scholarly journals Quaternary diversification in European alpine plants: pattern and process

2004 ◽  
Vol 359 (1442) ◽  
pp. 265-274 ◽  
Author(s):  
Joachim W. Kadereit ◽  
Eva Maria Griebeler ◽  
Hans Peter Comes
Keyword(s):  
Internal Transcribed Spacer ◽  
Glacial Refugia ◽  
Alpine Plants ◽  
Regression Analyses ◽  
Filling Process ◽  
Geographical Isolation ◽  
Climatic Oscillations ◽  
Late Tertiary ◽  
Branching Patterns ◽  
Firm Evidence

Molecular clock approaches applied previously to European alpine plants suggest that Primula sect. Auricula , Gentiana sect. Ciminalis and Soldanella diversified at the beginning of the Quaternary or well within this period, whereas Globularia had already started diversifying in the (Late–)Tertiary. In the first part of this paper we present evidence that, in contrast to Globularia and Soldanella , the branching patterns of the molecular internal transcribed spacer phylogenies of both Primula and Gentiana are incompatible with a constant–rates birth–death model. In both of these last two taxa, speciation probably decreased through Quaternary times, perhaps because of some niche–filling process and/or a decrease in specific range size. In the second part, we apply nonlinear regression analyses to the lineage–through–time plots of P. sect. Auricula to test a range of capacity–dependent models of diversification, and the effect of Quaternary climatic oscillations on diversification and extinction. At least for one major clade of sect. Auricula there is firm evidence that both diversification and extinction are a function of temperature. Intriguingly, temperature appears to be correlated positively with extinction, but negatively with diversification. This suggests that diversification did not take place, as previously assumed, in geographical isolation in high–altitude interglacial refugia, but rather at low altitudes in geographically isolated glacial refugia.

Contrasting Altitude and Long-term Geographical Isolation Shaped Phylogeography of Himalrandia  lichiangensis, an Endemic Species from the Dry Hot Valley of Southwest China

2020 ◽  
Author(s):  
Yaomei Qiao ◽  
Jian Liu ◽  
Xun Gong
Keyword(s):  
Genetic Differentiation ◽  
Southwest China ◽  
Distribution Area ◽  
Geographical Isolation ◽  
Niche Modelling ◽  
Jinsha River ◽  
Climatic Oscillations ◽  
Late Tertiary ◽  
High Degree

Abstract Background: The eastern Sino-Himalayan region of southwest China, as one of the world’s biodiversity hotspots, has undergone dramatic geomorphological and climatic changes during the Late Tertiary/Quaternary. The dry-hot valleys in southwest China is overlapping with the Hengduan Mountains. However, when this endemism was assembled in dry-hot valleys and how the climatic oscillations and/or tectonic movements influence their phylogeographical patterns remained largely unknown. Himalrandia lichiangensis is a shrub of Rubiaceae, endemically distributes in dry-hot valleys of southwest China. By integrating evidences from phylogeography, population dynamic and ecological niche modelling, we are aiming to trace the evolutionary history and explain the origin of biodiversity and endemism in the dry-hot valleys of southwest China. Results: Based on sequencing four chloroplastic non-coding regions (psbM-trnD, trnD-trnT, atpB-rbcL and accD-psaI) and two single-low copy nuclear genes CAMX (Calmodulin) and ITS of 423 individuals from 23 populations, we found high genetic variation mainly existed between the populations (cpDNA: 89.80%, ITS: 84.55%, CAMX: 95.68%). Haplotypes in different river basins showed significant phylogeographical structure. The geographical distribution of haplotypes indicated that there is a high degree of genetic differentiation and this differentiation is associated with altitude discrepancy. BARRIER analysis detects a strong geographic barrier between the Nanpan River and Jinsha River. The MaxEnt result shows that the suitable distribution area was the largest in the LGM. The future climate warming will lead to the niche expansion for H. lichiangensis but will also cause fragmented distribution.Conclusions: Our study highlighted the importance of altitude in explaining the genetic differentiation. The current phylogeographical pattern of H. lichiangensis may be shaped by long-term geographical isolation resulted from the uplifting of Himalaya, which gives rise to the barriers from the Hengduan Mountain or multiple river systems, and the vertical altitude discrepancies that both limited gene flow among regions. The Middle Jinsha River valley is most likely to be a main refuge for H. lichiangensis till now, and the glaciation retreat may account for the high endemism of plants in the dry-hot valleys of southwest China.

