The Evolving Genetic History of a Population of Lathyrus sylvestris: Evidence From Temporal and Spatial Genetic Structure

Oak trees (Quercus L.) are important models for estimating abiotic impacts on the population structure and demography of long life span tree species. In this study, we generated genetic data for 17 nuclear microsatellite loci in 29 natural populations of Quercus fabri to estimate the population genetic structure. We also integrated approximate Bayesian computation (ABC) and ecological niche analysis to infer the population differentiation processes and demographic history of this oak species. The genetic analyses indicated two genetic clusters across the 29 populations collected, where most approximately corresponded to the intraspecific differentiation among populations from western and eastern China, whereas admixed populations were mainly found in central mountains of China. The best model obtained from hierarchical ABC simulations suggested that the initial intraspecific divergence of Q. fabri potentially occurred during the late Pliocene (ca. 3.99 Ma) to form the two genetic clusters, and the admixed population group might have been generated by genetic admixture of the two differentiated groups at ca. 53.76 ka. Ecological analyses demonstrated clear differentiation among the Q. fabri population structures, and association estimations also indicated significant correlations between geography and climate with the genetic variation in this oak species. Our results suggest abiotic influences, including past climatic changes and ecological factors, might have affected the genetic differentiation and demographic history of Q. fabri in subtropical China.

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Genetic Structure and Molecular Diversity of Cacao Plants Established as Local Varieties for More than Two Centuries: The Genetic History of Cacao Plantations in Bahia, Brazil

PLoS ONE ◽

10.1371/journal.pone.0145276 ◽

2015 ◽

Vol 10 (12) ◽

pp. e0145276 ◽

Cited By ~ 4

Author(s):

Elisa S. L. Santos ◽

Carlos Bernard M. Cerqueira-Silva ◽

Gustavo M. Mori ◽

Dário Ahnert ◽

Durval L. N. Mello ◽

...

Keyword(s):

Genetic Structure ◽

Molecular Diversity ◽

Local Varieties ◽

Genetic History ◽

History Of

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Genetic structure of the endemic Papaver occidentale indicates survival and immigration in the Western Prealps

Alpine Botany ◽

10.1007/s00035-020-00238-3 ◽

2020 ◽

Vol 130 (2) ◽

pp. 129-140 ◽

Cited By ~ 1

Author(s):

Loïc Pittet ◽

Yann Fragnière ◽

Sandra Grünig ◽

Sébastien Bétrisey ◽

Benoît Clément ◽

...

Keyword(s):

Genetic Structure ◽

Plant Species ◽

Endemic Species ◽

Climate Changes ◽

Spatial Genetic Structure ◽

Ecological Modelling ◽

Conservation Priorities ◽

Niche Modelling ◽

Local Survival ◽

History Of

Abstract Climatic oscillations of the Quaternary rapidly compelled plant species to shift their geographical range. How alpine plant species responded to climate change, however, remains elusive and remnants of the cold-adapted flora that currently strive in restricted ranges as small, isolated populations have been particularly overlooked. To address the evolutionary history of such a ‘glacial relict’, we here sampled and genotyped all known native populations of a narrow endemic species from the northwestern Alps, Papaver occidentale, as well as closely related taxa with double digest restriction-site Associated DNA (ddRAD) sequencing. Spatial patterns of genetic variation across populations coupled with insights from climatic niche modelling through time address underpinings of the long-term persistence of the species in face of climate changes. Evidence from population genetics and ecological modelling indicates that P. occidentale likely persisted through the last glacial maximum outside of the Western Prealps and that a major lineage recolonized the area from lower elevation, external regions. Differentiated lineages at the Northern margins of the species distribution range highlight highly divergent and geographically restricted populations that include considerable share of private markers and may indicate local glacial survival in isolated conditions. Our data thus imply that processes having shaped intraspecific spatial genetic structure within the Alps can be complex and lead to mosaic of populations with a mixed-history of local survival and immigration. A better understanding of spatio-temporal aspects of range contraction–expansion is crucial to shed light on processes underlying the evolution of remnant populations of such endemic species and set conservation priorities considering current climate changes.

