One Step Away From Extinction: A Population Genomic Analysis of A Narrow Endemic, Tropical Plant Species

One Step Away From Extinction: A Population Genomic Analysis of A Narrow Endemic, Tropical Plant Species

Intraspecific genetic variation plays a fundamental role in maintaining the evolutionary potential of wild populations. Hence, the assessment of genetic diversity patterns becomes essential to guide biodiversity conservation policies, particularly for threatened species. To inform management strateg...

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Bibliographic Details
Main Authors: Thais M. Teixeira, Alison G. Nazareno
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-09-01
Series:Frontiers in Plant Science
Subjects:
demographic history
Fabaceae
Mimosa catharinensis
conservation genetics
genetic diversity
Online Access:https://www.frontiersin.org/articles/10.3389/fpls.2021.730258/full
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spelling doaj-d1869374d65544309ef207ecac4030d72021-09-23T15:12:12ZengFrontiers Media S.A.Frontiers in Plant Science1664-462X2021-09-011210.3389/fpls.2021.730258730258One Step Away From Extinction: A Population Genomic Analysis of A Narrow Endemic, Tropical Plant SpeciesThais M. Teixeira0Alison G. Nazareno1Alison G. Nazareno2Department of Genetics, Ecology and Evolution, Federal University of Minas Gerais, Belo Horizonte, BrazilDepartment of Genetics, Ecology and Evolution, Federal University of Minas Gerais, Belo Horizonte, BrazilDepartment of Ecology and Evolutionary Biology, University of Michigan, Ann Arbor, MI, United StatesIntraspecific genetic variation plays a fundamental role in maintaining the evolutionary potential of wild populations. Hence, the assessment of genetic diversity patterns becomes essential to guide biodiversity conservation policies, particularly for threatened species. To inform management strategies for conservation of Mimosa catharinensis – a narrow endemic, critically endangered plant species – we identified 1,497 unlinked SNP markers derived from a reduced representation sequencing method (i.e., double digest restriction site associated DNA sequencing, or ddRADseq). This set of molecular markers was employed to assess intrapopulation genetic parameters and the demographic history of one extremely small population of M. catharinensis (N=33) located in the Brazilian Atlantic Forest. Contrary to what is expected for narrow endemic and threatened species with small population sizes, we observed a moderate level of genetic diversity for M. catharinensis [uHE(0%missing data)=0.205, 95% CI (0.160, 0.250); uHE(30%missing data)=0.233, 95% CI (0.174, 0.292)]. Interestingly, M. catharinensis, which is a lianescent shrub with no indication of seed production for at least two decades, presented high levels of outcrossing [t(0%missing data)=0.883, SE±0.0483; t(30%missing data)=0.909, SE±0.011] and an apparent absence of inbreeding [F(0%missing data)=−0.145, 95% CI (−0.189, −0.101); F(30%missing data)=−0.105, 95% CI (−0.199, −0.011)]. However, the reconstruction of demographic history of M. catharinensis indicated that the population should be suffered a recent bottleneck. Our population genomic study tackles a central issue in evolution and conservation biology and we expect that it will be useful to help safeguard the remaining genetic diversity reported for this unique genetic resource.https://www.frontiersin.org/articles/10.3389/fpls.2021.730258/fulldemographic historyFabaceaeMimosa catharinensisconservation geneticsgenetic diversity
collection DOAJ
language English
format Article
sources DOAJ
author Thais M. Teixeira
Alison G. Nazareno
Alison G. Nazareno
spellingShingle Thais M. Teixeira
Alison G. Nazareno
Alison G. Nazareno
One Step Away From Extinction: A Population Genomic Analysis of A Narrow Endemic, Tropical Plant Species
Frontiers in Plant Science
demographic history
Fabaceae
Mimosa catharinensis
conservation genetics
genetic diversity
author_facet Thais M. Teixeira
Alison G. Nazareno
Alison G. Nazareno
author_sort Thais M. Teixeira
title One Step Away From Extinction: A Population Genomic Analysis of A Narrow Endemic, Tropical Plant Species
title_short One Step Away From Extinction: A Population Genomic Analysis of A Narrow Endemic, Tropical Plant Species
title_full One Step Away From Extinction: A Population Genomic Analysis of A Narrow Endemic, Tropical Plant Species
title_fullStr One Step Away From Extinction: A Population Genomic Analysis of A Narrow Endemic, Tropical Plant Species
title_full_unstemmed One Step Away From Extinction: A Population Genomic Analysis of A Narrow Endemic, Tropical Plant Species
title_sort one step away from extinction: a population genomic analysis of a narrow endemic, tropical plant species
publisher Frontiers Media S.A.
series Frontiers in Plant Science
issn 1664-462X
publishDate 2021-09-01
description Intraspecific genetic variation plays a fundamental role in maintaining the evolutionary potential of wild populations. Hence, the assessment of genetic diversity patterns becomes essential to guide biodiversity conservation policies, particularly for threatened species. To inform management strategies for conservation of Mimosa catharinensis – a narrow endemic, critically endangered plant species – we identified 1,497 unlinked SNP markers derived from a reduced representation sequencing method (i.e., double digest restriction site associated DNA sequencing, or ddRADseq). This set of molecular markers was employed to assess intrapopulation genetic parameters and the demographic history of one extremely small population of M. catharinensis (N=33) located in the Brazilian Atlantic Forest. Contrary to what is expected for narrow endemic and threatened species with small population sizes, we observed a moderate level of genetic diversity for M. catharinensis [uHE(0%missing data)=0.205, 95% CI (0.160, 0.250); uHE(30%missing data)=0.233, 95% CI (0.174, 0.292)]. Interestingly, M. catharinensis, which is a lianescent shrub with no indication of seed production for at least two decades, presented high levels of outcrossing [t(0%missing data)=0.883, SE±0.0483; t(30%missing data)=0.909, SE±0.011] and an apparent absence of inbreeding [F(0%missing data)=−0.145, 95% CI (−0.189, −0.101); F(30%missing data)=−0.105, 95% CI (−0.199, −0.011)]. However, the reconstruction of demographic history of M. catharinensis indicated that the population should be suffered a recent bottleneck. Our population genomic study tackles a central issue in evolution and conservation biology and we expect that it will be useful to help safeguard the remaining genetic diversity reported for this unique genetic resource.
topic demographic history
Fabaceae
Mimosa catharinensis
conservation genetics
genetic diversity
url https://www.frontiersin.org/articles/10.3389/fpls.2021.730258/full
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