scholarly journals Past, present, and future climate space of the only endemic vertebrate genus of the Italian peninsula

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Loredana Macaluso ◽  
Andrea Villa ◽  
Giorgio Carnevale ◽  
Massimo Delfino
Keyword(s):  
Glacial Refugia ◽  
Conservation Strategies ◽  
Emission Scenarios ◽  
Climatic Suitability ◽  
Unique Case ◽  
Future Projections ◽  
Climatic Influence ◽  
Climatic Oscillations ◽  
Italian Peninsula ◽  
Climate Space

AbstractThe two extant Salamandrina species represent a unique case of morphology, ecology, and ethology among urodeles. The range of this genus is currently limited to Italy, where it represents the only endemic vertebrate genus, but its past range extended over a much broader area of Europe, including the Iberian and Balkan peninsulas. ENM analyses using modern occurrences of Salamandrina demonstrate that the current climate of the majority of Europe, and especially areas where fossils of this genus were found, is currently not suitable for this genus, neither was it suitable during the last 3.3 million years. This result allows possible assumptions about the climatic influence on the former extirpation of this salamander from several areas of Europe. Furthermore, it shows that, during Pliocene–Pleistocene climatic oscillations, Mediterranean peninsulas, despite being generally considered together because of similar latitude, had different potential to effectively become glacial refugia for this salamander, and possibly for other species as well. Future projections using different CO2 emission scenarios predict that climatic suitability will be even more drastically reduced during the next 50 years, underlining once more the importance of conservation strategies and emission-reducing policies.

scholarly journals Population genetic structure of the bank vole Myodes glareolus within its glacial refugium in peninsular Italy

2018 ◽  
Author(s):  
Andrea Chiocchio ◽  
Paolo Colangelo ◽  
Gaetano Aloise ◽  
Gianni Amori ◽  
Sandro Bertolino ◽  
...  
Keyword(s):  
Bank Vole ◽  
Environmental Changes ◽  
Taxonomic Status ◽  
Glacial Refugia ◽  
Intraspecific Diversity ◽  
Myodes Glareolus ◽  
Glacial Refugium ◽  
Evolutionary Processes ◽  
Climatic Oscillations ◽  
Specific Variation

AbstractIt is now well established that Southern European peninsulas have been major glacial refugia for temperate species during Pleistocene climatic oscillations. However, substantial environmental changes occurred also within these peninsulas throughout the Pleistocene, rising questions about the role and interplay of various of micro-evolutionary processes in shaping patterns of intraspecific diversity within these areas. Here, we investigate the patterns of genetic variation in the bank vole Myodes glareolus within the Italian peninsula. By using a panel of 13 microsatellite loci, we found more intra-specific variation than expected based on previous assessments. Indeed, both Bayesian and ordination-based clustering analyses of variation recovered five main geographic/genetic clusters along the peninsula, with three clusters geographically restricted to the southern portion of the study area. This pattern supports the occurrence of multiple sub-refugia for the bank vole in peninsular Italy, likely promoted by the major paleo-environmental changes which affected forested habitats within this area during the Pleistocene. Thus, our results support a scenario whereby the high levels of intraspecific diversity observed within major glacial refugia are better explained by dynamic micro-evolutionary processes occurred within these areas, rather than by long-term demographic stability of refugial population. Finally, the narrow and isolated distribution of some of the identified lineages, suggest the need for future assessments of their conservation and taxonomic status.

scholarly journals Role of geography and climatic oscillations in governing into-India dispersal of freshwater snails of the family: Viviparidae

2018 ◽  
Author(s):  
Maitreya Sil ◽  
N. A. Aravind ◽  
K. Praveen Karanth
Keyword(s):  
Southeast Asia ◽  
Indian Subcontinent ◽  
Time Frame ◽  
Freshwater Snail ◽  
Molecular Dating ◽  
Bengal Basin ◽  
Climatic Oscillations ◽  
Late Tertiary ◽  
Dispersal Events

