplotypes by sequencing four chloroplast markers (cpDNA), sampled across 181 individuals and 10 taxa. Our analyses resulted in the identification of two diversified chloroplast haplogroups in Q. suber, corresponding to a geographically widespread lineage and an Afro-Iberian lineage. Time-calibrated phylogenetic analyses of cpDNA point to a Miocene origin of the two haplogroups in Q. suber, suggesting that the Afro-Iberian lineage was present in cork oak before the onset of glaciation periods. The persistence of the two haplogroups in the western part of the species distribution range may be a consequence of either ancient introgression events or chloroplast lineage sorting, combined with different fixation in refugia through glaciation periods. Our results provide a comprehensive insight on the origins of chloroplast diversity in these ecologically and economically important Mediterranean oaks. [ABSTRACT FROM AUTHOR]

Published

2023

32. Insights into the genetic makeup of French Polynesian peripheral populations of the small giant clam Tridacna maxima.

Author

Riquet, Florentine, Horaud, Mathilde, Dubousquet, Vaimiti, Tiavouane, Josina, Lopes, Carmela, Raharivelomanana, Phila, Berteaux‐Lecellier, Véronique, Planes, Serge, Grulois, Daphné, Andréfouët, Serge, Van Wynsberge, Simon, Borsa, Philippe, Lecellier, Gaël, and Fauvelot, Cécile

Subjects

ARCHIPELAGOES, REPRODUCTIVE isolation, GENETIC variation, CLAMS, GENE flow, MICROSATELLITE repeats

Abstract

The small giant clam, Tridacna maxima, is distributed from the Red Sea and East African coast to French Polynesia. Across this widespread Indo‐Pacific range, T. maxima shows strong population structure, in agreement with its limited dispersal abilities.Peripheral populations may have smaller effective population sizes, increasing their vulnerability under any environmental changes. Understanding evolutionary processes at play in such regions located at the edges of T. maxima distribution is a prerequisite in the context of transfers and restocking programmes.In this study, giant clams were sampled from 14 atolls and islands within four archipelagos in the peripheral region of French Polynesia, in 2001–2002 and/or in 2012–2013, then genotyped at the COI gene and at nine microsatellite loci.Mitochondrial lineages of T. maxima from French Polynesia diverged from those sampled in Micronesia, Melanesia, the Coral Triangle and the Red Sea by 6.6–7.3%. Within French Polynesia, significant genetic structure was found, indicating restricted gene flow, and it was stable through time. Most of the genetic variation at microsatellite loci was between archipelagos. The most differentiated archipelago was the most geographically isolated (the Austral Islands).The current patterns of genetic structuring of T. maxima in French Polynesia probably result from long‐term genetic isolation with limited dispersal ability. In addition, these results underlined that sufficiently large populations of T. maxima have persisted in the Central Pacific during the last sea‐level regression.Strategies to optimize transfers and restocking programmes should be designed to preserve the genetic diversity and structure observed here, to avoid the risks of altering the genetic structure, allele loss and/or introduction of maladapted alleles in the receiving populations. [ABSTRACT FROM AUTHOR]

Published

2023

33. Postglacial phylogeography, admixture, and evolution of red spruce (Picea rubens Sarg.) in Eastern North America.

Author

Bashalkhanov, Stanislav, Johnson, Jeremy S., and Rajora, Om P.

Subjects

SPRUCE, NORWAY spruce, PHYLOGEOGRAPHY, BLACK spruce, GENETIC variation, AIR pollution

Abstract

Climate change is a major evolutionary force that can affect the structure of forest ecosystems worldwide. Red spruce (Picea rubens Sarg.) has recently faced a considerable decline in the Southern Appalachians due to rapid environmental change, which includes historical land use, and atmospheric pollution. In the northern part of its range, red spruce is sympatric with closely related black spruce (Picea mariana (Mill.) B.S.P.), where introgressive hybridization commonly occurs. We investigated range-wide population genetic diversity and structure and inferred postglacial migration patterns and evolution of red spruce using nuclear microsatellites. Moderate genetic diversity and differentiation were observed in red spruce. Genetic distance, maximum likelihood and Bayesian analyses identified two distinct population clusters: southern glacial populations, and the evolutionarily younger northern populations. Approximate Bayesian computation suggests that patterns of admixture are the result of divergence of red spruce and black spruce from a common ancestor and then introgressive hybridization during post-glacial migration. Genetic diversity, effective population size (Ne) and genetic differentiation were higher in the northern than in the southern populations. Our results along with previously available fossil data suggest that Picea rubens and Picea mariana occupied separate southern refugia during the last glaciation. After initial expansion in the early Holocene, these two species faced a period of recession and formed a secondary coastal refugium, where introgressive hybridization occurred, and then both species migrated northward. As a result, various levels of black spruce alleles are present in the sympatric red spruce populations. Allopatric populations of P. rubens and P. mariana have many species-specific alleles and much fewer alleles from common ancestry. The pure southern red spruce populations may become critically endangered under projected climate change conditions as their ecological niche may disappear. [ABSTRACT FROM AUTHOR]

Published

2023

34. Evolutionary dynamics of Euphorbia carniolica suggest a complex Plio–Pleistocene history of understorey species of deciduous forest in southeastern Europe.