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New insights on spatial genetic structure and diversity of Coffea canephora (Rubiaceae) in Upper Guinea based on old herbaria

Plant Ecology and Evolution ◽

10.5091/plecevo.2020.1584 ◽

2020 ◽

Vol 153 (1) ◽

pp. 82-100

Author(s):

Jean-Pierre Labouisse ◽

Philippe Cubry ◽

Frédéric Austerlitz ◽

Ronan Rivallan ◽

Hong Anh Nguyen

Keyword(s):

Genetic Diversity ◽

Genetic Structure ◽

Spatial Genetic Structure ◽

Coffea Canephora ◽

Ex Situ ◽

Herbarium Specimens ◽

Robusta Coffee ◽

Forest Remnants ◽

History Of ◽

Genetic Structure And Diversity

Backgrounds and aims – Previous studies showed that robusta coffee (Coffea canephora Pierre ex A.Froehner), one of the two cultivated coffee species worldwide, can be classified in two genetic groups: the Guinean group originating in Upper Guinea and the Congolese group in Lower Guinea and Congolia. Although C. canephora of the Guinean group is an important resource for genetic improvement of robusta coffee, its germplasm is under-represented in ex situ gene banks and its genetic diversity and population structure have not yet been investigated. Methods – To overcome the limitations of living collections, we explored old herbarium specimens collected in Guinea and Côte d’Ivoire and conserved at the Muséum National d’Histoire Naturelle, Paris. First, we reviewed the history of collection missions in both countries and how the C. canephora herbaria from the Muséum were assembled. Then, using 23 nuclear microsatellite markers, factorial and model-based Bayesian analyses, we investigated the genetic diversity of 126 specimens and 36 controls, analysed their distribution among the Congolese and Guinean groups, and estimated admixture proportions for each individual.Key results – For the first time, we detected population genetic structure within the Guinean group of C. canephora. The Guinean genotypes can be assigned to five sub-groups with distinct geographic distribution, especially in Guinea where two sub-groups (Maclaudii and Gamé) are characterized by a low level of admixture due to geographical isolation.Conclusions – We showed how combining a literature review and genetic data from old herbarium specimens can shed light on previous observations made by botanists and guide further actions to better preserve native coffee plants in forest remnants of West Africa.

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Diverse northern Asian and Jomon-related genetic structure discovered among socially complex Three Kingdoms period Gaya region Koreans

10.1101/2021.10.23.465563 ◽

2021 ◽

Author(s):

Pere Gelabert ◽

Asta Blazyte ◽

Yongjoon Chang ◽

Daniel Fernandes ◽

Sungwon Jeon ◽

...

Keyword(s):

Genetic Structure ◽

Social Status ◽

Iron Age ◽

Archaeological Evidence ◽

Genetic History ◽

Genetic Groups ◽

History Of ◽

Northern Chinese ◽

Genetic Source

The genetic history of prehistoric and protohistoric Korean populations is not well understood due to the lack of ancient Korean genomes. Here, we report the first paleogenomic data from Korea; eight shotgun-sequenced genomes (0.7X~6.1X coverage) from two archeological sites in Gimhae: Yuha-ri shell mound and Daesung-dong tumuli, the most important funerary complex of the Gaya confederacy. All eight individuals are from the Korean Three Kingdoms period (4th-7th century CE), during which there is archaeological evidence of extensive trade connections with both northern (modern-day China) and eastern (modern-day Japan) kingdoms. All genomes are best modeled as an admixture between a northern-Chinese Iron Age genetic source and a Japanese-Jomon-related ancestry. The proportion of Jomon-related ancestry suggests the presence of two genetic groups within the population. The observed substructure indicates diversity among the Gaya population that is not related to either social status or sex.

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