AbstractThe Indian subcontinent has experienced numerous paleogeological and paleoclimatic events during the Cenozoic which shaped the biotic assembly over time in the subcontinent. The role of these events in governing the biotic exchange between Southeast Asia and Indian subregion is underexplored. We aimed to uncover the effects the collision of the Indian and Asian plate, marine transgression in the Bengal basin as well as the paleoclimatic changes in the subcontinent and adjoining regions, on the dispersal of freshwater snail family Viviparidae from Southeast Asia (SEA) to Indian subregion. Extensive sampling was carried out throughout the Indian subcontinent to capture the current diversity of the targeted lineages. Three mitochondrial and two nuclear markers were sequenced from these samples and combined with published sequences to reconstruct a near complete global phylogeny of Viviparidae. Molecular dating and ancestral range estimation were undertaken to obtain the time frame for the dispersal events. Results from these analyses were contrasted with paleoclimate and paleogeology to better understand the biogeography of Indian viviparids. Results support at least two dispersal events into India from Southeast Asia. The earlier event is likely to have occurred during a warm and humid Eocene period before a permanent land connection was established between the two landmasses. While the more recent dispersal occurred post-suturing and overlapped with a time in late Tertiary to Quaternary when arid climate prevailed. However, we could not firmly establish how the marine transgressions influenced the dispersal events. Even though most biotic exchange between India and SEA are noted to be post-suturing, our results add to a growing body of work that suggests faunal exchange pre-suturing probably mediated by intermittent land connections.

scholarly journals Climatic oscillations in Quaternary have shaped the co-evolutionary patterns between the Norway spruce and its host-associated herbivore

2020 ◽  
Vol 10 (1) ◽  
Author(s):  
Jakub Goczał ◽  
Andrzej Oleksa ◽  
Robert Rossa ◽  
Igor Chybicki ◽  
Katarzyna Meyza ◽  
...  
Keyword(s):  
Norway Spruce ◽  
Evolutionary Process ◽  
Glacial Refugia ◽  
Secondary Contact ◽  
Wing Venation ◽  
Evolutionary Patterns ◽  
Climatic Oscillations ◽  
Migration History ◽  
Host Tree Species ◽  
Northeastern Europe

Abstract During the Last Glacial Maximum in the Northern Hemisphere, expanding ice sheets forced a large number of plants, including trees, to retreat from their primary distribution areas. Many host-associated herbivores migrated along with their host plants. Long-lasting geographic isolation between glacial refugia could have been led to the allopatric speciation in separated populations. Here, we have studied whether the migration history of the Norway spruce Picea abies in Quaternary has affected its host-associated herbivorous beetle—Monochamus sartor. By using microsatellite markers accompanied by the geometric morphometrics analysis of wing venation, we have revealed the clear geographic structure of M. sartor in Eurasia, encompassing two main clusters: southern (Alpine–Carpathian) and eastern (including northeastern Europe and Asia), which reflects the northern and southern ecotypes of its host. The two beetles’ lineages probably diverged during the Pleniglacial (57,000—15,000 BC) when their host tree species was undergoing significant range fragmentation and experienced secondary contact during post-glacial recolonization of spruce in the Holocene. A secondary contact of divergent lineages of M. sartor has resulted in the formation of the hybrid zone in northeastern Europe. Our findings suggest that the climatic oscillations during the Pleistocene have driven an insect-plant co-evolutionary process, and have contributed to the formation of the unique biodiversity of Europe.

BIOGEOGRAPHY OF JACK PINE

1967 ◽  
Vol 45 (11) ◽  
pp. 2201-2211 ◽  
Author(s):  
C. W. Yeatman
Keyword(s):  
North America ◽  
Pinus Banksiana ◽  
Pinus Contorta ◽  
Geographic Origin ◽  
Glacial Refugia ◽  
Jack Pine ◽  
Hybrid Swarms ◽  
Late Tertiary ◽  
History Of ◽  
Probable Origin

Interpretation of genetic variation associated with geographic origin must take into account the evolution and migratory history of the species being-studied. A literature survey was made to determine the probable origin of jack pine (pinus banksiana) and its migration from glacial refugia following the Wisconsin glacial maximum. Jack pine and contorta pine (Pinus contorta) became differentiated following cooling of the climate and crustal uplift in western North America in the late Tertiary. Modern hybrid swarms and introgression of jack pine and lodgepole pine (Pinus contorta var. lalifolia) east of the Rocky Mountains are of recent origin, dating from late post-glacial migration from the east and west respectively. Geological and paleobotanical evidence, particularly from fossil pollen depositions, indicate that jack pine survived glaciation in an extensive refugium centered on the Appalachian Highlands of eastern North America, and not in additional refugia south or west of the Great Lakes. This conclusion is consistent with the clinal pattern of geographic variation evident from genecological studies of the species.

scholarly journals Phylogeography of Myrica nana: the Wumeng Mountains as a natural geographical isolation boundary on the Yunnan-Guizhou Plateau