Author

Kirschner, Philipp, Záveská, Eliška, Hülber, Karl, Wessely, Johannes, Willner, Wolfgang, Schönswetter, Peter, and Frajman, Božo

Subjects

*DECIDUOUS forests, *EUPHORBIA, *FOREST dynamics, *FORESTS & forestry, *SPECIES distribution, *GENETIC variation, *EVOLUTIONARY algorithms

Abstract

Deciduous forests form the dominant natural vegetation of Europe today, but were restricted to small refugia during Pleistocene cold stages, implying an evolutionary past shaped by recurrent range contractions and expansions. Cold‐stage forest refugia were probably widespread in southern and central Europe, with the northwestern Balkan Peninsula being of particular importance. However, the actual number and location of deciduous forest refugia, as well as the connections between them, remain disputed. Here, we address the evolutionary dynamics of the deciduous forest understorey species Euphorbia carniolica as a proxy for past forest dynamics. To do so, we obtained genomic and morphometric data from populations representing the species' entire range, investigated phylogenetic position and intraspecific genetic variation, tested explicit demographic scenarios and applied species distribution models. Our data support two disjoint groups linked to separate refugia on the northwestern and central Balkan Peninsula. We find that genetic differentiation between groups started in the early Pleistocene via vicariance, suggesting a larger distribution in the past. Both refugia acted as sources for founder events to the southeastern Alps and the Carpathians; the latter were likely colonised before the last cold stage. In line with traditional views on the pre‐Pleistocene origin of many southeastern European deciduous forest species, the origin of E. carniolica was dated to the late Pliocene. The fact that E. carniolica evolved at a time when a period of continuous forestation was ending in much of Eurasia provides an interesting biogeographical perspective on the past links between Eurasian deciduous forests and their biota. [ABSTRACT FROM AUTHOR]

Published

2023

35. Climatic oscillation promoted diversification of spinous assassin bugs during Pleistocene glaciation

Author

Zhenyong Du, Qian Zhao, Xuan Wang, Teiji Sota, Li Tian, Fan Song, Wanzhi Cai, Ping Zhao, and Hu Li

Subjects

allopatric speciation, climatic oscillation, diversification, East Asia, glacial refugia, phylogeographic structure, Evolution, QH359-425

Abstract

Abstract Insect speciation is among the most fascinating topics in evolutionary biology; however, its underlying mechanisms remain unclear. Allopatric speciation represents one of the major types of speciation and is believed to have frequently occurred during glaciation periods, when climatic oscillation may have caused suitable habitats to be fragmented repeatedly, creating geographical isolation among populations. However, supporting evidence for allopatric speciation of insects in East Asia during the Pleistocene glaciation remains lacking. We aim to investigate the effect of climatic oscillation during the Pleistocene glaciation on the diversification pattern and evolutionary history of hemipteran insects and to test the hypothesis of Pleistocene species stability using spinous assassin bugs Sclomina (Hemiptera: Reduviidae), a small genus widely distributed in southern China but was later found to have cryptic species diversity. Here, using the whole mitochondrial genome (mitogenome) and nuclear ribosomal RNA genes, we investigated both interspecific and intraspecific diversification patterns of spinous assassin bugs. Approximate Bayesian computation, ecological niche modeling, and demographic history analyses were also applied to understand the diversification process and driven factors. Our data suggest that the five species of Sclomina are highly diverged, despite three of them currently being cryptic. Speciation occurred during the Pleistocene when suitable distribution areas were possibly fragmented. Six phylogeographic groups in the type species S. erinacea were identified, among which two groups underwent expansion during the early Last Glacial Period and after Last Glacier Maximum. Our analyses suggest that this genus may have experienced climate‐driven habitat fragmentation and postglacial expansion in the Pleistocene, promoting allopatric speciation and intraspecific diversification. Our results reveal underestimated species diversity in a small insect group and illustrate a remarkable example of allopatric speciation of insects in East Asia promoted by Pleistocene climatic oscillations. These findings provide important insights into the speciation processes and aid the conservation of insect species diversity.

Published

2023

36. Genetic Diversity and Phylogeography of the Relict Tree Fern Culcita macrocarpa: Influence of Clonality and Breeding System on Genetic Variation

Author

Víctor N. Suárez-Santiago, Jim Provan, Ana Teresa Romero-García, and Samira Ben-Menni Schuler

Subjects

breeding system, clonality, Culcita macrocarpa, fern phylogeography, genetic diversity, glacial refugia, Botany, QK1-989

