Spatial Genetic Structure of the Abundant and Widespread Peatmoss Sphagnum magellanicum Brid

Spore-producing organisms have small dispersal units enabling them to become widespread across continents. However, barriers to gene flow and cryptic speciation may exist. The common, haploid peatmoss Sphagnum magellanicum occurs in both the Northern and Southern hemisphere, and is commonly used as...

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Veröffentlicht in:	PloS one 2016-02, Vol.11 (2), p.e0148447-e0148447
Hauptverfasser:	Kyrkjeeide, Magni Olsen, Hassel, Kristian, Flatberg, Kjell Ivar, Shaw, A Jonathan, Yousefi, Narjes, Stenøien, Hans K
Format:	Artikel
Sprache:	eng
Schlagworte:	Biology and Life Sciences Continents Diploids Diploidy Dispersal DNA, Chloroplast - genetics Earth Sciences Ecological monitoring Ecology Ecology and Environmental Sciences Ecosystem Ecosystems Evolution, Molecular Gene Flow Gene pool Genetic aspects Genetic diversity Genetic Speciation Genetic structure Genetic variability Genetic Variation Genetics, Population Genome, Plant Genomes Genomics Haploidy Loci Microsatellite Repeats Microsatellites Molecular Biology Morphology Museums Northern Hemisphere Organisms Peatland ecology People and places Phylogenetics Phylogeny Physiological aspects Population genetics Science Southern Hemisphere Spatial distribution Speciation Species Species Specificity Sphagnaceae Sphagnopsida - classification Sphagnopsida - genetics Sphagnum Sphagnum centrale Sphagnum magellanicum Sphagnum subsecundum Taxa Time Factors
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creator	Kyrkjeeide, Magni Olsen Hassel, Kristian Flatberg, Kjell Ivar Shaw, A Jonathan Yousefi, Narjes Stenøien, Hans K
description	Spore-producing organisms have small dispersal units enabling them to become widespread across continents. However, barriers to gene flow and cryptic speciation may exist. The common, haploid peatmoss Sphagnum magellanicum occurs in both the Northern and Southern hemisphere, and is commonly used as a model in studies of peatland ecology and peatmoss physiology. Even though it will likely act as a rich source in functional genomics studies in years to come, surprisingly little is known about levels of genetic variability and structuring in this species. Here, we assess for the first time how genetic variation in S. magellanicum is spatially structured across its full distribution range (Northern Hemisphere and South America). The morphologically similar species S. alaskense was included for comparison. In total, 195 plants were genotyped at 15 microsatellite loci. Sequences from two plastid loci (trnG and trnL) were obtained from 30 samples. Our results show that S. alaskense and almost all plants of S. magellanicum in the northern Pacific area are diploids and share the same gene pool. Haploid plants occur in South America, Europe, eastern North America, western North America, and southern Asia, and five genetically differentiated groups with different distribution ranges were found. Our results indicate that S. magellanicum consists of several distinct genetic groups, seemingly with little or no gene flow among them. Noteworthy, the geographical separation of diploids and haploids is strikingly similar to patterns found within other haploid Sphagnum species spanning the Northern Hemisphere. Our results confirm a genetic division between the Beringian and the Atlantic that seems to be a general pattern in Sphagnum taxa. The pattern of strong genetic population structuring throughout the distribution range of morphologically similar plants need to be considered in future functional genomic studies of S. magellanicum.
doi_str_mv	10.1371/journal.pone.0148447
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However, barriers to gene flow and cryptic speciation may exist. The common, haploid peatmoss Sphagnum magellanicum occurs in both the Northern and Southern hemisphere, and is commonly used as a model in studies of peatland ecology and peatmoss physiology. Even though it will likely act as a rich source in functional genomics studies in years to come, surprisingly little is known about levels of genetic variability and structuring in this species. Here, we assess for the first time how genetic variation in S. magellanicum is spatially structured across its full distribution range (Northern Hemisphere and South America). The morphologically similar species S. alaskense was included for comparison. In total, 195 plants were genotyped at 15 microsatellite loci. Sequences from two plastid loci (trnG and trnL) were obtained from 30 samples. Our results show that S. alaskense and almost all plants of S. magellanicum in the northern Pacific area are diploids and share the same gene pool. Haploid plants occur in South America, Europe, eastern North America, western North America, and southern Asia, and five genetically differentiated groups with different distribution ranges were found. Our results indicate that S. magellanicum consists of several distinct genetic groups, seemingly with little or no gene flow among them. Noteworthy, the geographical separation of diploids and haploids is strikingly similar to patterns found within other haploid Sphagnum species spanning the Northern Hemisphere. Our results confirm a genetic division between the Beringian and the Atlantic that seems to be a general pattern in Sphagnum taxa. 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However, barriers to gene flow and cryptic speciation may exist. The common, haploid peatmoss Sphagnum magellanicum occurs in both the Northern and Southern hemisphere, and is commonly used as a model in studies of peatland ecology and peatmoss physiology. Even though it will likely act as a rich source in functional genomics studies in years to come, surprisingly little is known about levels of genetic variability and structuring in this species. Here, we assess for the first time how genetic variation in S. magellanicum is spatially structured across its full distribution range (Northern Hemisphere and South America). The morphologically similar species S. alaskense was included for comparison. In total, 195 plants were genotyped at 15 microsatellite loci. Sequences from two plastid loci (trnG and trnL) were obtained from 30 samples. Our results show that S. alaskense and almost all plants of S. magellanicum in the northern Pacific area are diploids and share the same gene pool. 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The pattern of strong genetic population structuring throughout the distribution range of morphologically similar plants need to be considered in future functional genomic studies of S. magellanicum.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>26859563</pmid><doi>10.1371/journal.pone.0148447</doi><oa>free_for_read</oa></addata></record>
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recordid	cdi_plos_journals_1764135149
source	MEDLINE; DOAJ Directory of Open Access Journals; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; Public Library of Science (PLoS); PubMed Central; Free Full-Text Journals in Chemistry
subjects	Biology and Life Sciences Continents Diploids Diploidy Dispersal DNA, Chloroplast - genetics Earth Sciences Ecological monitoring Ecology Ecology and Environmental Sciences Ecosystem Ecosystems Evolution, Molecular Gene Flow Gene pool Genetic aspects Genetic diversity Genetic Speciation Genetic structure Genetic variability Genetic Variation Genetics, Population Genome, Plant Genomes Genomics Haploidy Loci Microsatellite Repeats Microsatellites Molecular Biology Morphology Museums Northern Hemisphere Organisms Peatland ecology People and places Phylogenetics Phylogeny Physiological aspects Population genetics Science Southern Hemisphere Spatial distribution Speciation Species Species Specificity Sphagnaceae Sphagnopsida - classification Sphagnopsida - genetics Sphagnum Sphagnum centrale Sphagnum magellanicum Sphagnum subsecundum Taxa Time Factors
title	Spatial Genetic Structure of the Abundant and Widespread Peatmoss Sphagnum magellanicum Brid
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