2021 ◽  
Author(s):  
Zhao Cai
Keyword(s):  
Genetic Structure ◽  
Haplotype Network ◽  
Glacial Refugia ◽  
Nuclear Ribosomal Dna ◽  
Vulnerable Species ◽  
Geographical Isolation ◽  
Cpdna Haplotype ◽  
Environmental Isolation ◽  
Climate Fluctuation ◽  
Guizhou Plateau

The Yunnan-Guizhou Plateau (YGP) is characterized by the distinctive isolated habitat of limestone Karst Islands and features the Wumeng Mountains (Mts), which divide the YGP into the two Plateaus of Yunnan and Guizhou. This study aims to assess the effects of past geographic and environmental isolation and climate fluctuation on the flora distribution in the YGP. To this effect, we analyzed the phylogeographical pattern and genetic structure for Myrica nana, a vulnerable species endemic to the YGP, based on chloroplast and nuclear ribosomal DNA sequence. The results suggest that the genetic and haplotype network structures are divided into at least two groups—cpDNA haplotype H2 (or nrDNA haplotypes h1, h2, and the native haplotype) mainly distributed to the east of the Wumeng Mts, and cpDNA haplotype H1 and haplotypes H3–H10 (or nrDNA haplotype h3) distributed to the west of the Wumeng Mts. A deep genetic split was noted within the two groups to reach 25 steps, especially for the cpDNA fragment variation. The east–west divergence reveals the existence of a natural geographical isolation boundary in the form of the Wumeng Mts, which divides the YGP into the Yunnan and Guizhou Plateaus. Therefore, there existed at least two glacial refugia during the Quaternary glacial period, along with a genetic diversity center, and at least two large geographic protection units for the vulnerable species of M. nana, distributed throughout the eastern and western sides of the Wumeng Mts. This study not only clarifies that the phylogeographical pattern and genetic structure for M. nana can be attributed to geographic and environmental isolation and climate fluctuation, but it also proposes an effective strategy to protect vulnerable species and the important wild flora of the YGP.

scholarly journals The biogeography of Elaphe sauromates (Pallas, 1814), with a description of a new rat snake species

PeerJ ◽  
2019 ◽  
Vol 7 ◽  
pp. e6944 ◽  
Author(s):  
Daniel Jablonski ◽  
Oleg V. Kukushkin ◽  
Aziz Avcı ◽  
Sabina Bunyatova ◽  
Yusuf Kumlutaş ◽  
...  
Keyword(s):  
Genetic Structure ◽  
Morphological Variation ◽  
Molecular Genetic ◽  
Glacial Refugia ◽  
Morphological Data ◽  
Meristic Characters ◽  
Climatic Oscillations ◽  
The Balkans ◽  
Haplotype Networks ◽  
Rat Snake

Background The rat snake genus Elaphe once comprised several dozens of species distributed in temperate through tropical zones of the New and Old World. Based on molecular-genetic analyses in early 2000s, the genus was split into several separate genera, leaving only 15 Palearctic and Oriental species as its members. One of the three species also occurring in Europe is Elaphe sauromates, a robust snake from the Balkans, Anatolia, Caucasus, Ponto-Caspian steppes, and Levant that has been suspected to be composed of two or more genetically diverse populations. Here, we studied the genetic structure and morphological variation of E. sauromates, aiming to better understand its inter-population relationships and biogeography, and subsequently revise its taxonomy. Methods We reconstructed the phylogeography and analyzed the genetic structure of E. sauromates populations originating from most of its geographic range using both mitochondrial (COI, ND4) and nuclear (C-MOS, MC1R, PRLR, RAG1) DNA gene fragments. We employed Maximum likelihood and Bayesian inference methods for the phylogenetic tree reconstructions, supplemented with species delimitation methods, analysis of haplotype networks, and calculation of uncorrected p-distances. Morphological variation in 15 metric and 18 meristic characters was studied using parametric univariate tests as well as multivariate general linearized models. In total, we analyzed sequences originating from 63 specimens and morphological data from 95 specimens of E. sauromates sensu lato. Results The molecular phylogeny identified two clearly divergent sister lineages within E. sauromates, with both forming a lineage sister to E. quatuorlineata. The genetic distance between them (5.80–8.24% in mtDNA) is similar to the distances among several other species of the genus Elaphe. Both lineages are also moderately morphologically differentiated and, while none of the characters are exclusively diagnostic, their combination can be used for confident lineage identification. Here, following the criteria of genetic and evolutionary species concepts, we describe the lineage from eastern Anatolia and parts of the Lesser and Great Caucasus as a new species E. urartica sp. nov. Discussion Elaphe urartica sp. nov. represents a cryptic species whose ancestors presumably diverged from their common ancestor with E. sauromates around the Miocene-Pliocene boundary. The intraspecific genetic structure indicates that the recent diversity of both species has been predominantly shaped by Pleistocene climatic oscillations, with glacial refugia mainly located in the Balkans, Crimea, and/or Anatolia in E. sauromates and Anatolia and/or the Caucasus in E. urartica sp. nov.