Abstract

The tree fern Culcita macrocarpa, a threatened Iberian–Macaronesian endemism, represents the sole European species of the order Cyatheales. Considered a Tertiary relict of European Palaeotropical flora, its evolutionary history and genetic diversity, potentially influenced by presumed high clonal propagation, remain largely unknown. This study elucidates the phylogeographic history of C. macrocarpa, assessing the impact of vegetative reproduction on population dynamics and genetic variability. We provide genetic data from eight newly identified nuclear microsatellite loci and one plastid DNA region for 17 populations spanning the species’ range, together with species distribution modeling data. Microsatellites reveal pervasive clonality in C. macrocarpa, which has varied among populations. We assess the impact of clonality on genetic diversity and evaluate how estimates of intra-population genetic diversity indices and genetic structuring are affected by the chosen definition of “individual” (focusing exclusively on genetically distinct individuals, genets, as opposed to considering all independent clonal replicates, ramets). We identify two main population groups, one in the northern Iberian Peninsula and the other in the Macaronesian archipelagos and southern Iberian Peninsula. Within each group, we found relict populations (in the Azores and the Cantabrian Cornice) as well as recent originated populations. This population structure suggests colonization dynamics in which recent populations originated from one or a few genets of relict populations and became established through intra-gametophytic self-fertilization and vegetative expansion. DAPC analysis facilitated the identification of alleles that most significantly contributed to the observed population structure. The current Andalusian populations appear to have originated from colonization events from the Azores and the Cantabrian Cornice. Our findings suggest that C. macrocarpa persisted through the Last Glacial Maximum in two refugia: the Azores and the Cantabrian Cornice. Colonization into new areas occurred presumably from these refuges, generating two large population groups with structured genetic diversity. This study underscores the significance of clonality in establishing new populations and shaping genetic structure.

Published

2024

37. Range wide genetic differentiation in the bull kelp Nereocystis luetkeana with a seascape genetic focus on the Salish Sea

Author

Lily Gierke, Nelson C. Coelho, Tarang Khangaonkar, Tom Mumford, and Filipe Alberto

Subjects

kelp forest, genetic diversity, glacial refugia, mating system, dispersal, microsatellite markers, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

IntroductionIn temperate regions, one of the most critical determinants of present range-wide genetic diversity was the Pleistocene climate oscillations, the most recent one created by the last glacial maximum (LGM). This study aimed to describe N. luetkeana genetic structure across its entire range (Alaska to California) and test different models of population connectivity within the Salish Sea. This region was colonized after the LGM and has been under increased disturbance in recent decades.MethodsWe utilized microsatellite markers to study N. luetkeana genetic diversity at 53 sites across its range. Using higher sampling density in the Salish Sea, we employed a seascape genetics approach and tested isolation by hydrodynamic transport and environment models.ResultsAt the species distribution scale, we found four main groups of genetic co-ancestry, Alaska; Washington with Vancouver Island’s outer coast and Juan de Fuca Strait; Washington’s inner Salish Sea; and Oregon with California. The highest allelic richness (AR) levels were found in California, near the trailing range edge, although AR was also high in Alaska. The inner Salish Sea region had the poorest diversity across the species distribution. Nevertheless, a pattern of isolation by hydrodynamic transport and environment was supported in this region.DiscussionThe levels of allelic, private allele richness and genetic differentiation suggest that during the LGM, bull kelp had both northern and southern glacial refugia in the Prince of Wales Island-Haida Gwaii region and Central California, respectively. Genetic diversity in Northern California sites seems resilient to recent disturbances, whereas the low levels of genetic diversity in the inner Salish Sea are concerning.

Published

2023

38. Postglacial phylogeography, admixture, and evolution of red spruce (Picea rubens Sarg.) in Eastern North America

Author

Stanislav Bashalkhanov, Jeremy S. Johnson, and Om P. Rajora

Subjects

postglacial migration, glacial refugia, genetic diversity and population structure, interspecific hybridization, molecular evolution, approximate Bayesian computation, Plant culture, SB1-1110

Abstract

Climate change is a major evolutionary force that can affect the structure of forest ecosystems worldwide. Red spruce (Picea rubens Sarg.) has recently faced a considerable decline in the Southern Appalachians due to rapid environmental change, which includes historical land use, and atmospheric pollution. In the northern part of its range, red spruce is sympatric with closely related black spruce (Picea mariana (Mill.) B.S.P.), where introgressive hybridization commonly occurs. We investigated range-wide population genetic diversity and structure and inferred postglacial migration patterns and evolution of red spruce using nuclear microsatellites. Moderate genetic diversity and differentiation were observed in red spruce. Genetic distance, maximum likelihood and Bayesian analyses identified two distinct population clusters: southern glacial populations, and the evolutionarily younger northern populations. Approximate Bayesian computation suggests that patterns of admixture are the result of divergence of red spruce and black spruce from a common ancestor and then introgressive hybridization during post-glacial migration. Genetic diversity, effective population size (Ne) and genetic differentiation were higher in the northern than in the southern populations. Our results along with previously available fossil data suggest that Picea rubens and Picea mariana occupied separate southern refugia during the last glaciation. After initial expansion in the early Holocene, these two species faced a period of recession and formed a secondary coastal refugium, where introgressive hybridization occurred, and then both species migrated northward. As a result, various levels of black spruce alleles are present in the sympatric red spruce populations. Allopatric populations of P. rubens and P. mariana have many species-specific alleles and much fewer alleles from common ancestry. The pure southern red spruce populations may become critically endangered under projected climate change conditions as their ecological niche may disappear.

