Pleistocene glacial refugia across the Appalachian Mountains and coastal plain in the millipede genus Narceus: Evidence from population genetic, phylogeographic, and paleoclimatic data

AbstractGenetic diversity feeds the evolutionary process and allows populations to adapt to environmental changes. However, we still lack a thorough understanding of why hotspots of genetic diversity are so 'hot'. Here, we analysed the relative contribution of bioclimatic stability and genetic admixture between divergent lineages in shaping spatial patterns of genetic diversity in the common toad Bufo bufo along the Italian peninsula. We combined population genetic, phylogeographic and species distribution modelling (SDM) approaches to map ancestral areas, glacial refugia, and secondary contact zones. We consistently identified three phylogeographic lineages, distributed in northern, central and southern Italy. These lineages expanded from their ancestral areas and established secondary contact zones, before the last interglacial. SDM identified widespread glacial refugia in peninsular Italy, sometimes located under the present-day sea-level. Generalized linear models indicated genetic admixture as the only significant predictor of the levels of population genetic diversity. Our results show that glacial refugia contributed to preserving both levels and patterns of genetic diversity across glacial-interglacial cycles, but not to their formation, and highlight a general principle emerging in Mediterranean species: higher levels of genetic diversity mark populations with substantial contributions from multiple genetic lineages, irrespective of the location of glacial refugia.

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Cytogeography of the Solidago rugosa Mill. Complex (Asteraceae: Astereae) in Eastern North America

Taxonomy ◽

10.3390/taxonomy1040023 ◽

2021 ◽

Vol 1 (4) ◽

pp. 290-301

Author(s):

John C. Semple ◽

Jie Zhang ◽

Rachel E. Cook ◽

Bambang Agus Suripto

Keyword(s):

North America ◽

Coastal Plain ◽

Chromosome Numbers ◽

Appalachian Mountains ◽

Eastern North America ◽

Ploidy Levels ◽

Northern Portion ◽

Allegheny Mountains ◽

Growing Conditions ◽

First Time

Chromosome numbers are reported here for the first time from 117 individuals of Solidago rugosa and S. fistulosa. Including 178 previously published reports for the two species plus S. latissimifolia, chromosome numbers have been determined from 295 individuals from 269 locations. Only diploids (2n = 18) were found throughout the range of S. fistulosa on the coastal plain in the eastern U.S.A. (44 counts). Diploids (2n = 18) were found in the northern portion of the range of S. latissimifolia, and tetraploids (2n = 36) and hexaploids (2n = 54) were found in the central and southern portions of the range (nine counts in total). Diploids (2n = 18) were found throughout the range of S. rugosa in much of eastern North America in four of the five varieties (northern var. rugosa, var. sphagnophila; southern var. aspera and var. celtidifolia). Tetraploids (2n = 36) were found in all four of these varieties and exclusively in var. cronquistiana in the southern high Appalachian Mountains. Hexaploids (2n = 54) were found in var. sphagnophila at scattered locations. One possible hexaploid in var. rugosa was found in the Allegheny Mountains. The diversity in ploidy levels was independent of the size of the range and the diversity of growing conditions among the three species of S. subsect. Venosae.

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A Forest Type Classification for the Southern Appalachian Mountains and the Adjacent Plateau and Coastal Plain Regions

Journal of Forestry ◽

10.1093/jof/24.6.673 ◽

1926 ◽

Vol 24 (6) ◽

pp. 673-684 ◽

Cited By ~ 2

Author(s):

Keyword(s):

Coastal Plain ◽

Forest Type ◽

Appalachian Mountains ◽

Southern Appalachian Mountains ◽

Southern Appalachian ◽

Type Classification

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Congruent population genetic structures and divergence histories in anther-smut fungi and their host plants Silene italica and the S. nutans species complex

10.1101/2020.01.04.894774 ◽

2020 ◽

Author(s):

Fanny E. Hartmann ◽

Alodie Snirc ◽

Amandine Cornille ◽

Cécile Godé ◽

Pascal Touzet ◽

...

Keyword(s):