scholarly journals Range-wide mtDNA phylogeography yields insights into the origins of Asian elephants

2008 ◽  
Vol 276 (1658) ◽  
pp. 893-902 ◽  
Author(s):  
T.N.C Vidya ◽  
Raman Sukumar ◽  
Don J Melnick
Keyword(s):  
Sri Lanka ◽  
Sequence Data ◽  
Large Population ◽  
Glacial Refugia ◽  
Asian Elephants ◽  
Climatic Oscillations ◽  
Mtdna Sequence ◽  
Allopatric Divergence ◽  
Population Sizes ◽  
Northward Expansion

Recent phylogeographic studies of the endangered Asian elephant ( Elephas maximus ) reveal two highly divergent mitochondrial DNA (mtDNA) lineages, an elucidation of which is central to understanding the species's evolution. Previous explanations for the divergent clades include introgression of mtDNA haplotypes between ancestral species, allopatric divergence of the clades between Sri Lanka or the Sunda region and the mainland, historical trade of elephants, and retention of divergent lineages due to large population sizes. However, these studies lacked data from India and Myanmar, which host approximately 70 per cent of all extant Asian elephants. In this paper, we analyse mtDNA sequence data from 534 Asian elephants across the species's range to explain the current distribution of the two divergent clades. Based on phylogenetic reconstructions, estimates of times of origin of clades, probable ancestral areas of origin inferred from dispersal–vicariance analyses and the available fossil record, we believe both clades originated from Elephas hysudricus . This probably occurred allopatrically in different glacial refugia, the α clade in the Myanmar region and the β clade possibly in southern India–Sri Lanka, 1.6–2.1 Myr ago. Results from nested clade and dispersal–vicariance analyses indicate a subsequent isolation and independent diversification of the β clade in both Sri Lanka and the Sunda region, followed by northward expansion of the clade. We also find more recent population expansions in both clades based on mismatch distributions. We therefore suggest a contraction–expansion scenario during severe climatic oscillations of the Quaternary, with range expansions from different refugia during warmer interglacials leading to the varying geographical overlaps of the two mtDNA clades. We also demonstrate that trade in Asian elephants has not substantially altered the species's mtDNA population genetic structure.

scholarly journals Morphological and genetic differentiation in the anguid lizard Pseudopus apodus supports the existence of an endemic subspecies in the Levant

2021 ◽  
Vol 71 ◽  
pp. 175-200
Author(s):  
Daniel Jablonski ◽  
Marco Antônio Ribeiro-Júnior ◽  
Shai Meiri ◽  
Erez Maza ◽  
Oleg V. Kukushkin ◽  
...  
Keyword(s):  
Dna Sequences ◽  
Nuclear Dna ◽  
Eastern Mediterranean ◽  
Glacial Refugia ◽  
Mediterranean Coast ◽  
New Subspecies ◽  
Climatic Oscillations ◽  
The Balkans ◽  
Western Palearctic ◽  
Independent Evolutionary History

The Levant represents one of the most important reptile diversity hotspots and centers of endemism in the Western Palearctic. The region harbored numerous taxa in glacial refugia during the Pleistocene climatic oscillations. Due to the hostile arid conditions in the warmer periods they were not always able to spread or come into contact with populations from more distant regions. One large and conspicuous member of the Levantine herpetofauna is the legless anguid lizard Pseudopus apodus. This species is distributed from the Balkans to Central Asia with a portion of its range running along the eastern Mediterranean coast. Mitochondrial and nuclear DNA sequences, microsatellite genotypes, and morphology show that populations in this region differ from the two named subspecies and presumably had a long independent evolutionary history during the Quaternary. Here we describe the Levantine population as a new subspecies and present biogeographic scenarios for its origin and diversification. The new subspecies is genetically highly diverse, and it forms a sister lineage to Pseudopus from the remaining parts of the range according to mtDNA. It is the largest-bodied of the three subspecies, but occupies the smallest range.

Sign in / Sign up

Export Citation Format

Share Document