Published

2023

39. Insights on the Evolutionary History and Genetic Patterns of Octopus vulgaris Cuvier, 1797 in the Northeastern Atlantic Using Mitochondrial DNA.

Author

Pérez, Trinidad, Romero-Bascones, Andrea, Pirhadi, Negin, Coya, Ruth, Fernández-Rueda, María del Pino, Márquez, Isabel, García-Flórez, Lucía, and Borrell, Yaisel J.

Subjects

*COMMON octopus, *GLACIAL Epoch, *CLIMATE change, *SMALL-scale fisheries, *CONTINUOUS distributions, *MITOCHONDRIAL DNA

Abstract

Simple Summary: The artisanal octopus fishery is a great tradition and has a large economic impact in Northern Spain. Despite its importance, there is scarce genetic information for this exploited population. The uniqueness of an exploited population and the effects that exploitation may have on its long-term survival is essential information that can be obtained by studying the past and current spatial and temporal genetic patterns. The mitochondrial DNA is used here as a genetic tool to gain insight into Northeast Atlantic octopus populations and their evolutionary history. Although it is not sensitive enough to detect differences in nearby populations, it allows us to differentiate the two main lineages that originated during the Quaternary glaciations. One of the lineages is present exclusively in northern latitudes and the other mainly in the south, although, for the first time, its presence is demonstrated also in the north of the Iberian Peninsula. This implies a more continuous distribution than previously thought for this lineage. We also detect temporal changes in the distribution of the two lineages in contact zones. These changes seem to be associated with the effect of changing oceanographic conditions. Future studies on these associations could be of interest for fisheries in the scenario of global climate change. Octopus vulgaris is one of the most harvested octopus species in the world. In the Iberian Peninsula, there are several small-scale fisheries that have a long-term tradition of harvesting octopus. The Asturias fleet (in Northern Spain) has an internationally recognized MSC label for its exploitation. Of concern, genetic assessments of exploited stocks are currently scarce, which could prevent the implementation of adequate managing strategies. We use two mitochondrial regions (cytochrome oxidase subunit 1 and control region) to analyze the genetic status and evolutionary events that conditioned octopus populations' characteristics in the Northeastern Atlantic. A total of 90 individuals were sampled from three different localities in the Iberian Peninsula as well as a location in Macaronesia. Temporal genetic analyses on Asturias and Algarve populations were also performed. Results indicated the absence of fine spatial genetic structuring but showed the Canary Islands (in Macaronesia) as the most distinct population. Our analyses detected two distinct clades, already described in the literature, but, for the first time, we confirmed the presence of the α-southern haplogroup in the Northern Iberian Peninsula. This result indicates a more continuous cline for the distribution of these two haplogroups than previously reported. Temporal changes in the distribution of both haplogroups in contact zones were also detected. [ABSTRACT FROM AUTHOR]

Published

2023

40. Beringia as a high‐latitude engine of avian speciation.

Author

Winker, Kevin, Withrow, Jack J., Gibson, Daniel D., and Pruett, Christin L.

Subjects

*GENETIC speciation, *SHORE birds, *SUBSPECIES, *CHARADRIIFORMES, *PASSERIFORMES, *GULLS, *SPECIES

Abstract

Beringia is a biogeographically dynamic region that extends from northeastern Asia into northwestern North America. This region has affected avian divergence and speciation in three important ways: (i) by serving as a route for intercontinental colonisation between Asia and the Americas; (ii) by cyclically splitting (and often reuniting) populations, subspecies, and species between these continents; and (iii) by providing isolated refugia through glacial cycles. The effects of these processes can be seen in taxonomic splits of shallow to increasing depths and in the presence of regional endemics. We review the taxa involved in the latter two processes (splitting–reuniting and isolation), with a focus on three research topics: avian diversity, time estimates of the generation of that diversity, and the regions within Beringia that might have been especially important. We find that these processes have generated substantial amounts of avian diversity, including 49 pairs of avian subspecies or species whose breeding distributions largely replace one another across the divide between the Old World and the New World in Beringia, and 103 avian species and subspecies endemic to this region. Among endemics, about one in three is recognised as a full biological species. Endemic taxa in the orders Charadriiformes (shorebirds, alcids, gulls, and terns) and Passeriformes (perching birds) are particularly well represented, although they show very different levels of diversity through evolutionary time. Endemic Beringian Charadriiformes have a 1.31:1 ratio of species to subspecies. In Passeriformes, endemic taxa have a 0.09:1 species‐to‐subspecies ratio, suggesting that passerine (and thus terrestrial) endemism might be more prone to long‐term extinction in this region, although such 'losses' could occur through their being reconnected with wider continental populations during favourable climatic cycles (e.g. subspecies reintegration with other populations). Genetic evidence suggests that most Beringian avian taxa originated over the past 3 million years, confirming the importance of Quaternary processes. There seems to be no obvious clustering in their formation through time, although there might be temporal gaps with lower rates of diversity generation. For at least 62 species, taxonomically undifferentiated populations occupy this region, providing ample potential for future evolutionary diversification. [ABSTRACT FROM AUTHOR]

Published

2023

41. Phylogeographic and Paleoclimatic Modelling Tools Improve Our Understanding of the Biogeographic History of Hierophis viridiflavus (Colubridae).