Genetic Structure ◽

Host Plant ◽

Population Genetic Structure ◽

Population Genetic ◽

Species Complex ◽

Host Plants ◽

Glacial Refugia ◽

Smut Fungi ◽

Genetic Lineages ◽

Anther Smut

AbstractThe study of population genetic structure congruence between hosts and pathogens gives important insights into their shared phylogeographic and coevolutionary histories. We studied the population genetic structure of castrating anther-smut fungi (Microbotryum genus) and of their host plants, the Silene nutans species complex, and the morphologically and genetically close S. italica, which can be found in sympatry. Phylogeographic population genetic structure related to persistence in separate glacial refugia has been recently revealed in the S. nutans plant species complex across Western Europe, identifying several distinct lineages. We genotyped 171 associated plant-pathogen pairs of anther-smut fungi and their host plant individuals using microsatellite markers and plant chloroplastic SNPs. We found clear differentiation between fungal populations parasitizing S. nutans and S. italica plants. The population genetic structure of fungal strains parasitizing the S. nutans plant species complex mirrored the host plant genetic structure, suggesting that the pathogen was isolated in glacial refugia together with its host and/or that it has specialized on the plant genetic lineages. Using random forest approximate Bayesian computation (ABC-RF), we found that the divergence history of the fungal lineages on S. nutans was congruent with the one previously inferred for the host plant and likely occurred with ancient but no recent gene flow. Genome sequences confirmed the genetic structure and the absence of recent gene flow between fungal genetic lineages. Our analyses of host-pathogen individual pairs contribute to a better understanding of co-evolutionary histories between hosts and pathogens in natural ecosystems, in which such studies are still scarce.

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Carabodes of the eastern United States and adjacent Canada (Acari: Oribatida: Carabodidae)

Canadian Journal of Zoology ◽

10.1139/z92-276 ◽

1992 ◽

Vol 70 (10) ◽

pp. 2042-2058 ◽

Cited By ~ 7

Author(s):

R. Marcel Reeves

Keyword(s):

United States ◽

North America ◽

Coastal Plain ◽

Forest Floor ◽

Appalachian Mountains ◽

Atlantic Coastal Plain ◽

Eastern North America ◽

Eastern United States ◽

Thelytokous Parthenogenesis ◽

Atlantic Coastal

Adults of four new species of Carabodes, C. chandleri, C. erectus, C. interruptus, and C. pentasetosus, and the immatures of C. erectus, are described. All have been collected from a variety of forest-floor habitats, with C. chandleri, C. interruptus, and C. pentasetosus more common in leaf litter, and C. erectus preferring polyporous fungi. All four species are widely distributed in eastern North America, with C. chandleri, C. erectus, and C. interruptus more abundant in samples from the Appalachian Mountains and C. pentasetosus in those from the Atlantic coastal plain. Thelytokous parthenogenesis is suspected to occur in C. pentasetosus n.sp. and Carabodes granulatus Banks. A key to the 19 species of Carabodes found in North America is provided.

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Phylogeography of Hipposideros armiger (Chiroptera: Hipposideridae) in the Oriental Region: the contribution of multiple Pleistocene glacial refugia and intrinsic factors to contemporary population genetic structure

Journal of Biogeography ◽

10.1111/jbi.12163 ◽

2013 ◽

Vol 41 (2) ◽

pp. 317-327 ◽

Cited By ~ 20

Author(s):

Ai-Qing Lin ◽

Gabor Csorba ◽

Lin-Feng Li ◽

Ting-Lei Jiang ◽

Guan-Jun Lu ◽

...

Keyword(s):

Genetic Structure ◽

Population Genetic Structure ◽

Population Genetic ◽

Glacial Refugia ◽

Oriental Region ◽

Intrinsic Factors

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Convective Episodes in the East-Central United States

Monthly Weather Review ◽

10.1175/2007mwr2098.1 ◽

2007 ◽

Vol 135 (11) ◽

pp. 3707-3727 ◽

Cited By ~ 43

Author(s):

Matthew D. Parker ◽

David A. Ahijevych

Keyword(s):

United States ◽

Coastal Plain ◽

Appalachian Mountains ◽

Vertical Wind Shear ◽

Radar Data ◽

Daily Maximum ◽

Eastern United States ◽

East Central ◽

Convective Systems ◽

Central United States

Abstract Nine years of composited radar data are investigated to assess the presence of organized convective episodes in the east-central United States. In the eastern United States, the afternoon maximum in thunderstorms is ubiquitous over land. However, after removing this principal diurnal peak from the radar data, the presence and motion of organized convective systems becomes apparent in both temporally averaged fields and in the statistics of convective episodes identified by an objective algorithm. Convective echoes are diurnally maximized over the Appalachian chain, and are repeatedly observed to move toward the east. Partly as a result of this, the daily maximum in storms is delayed over the Piedmont and coastal plain relative to the Appalachian Mountains and the Atlantic coast. During the 9 yr studied, the objective algorithm identified 2128 total convective episodes (236 yr−1), with several recurring behaviors. Many systems developed over the elevated terrain during the afternoon and moved eastward, often to the coastline and even offshore. In addition, numerous systems formed to the west of the Appalachian Mountains and moved into and across the eastern U.S. study domain. In particular, many nocturnal convective systems from the central United States entered the western side of the study domain, frequently arriving at the eastern mountains around the next day’s afternoon maximum in storm frequency. A fraction of such well-timed systems succeeded in crossing the Appalachians and continuing across the Piedmont and coastal plain. Convective episodes were most frequent during the high-instability, low-shear months of summer, which dominate the year-round statistics. Even so, an important result is that the episodes still occurred almost exclusively in above-average vertical wind shear. Despite the overall dominance of the diurnal cycle, the data show that adequate shear in the region frequently leads to long-lived convective episodes with mesoscale organization.

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