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Gene Flow among Populations of Two Rare Co-Occurring Fern Species Differing in Ploidy Level

Differences in ploidy levels among different fern species have a vast influence on their mating system, their colonization ability and on the gene flow among populations. Differences in the colonization abilities of species with different ploidy levels are well known: tetraploids, in contrast to dip...

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Autores principales: Bucharová, Anna, Münzbergová, Zuzana
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2012
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3447768/
https://www.ncbi.nlm.nih.gov/pubmed/23029277
http://dx.doi.org/10.1371/journal.pone.0045855
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author Bucharová, Anna
Münzbergová, Zuzana
author_facet Bucharová, Anna
Münzbergová, Zuzana
author_sort Bucharová, Anna
collection PubMed
description Differences in ploidy levels among different fern species have a vast influence on their mating system, their colonization ability and on the gene flow among populations. Differences in the colonization abilities of species with different ploidy levels are well known: tetraploids, in contrast to diploids, are able to undergo intra-gametophytic selfing. Because fertilization is a post-dispersal process in ferns, selfing results in better colonization abilities in tetraploids because of single spore colonization. Considerably less is known about the gene flow among populations of different ploidy levels. The present study examines two rare fern species that differ in ploidy. While it has already been confirmed that tetraploid species are better at colonizing, the present study focuses on the gene flow among existing populations. We analyzed the genetic structure of a set of populations in a 10×10 km study region using isoenzymes. Genetic variation in tetraploid species is distributed mainly among populations; the genetic distance between populations is correlated with the geographical distance, and larger populations host more genetic diversity than smaller populations. In the diploid species, most variability is partitioned within populations; the genetic distance is not related to geographic distance, and the genetic diversity of populations is not related to the population size. This suggests that in tetraploid species, which undergo selfing, gene flow is limited. In contrast, in the diploid species, which experience outcrossing, gene flow is extensive and the whole system behaves as one large population. Our results suggest that in ferns, the ability to colonize new habitats and the gene flow among existing populations are affected by the mating system.
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spelling pubmed-34477682012-10-01 Gene Flow among Populations of Two Rare Co-Occurring Fern Species Differing in Ploidy Level Bucharová, Anna Münzbergová, Zuzana PLoS One Research Article Differences in ploidy levels among different fern species have a vast influence on their mating system, their colonization ability and on the gene flow among populations. Differences in the colonization abilities of species with different ploidy levels are well known: tetraploids, in contrast to diploids, are able to undergo intra-gametophytic selfing. Because fertilization is a post-dispersal process in ferns, selfing results in better colonization abilities in tetraploids because of single spore colonization. Considerably less is known about the gene flow among populations of different ploidy levels. The present study examines two rare fern species that differ in ploidy. While it has already been confirmed that tetraploid species are better at colonizing, the present study focuses on the gene flow among existing populations. We analyzed the genetic structure of a set of populations in a 10×10 km study region using isoenzymes. Genetic variation in tetraploid species is distributed mainly among populations; the genetic distance between populations is correlated with the geographical distance, and larger populations host more genetic diversity than smaller populations. In the diploid species, most variability is partitioned within populations; the genetic distance is not related to geographic distance, and the genetic diversity of populations is not related to the population size. This suggests that in tetraploid species, which undergo selfing, gene flow is limited. In contrast, in the diploid species, which experience outcrossing, gene flow is extensive and the whole system behaves as one large population. Our results suggest that in ferns, the ability to colonize new habitats and the gene flow among existing populations are affected by the mating system. Public Library of Science 2012-09-20 /pmc/articles/PMC3447768/ /pubmed/23029277 http://dx.doi.org/10.1371/journal.pone.0045855 Text en © 2012 Bucharová, Münzbergová http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Bucharová, Anna
Münzbergová, Zuzana
Gene Flow among Populations of Two Rare Co-Occurring Fern Species Differing in Ploidy Level
title Gene Flow among Populations of Two Rare Co-Occurring Fern Species Differing in Ploidy Level
title_full Gene Flow among Populations of Two Rare Co-Occurring Fern Species Differing in Ploidy Level
title_fullStr Gene Flow among Populations of Two Rare Co-Occurring Fern Species Differing in Ploidy Level
title_full_unstemmed Gene Flow among Populations of Two Rare Co-Occurring Fern Species Differing in Ploidy Level
title_short Gene Flow among Populations of Two Rare Co-Occurring Fern Species Differing in Ploidy Level
title_sort gene flow among populations of two rare co-occurring fern species differing in ploidy level
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3447768/
https://www.ncbi.nlm.nih.gov/pubmed/23029277
http://dx.doi.org/10.1371/journal.pone.0045855
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