Author

Romero-Iraola, Iñaki, Freitas, Inês, Jiménez-Ruíz, Yolanda, Geniez, Philippe, García-París, Mario, and Martínez-Freiría, Fernando

Subjects

*PHYLOGEOGRAPHY, *HOLOCENE Epoch, *COLUBRIDAE, *LAST Glacial Maximum, *GLACIATION, *PLEISTOCENE Epoch

Abstract

Simple Summary: Previous paleoclimatic modelling studies on the European whip snake, Hierophis viridiflavus, hardly explain its genetic structure. Through the combination of phylogeographic and paleoclimatic modelling analyses, we reconstructed the biogeographic history of the species. Phylogeographic analyses recovered two major lineages that had diversified in different ways in the late Pleistocene. Paleoclimatic models unveiled the species range dynamics since the late Pleistocene, showing major range contractions into multiple climatic refugia in Southern Europe during glacial and interglacial events, as well as more recent northwards expansions. This study contributes to our knowledge of H. viridiflavus' historical biogeography and sheds more light on the evolutionary processes that took place in the Mediterranean Basin hotspot. Phylogeographic and paleoclimatic modelling studies have been combined to infer the role of Pleistocene climatic oscillations as drivers of the genetic structure and distribution of Mediterranean taxa. For the European whip snake, Hierophis viridiflavus, previous studies based on paleoclimatic modelling have depicted a low reliability in the pattern of past climatic suitability across the central Mediterranean Basin, which barely fits the species' genetic structure. In this study, we combined phylogeographic and paleoclimatic modelling tools to improve our understanding of the biogeographic history of H. viridiflavus, particularly extending the sampling and phylogeographic inferences to previously under-sampled regions. Phylogeographic analyses recovered two major clades that diverged at the beginning of the Pleistocene and had diversified in different ways by the late Pleistocene: the east clade (composed of three subclades) and the west clade (with no further structure). Paleoclimatic models highlighted the temperate character of H. viridiflavus, indicating range contractions during both the last inter-glacial and last glacial maximum periods. Range expansions from southern-located climatic refugia likely occurred in the Bølling–Allerød and Middle Holocene periods, which are supported by signals of demographic growth in the west clade and South–East–North subclade. Overall, this work improves our understanding of the historical biogeography of H. viridiflavus, providing further insights into the evolutionary processes that occurred in the Mediterranean Basin hotspot. [ABSTRACT FROM AUTHOR]

Published

2023

42. A short distance to the last glacial coast best explains a Tasmanian centre of endemism

Author

Atkinson, Joe and Kirkpatrick, James B.

Subjects

local endemism, glacial coastline, glacial refugia, plant endemism, endemism hotspot

Abstract

At the small scales of world, continent and region, centres of local endemism have been hypothesised to be related to refugia and/or distinctive environmental conditions. We consider patterning of local endemics at a large scale to help test the validity of these two hypotheses for centres of local endemism recognised at smaller scales. Our study area was a centre of local endemism on the Tasman and Forestier peninsulas, Tasmania, Australia. We tested the distinctiveness of both the current climatic and edaphic conditions and the potential for refugia during Quaternary climatic fluctuations, using databases, published maps, and direct observation of climate. Inverse rarity analyses at 1 km2 showed a pattern of concentration of local endemics near the east and southeast coasts of the peninsulas. However, the ranges of species at a larger scale were largely non-overlapping. Climate did not differ from other coastal areas in southeastern Tasmania that lacked local endemics. Climatically similar areas to the centre of local endemism on and outside the peninsulas also had treeless vegetation on skeletal soils on dolerite and mudstone that were habitat for many of the species in the peninsulas centre of local endemism. The areas with high concentrations of local endemics on the peninsulas were located close to the coastline of the Last Glacial Maximum, unlike other areas with the same climatic and edaphic environments inside and outside the peninsulas. The conclusion that the centre of local endemism relates to a closely adjacent glacial refugium, rather than being a response to a distinctive environment, was reinforced by the non-overlapping distributions of the most locally endemic species at a large scale, and the variability in the habitat of the most locally endemic species. This study illustrates the value of investigating the causes of centres of local endemism at a range of scales and confirms the tight link between centres of endemism and refugia.

Published

2020

43. Phylogeography of Populus koreana reveals an unexpected glacial refugium in Northeast Asia

Author

Ji Wang, Hongying Zhang, Markus Ruhsam, Xiaoyan Fan, Xue Li, Jae Min Chung, Mi Yoon Chung, Myong Gi Chung, Shiyang Wang, Jing Wang, and Kangshan Mao

Subjects

northeast asia, greater khingan, populus koreana, quaternary, glacial refugia, Forestry, SD1-669.5

Abstract

The genetic structure of temperate plants in the northern hemisphere was significantly influenced by the Quaternary climate oscillations. A species' biological characteristics and ecological niche are significant elements that can affect its phylogeographic history. We adopted the cold-tolerant, anemophilous and anemochorous tree, Populus koreana, as a model species to examine the impact of historical climate changes and biological characteristics on the evolutionary history of vegetation in Northeast Asia throughout the Quaternary period. The results showed that there is moderate genetic differentiation and a lack of phylogeographic structure among populations of P. koreana based on nuclear microsatellite and plastid markers. Demographic analyses and ecological niche modeling suggested that P. koreana is likely to have experienced a bottleneck around the last glacial maximum (LGM), followed by a rapid and continued range expansion coupled with a northward migration from the LGM to the mid-holocene (MH), present, and 2050. Notably, there were several separate refugia present throughout the range of P. koreana in Northeast Asia during the LGM. These include two widely recognized refugia located in the Changbai Mountains and the southern Korean Peninsula. We also unexpectedly found a previously unknown one in the northern Greater Khingan Mountains. Our study contributes to the understanding of the phylogeographic history of plant species in Northeast Asia, providing novel insights into the Greater Khingan Mountains as glacial refugia for a cold-tolerant tree species. These findings provide valuable insights into the Quaternary historical patterns of temperate forests in East Asia.

Published

2023

44. Phylogeography of the European ground squirrel, Spermophilus citellus (Rodentia: Sciuridae), in the Balkans.

Author

Rammou, Dimitra-Lida, Karaiskou, Nikoleta, Minoudi, Styliani, Kazilas, Christos, Moulistanos, Aristotelis, Gkagkavouzis, Konstantinos, Ćirović, Duško, Nikolić, Tijana, Ćosić, Nada, Youlatos, Dionisios, and Triantafyllidis, Alexandros

Subjects

*GROUND squirrels, *SCIURIDAE, *RODENTS, *GENETIC variation, *PHYLOGEOGRAPHY, *EUROPEAN history, *SERBS, *GEOGRAPHY

Abstract

The Balkan Peninsula acted as a refugium for many steppic species during the Pleistocene, resulting in a high genetic variability, which, in some cases, presents a northward decreasing latitudinal gradient. In the present study, we investigate the genetic diversity of the European ground squirrel (Spermophilus citellus) in its Balkan distribution, sampled comprehensively across its entire distribution in Greece (133 samples from 21 localities). These samples are compared with others from Serbia (54 samples from eight localities) and the available published data from its range in Europe (124 sequences from GenBank). Our results show that the genetic diversity of the Greek and Serbian populations is not correlated with a latitudinal gradient. However, when the entire European range is considered, the model that best fits the genetic variation of the species is based on the 'centre–periphery' hypothesis. The founder (centre) populations of the species were most probably situated in south-eastern Bulgaria and European Turkey and underwent rapid expansion post-glacially, during the Holocene, both northwards (Central Europe) and southwards (Greece), as revealed by the decreased genetic diversity and phylogeographical inference analysis in these marginal regions. These results indicate a particular phylogeographical history of a European species and set a baseline for conservation management in its southern populations. [ABSTRACT FROM AUTHOR]

Published

2023

45. Areography, environmental heterogeneity and spatial models explain patterns of past and present diversity in Edraianthus (Campanulaceae).

Author

Glasnović, Peter, Fišer, Živa, Jančič, Matic, Balant, Manica, and Surina, Boštjan

Subjects

*LAST Glacial Maximum, *CAMPANULACEAE, *PLANT diversity, *GENETIC variation, *ECOLOGICAL niche, *GENETIC correlations, *SPECIES diversity, *HABITATS

Abstract

This paper aims to shed light on distribution patterns and the relationship between species diversity and environmental heterogeneity of 17 Edraianthus taxa. We examined present and past distributions (Last Glacial Maximum) by applying ecological niche modelling. The environmental space occupied by the taxa was analysed using niche comparison methods. The results support the idea that the central and southern Dinaric Alps represent a centre of diversity and endemism in the western Balkan Peninsula. Diversity in Edraianthus is best explained by topographic (slope) and bioclimatic predictors (maximum temperature of warmest month, precipitation seasonality, precipitation of warmest quarter, precipitation of coldest quarter), suggesting that mountain areas with the most diversified relief have higher diversity. Niche modelling results suggest considerable range dynamics during the climatically unstable Quaternary. Thermophilic and lowland taxa responded with longitudinal shifts to ecologically suitable areas farther south, whereas high-mountain taxa responded mainly with elevational shifts. The greatest niche similarity is found among phylogenetically closely related taxa and among ecologically similar and often sympatric taxa. The least similarity was observed in species with marked differences in habitat elevation and in more geographically isolated species. Our results suggest that the extent of range and niche overlap varied among some taxa throughout their evolutionary history, which may have led to diversification at both allopatric and sympatric levels. The correlation between the genetic diversity of the most widespread taxon and the richness of taxa could be a consequence of past and present contacts. On the other hand, alternate periods of isolation may have favoured the emergence of taxa that are reproductively isolated and ecologically specialized. [ABSTRACT FROM AUTHOR]

Published

2023

46. Spatial genetic patterns and distribution dynamics of Begonia grandis (Begoniaceae), a widespread herbaceous species in China.

Author

Yan Xiao, Xing-Juan Li, Xiao-Long Jiang, Chun Li, Xiang-Peng Li, Wei-Ping Li, and Dai-Ke Tian

Subjects

CHLOROPLAST DNA, SUBSPECIES, BEGONIAS, LAST Glacial Maximum, MORPHOLOGY, SPECIES distribution, GENETIC variation

Abstract

Introduction: Begonia L., one of the 10 largest plant genera, contains over 2,100 species, most of which have a very limited distribution range. Understanding the spatial genetic structure and distribution dynamics of a widespread species in this genus will contribute to clarifying the mechanism responsible for Begonia speciation. Methods: In this study, we used three chloroplast DNA markers (ndhF-rpl32, atpIatpH, and ndhA intron), coupled with species distribution modeling (SDM), to investigate the population genetic structure and distribution dynamics of Begonia grandis Dryand., the species of Begonia with the widest distribution in China. Results: Thirty-five haplotypes from 44 populations clustered into two groups, and haplotype divergence began in the Pleistocene (1.75 Mya). High genetic diversity (Hd = 0.894, HT = 0.910), strong genetic differentiation (FST = 0.835), and significant phylogeographical structure (GST/NST = 0.848/0.917, P < 0.05) were observed. The distribution range of B. grandis migrated northwards after the last glacial maximum, but its core distribution area remained stable. Discussion: Combined, the observed spatial genetic patterns and SDM results identified the Yunnan-Guizhou Plateau, the Three Gorges region, and the Daba Mountains as potential refugia of B. grandis. BEAST-derived chronogram and haplotype network analysis do not support the Flora Reipublicae Popularis Sinicae and Flora of China for subspecies classification based on morphological characteristics. Our results support the hypothesis that population-level allopatric differentiation may be an important speciation process for the Begonia genus and a key contributor to its rich diversity. [ABSTRACT FROM AUTHOR]

Published

2023

47. Intraspecific phylogeny of a Patagonian fescue: differentiation at molecular markers and morphological traits suggests hybridization at peripheral populations.

Author

Guidalevich, V, Nagahama, N, López, A S, Angeli, J P, Marchelli, P, and Azpilicueta, M M

Subjects

*PLANT hybridization, *PHYLOGENY, *FESCUE, *GENETIC variation, *MAXIMUM likelihood statistics

Abstract

Background and Aims Grasses of the Festuca genus have complex phylogenetic relations due to morphological similarities among species and interspecific hybridization processes. Within Patagonian fescues, information concerning phylogenetic relationships is very scarce. In Festuca pallescens , a widely distributed species, the high phenotypic variability and the occurrence of interspecific hybridization preclude a clear identification of the populations. Given the relevance of natural rangelands for livestock production and their high degradation due to climate change, conservation actions are needed and knowledge about genetic variation is required. Methods To unravel the intraspecific phylogenetic relations and to detect genetic differences, we studied 21 populations of the species along its natural geographical distribution by coupling both molecular [internal transcribed spacer (ITS) and trn L-F markers] and morpho-anatomical analyses. Bayesian inference, maximum likelihood and maximum parsimony methods were applied to assemble a phylogenetic tree, including other native species. The morphological data set was analysed by discriminant and cluster analyses. Key Results The combined information of the Bayesian tree (ITS marker), the geographical distribution of haplotype variants (trn L-F marker) and the morpho-anatomical traits, distinguished populations located at the margins of the distribution. Some of the variants detected were shared with other sympatric species of fescues. Conclusions These results suggest the occurrence of hybridization processes between species of the genus at peripheral sites characterized by suboptimal conditions, which might be key to the survival of these populations. [ABSTRACT FROM AUTHOR]

Published

2023

48. Revealing the long-term trend of the global-scale Ginkgo biloba distribution and the impact of future climate change based on the ensemble modeling.

Author

Wang, Lukun, Liu, Jiamin, Liu, Jing, Wei, Haiyan, Fang, Yaqin, Wang, Daju, Chen, Ruidun, and Gu, Wei

Subjects

GINKGO, CLIMATE change, ENDANGERED plants, GLACIAL Epoch, FRAGMENTED landscapes, PLANT conservation, PRECIPITATION gauges

Abstract

Rational conservation of endangered plants is often challenging. Ginkgo biloba L., a relict plant in the Mesozoic, is known as the world's famous "living fossil". To rationally protect G. biloba, we constructed an ensemble model (EM) to predict the past, present, and future suitable habitats of G. biloba based on global sampling sites and climate, soil and terrain data. The present results show that the suitable habitats for G. biloba are mainly concentrated in East Asia, Europe, and North America. Through the analysis of key environmental variables, climate has a high degree of influence on the growth and distribution of G. biloba, and the effect of temperature is four times that of precipitation. By simulating the past distribution of G. biloba, we found that glacial refuges were concentrated in East Asia, including China, Korea, and Japan. This is due to Quaternary glaciation, G. biloba in the past has been extinct in Europe and North America, only surviving in East Asia. Under future climate change, the habitat area of G. biloba will gradually decrease and has a tendency to migrate to higher latitudes. By analyzing the expansion and contraction range of G. biloba, we found that the suitable area in Asia will be relatively stable, while those in North America and Europe tend to be fragmented. The habitat fragmentation will threaten the distribution range of G. biloba, thereby reducing species diversity. The results of this study will provide conservation recommendations for in-situ conservation and off-site preservation methods for G. biloba. [ABSTRACT FROM AUTHOR]

Published

2023

49. In both directions: Expansions of European land snails to the north and south from glacial refugia.

Author

Korábek, Ondřej, Adamcová, Tereza, Proćków, Małgorzata, Petrusek, Adam, Hausdorf, Bernhard, and Juřičková, Lucie

Subjects

*SNAILS, *GEOCHRONOMETRY, *RADIOCARBON dating, *COLONIZATION (Ecology), *TEST reliability, *GASTROPODA

Abstract

Aim: Were postglacial recolonizations facilitated by persistence close to the colonized areas rather than by dispersal ability allowing for colonization from distant sources? This question is particularly relevant for organisms with low active dispersal abilities and lacking specialized propagules. Here we identified glacial refugia of four Central European land snail species, including one for which a northern glacial refugium in the region was indicated by indirectly dated fossils. Location: Central Europe and the Balkans. Taxon: Pulmonate land snails: Monachoides incarnatus (Hygromiidae) and Helix pomatia, Helix thessalica and Caucasotachea vindobonensis (Helicidae). Methods: We used continuous phylogeographic analysis of mitochondrial sequence data to trace the origin of postglacially expanding lineages. We assessed the credibility of results from our focal species, M. incarnatus, by comparison to three other broadly sympatric land snail species. In addition, we performed direct radiocarbon dating of fossil shells to verify the presumed glacial presence of M. incarnatus on the territories of Czechia and Slovakia and to test the reliability of the available fossil data. Results: In three of the four species, the molecular data supported refugia located south of the Pannonian Basin, from the south‐eastern Alps to the south‐western Carpathians, but not more northerly. The direct radiocarbon dating resulted in younger dates than previously assumed. However, the molecular data also revealed unexpected, yet substantial postglacial southward expansions of M. incarnatus and C. vindobonensis into the Balkans. Main Conclusions: Neither the phylogeographic analyses nor the direct radiocarbon dating provided evidence for the glacial survival of studied land snail species in Central Europe. The refugia located adjacent to the Pannonian Basin were the most important source of postglacial expansions to Central Europe, but were also the source of the expansion southwards. Both climatic factors and biological interactions might explain why such southward expansions seem rather rare in Europe. [ABSTRACT FROM AUTHOR]

Published

2023

50. Climatic oscillation promoted diversification of spinous assassin bugs during Pleistocene glaciation.

Author

Du, Zhenyong, Zhao, Qian, Wang, Xuan, Sota, Teiji, Tian, Li, Song, Fan, Cai, Wanzhi, Zhao, Ping, and Li, Hu

Subjects

*ASSASSIN bugs, *PHYLOGEOGRAPHY, *PLEISTOCENE Epoch, *VICARIANCE, *GLACIATION, *MITOCHONDRIAL DNA

Abstract

Insect speciation is among the most fascinating topics in evolutionary biology; however, its underlying mechanisms remain unclear. Allopatric speciation represents one of the major types of speciation and is believed to have frequently occurred during glaciation periods, when climatic oscillation may have caused suitable habitats to be fragmented repeatedly, creating geographical isolation among populations. However, supporting evidence for allopatric speciation of insects in East Asia during the Pleistocene glaciation remains lacking. We aim to investigate the effect of climatic oscillation during the Pleistocene glaciation on the diversification pattern and evolutionary history of hemipteran insects and to test the hypothesis of Pleistocene species stability using spinous assassin bugs Sclomina (Hemiptera: Reduviidae), a small genus widely distributed in southern China but was later found to have cryptic species diversity. Here, using the whole mitochondrial genome (mitogenome) and nuclear ribosomal RNA genes, we investigated both interspecific and intraspecific diversification patterns of spinous assassin bugs. Approximate Bayesian computation, ecological niche modeling, and demographic history analyses were also applied to understand the diversification process and driven factors. Our data suggest that the five species of Sclomina are highly diverged, despite three of them currently being cryptic. Speciation occurred during the Pleistocene when suitable distribution areas were possibly fragmented. Six phylogeographic groups in the type species S. erinacea were identified, among which two groups underwent expansion during the early Last Glacial Period and after Last Glacier Maximum. Our analyses suggest that this genus may have experienced climate‐driven habitat fragmentation and postglacial expansion in the Pleistocene, promoting allopatric speciation and intraspecific diversification. Our results reveal underestimated species diversity in a small insect group and illustrate a remarkable example of allopatric speciation of insects in East Asia promoted by Pleistocene climatic oscillations. These findings provide important insights into the speciation processes and aid the conservation of insect species diversity. [ABSTRACT FROM AUTHOR]

Published

2023