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Genome‐wide insights into introgression and its consequences for genome‐wide heterozygosity in the Mytilus species complex across Europe

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Zeitschriftentitel: Evolutionary Applications
Personen und Körperschaften: Vendrami, David L. J., De Noia, Michele, Telesca, Luca, Brodte, Eva‐Maria, Hoffman, Joseph I.
In: Evolutionary Applications, 13, 2020, 8, S. 2130-2142
Format: E-Article
Sprache: Englisch
veröffentlicht:
Wiley
Schlagwörter:
General Agricultural and Biological Sciences
Genetics
Ecology, Evolution, Behavior and Systematics
author_facet Vendrami, David L. J.
De Noia, Michele
Telesca, Luca
Brodte, Eva‐Maria
Hoffman, Joseph I.
Vendrami, David L. J.
De Noia, Michele
Telesca, Luca
Brodte, Eva‐Maria
Hoffman, Joseph I.
author Vendrami, David L. J.
De Noia, Michele
Telesca, Luca
Brodte, Eva‐Maria
Hoffman, Joseph I.
spellingShingle Vendrami, David L. J.
De Noia, Michele
Telesca, Luca
Brodte, Eva‐Maria
Hoffman, Joseph I.
Evolutionary Applications
Genome‐wide insights into introgression and its consequences for genome‐wide heterozygosity in the Mytilus species complex across Europe
General Agricultural and Biological Sciences
Genetics
Ecology, Evolution, Behavior and Systematics
author_sort vendrami, david l. j.
spelling Vendrami, David L. J. De Noia, Michele Telesca, Luca Brodte, Eva‐Maria Hoffman, Joseph I. 1752-4571 1752-4571 Wiley General Agricultural and Biological Sciences Genetics Ecology, Evolution, Behavior and Systematics http://dx.doi.org/10.1111/eva.12974 <jats:title>Abstract</jats:title><jats:p>The three mussel species comprising the <jats:italic>Mytilus</jats:italic> complex are widespread across Europe and readily hybridize when they occur in sympatry, resulting in a mosaic of populations with varying genomic backgrounds. Two of these species, <jats:italic>M. edulis</jats:italic> and <jats:italic>M. galloprovincialis</jats:italic>, are extensively cultivated across Europe, with annual production exceeding 230,000 tonnes. The third species, <jats:italic>M.</jats:italic> <jats:italic>trossulus</jats:italic>, is considered commercially damaging as hybridization with this species results in weaker shells and poor meat quality. We therefore used restriction site associated DNA sequencing to generate high‐resolution insights into the structure of the <jats:italic>Mytilus</jats:italic> complex across Europe and to resolve patterns of introgression. Inferred species distributions were concordant with the results of previous studies based on smaller numbers of genetic markers, with <jats:italic>M. edulis</jats:italic> and <jats:italic>M. galloprovincialis</jats:italic> predominating in northern and southern Europe respectively, while introgression between these species was most pronounced in northern France and the Shetland Islands. We also detected traces of <jats:italic>M. trossulus</jats:italic> ancestry in several northern European populations, especially around the Baltic and in northern Scotland. Finally, genome‐wide heterozygosity, whether quantified at the population or individual level, was lowest in <jats:italic>M. edulis</jats:italic>, intermediate in <jats:italic>M. galloprovincialis,</jats:italic> and highest in <jats:italic>M. trossulus</jats:italic>, while introgression was positively associated with heterozygosity in <jats:italic>M. edulis</jats:italic> but negatively associated with heterozygosity in <jats:italic>M. galloprovincialis</jats:italic>. Our study will help to inform mussel aquaculture by providing baseline information on the genomic backgrounds of different <jats:italic>Mytilus</jats:italic> populations across Europe and by elucidating the effects of introgression on genome‐wide heterozygosity, which is known to influence commercially important traits such as growth, viability, and fecundity in mussels.</jats:p> Genome‐wide insights into introgression and its consequences for genome‐wide heterozygosity in the <i>Mytilus</i> species complex across Europe Evolutionary Applications
doi_str_mv 10.1111/eva.12974
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title Genome‐wide insights into introgression and its consequences for genome‐wide heterozygosity in the Mytilus species complex across Europe
title_unstemmed Genome‐wide insights into introgression and its consequences for genome‐wide heterozygosity in the Mytilus species complex across Europe
title_full Genome‐wide insights into introgression and its consequences for genome‐wide heterozygosity in the Mytilus species complex across Europe
title_fullStr Genome‐wide insights into introgression and its consequences for genome‐wide heterozygosity in the Mytilus species complex across Europe
title_full_unstemmed Genome‐wide insights into introgression and its consequences for genome‐wide heterozygosity in the Mytilus species complex across Europe
title_short Genome‐wide insights into introgression and its consequences for genome‐wide heterozygosity in the Mytilus species complex across Europe
title_sort genome‐wide insights into introgression and its consequences for genome‐wide heterozygosity in the <i>mytilus</i> species complex across europe
topic General Agricultural and Biological Sciences
Genetics
Ecology, Evolution, Behavior and Systematics
url http://dx.doi.org/10.1111/eva.12974
publishDate 2020
physical 2130-2142
description <jats:title>Abstract</jats:title><jats:p>The three mussel species comprising the <jats:italic>Mytilus</jats:italic> complex are widespread across Europe and readily hybridize when they occur in sympatry, resulting in a mosaic of populations with varying genomic backgrounds. Two of these species, <jats:italic>M. edulis</jats:italic> and <jats:italic>M. galloprovincialis</jats:italic>, are extensively cultivated across Europe, with annual production exceeding 230,000 tonnes. The third species, <jats:italic>M.</jats:italic> <jats:italic>trossulus</jats:italic>, is considered commercially damaging as hybridization with this species results in weaker shells and poor meat quality. We therefore used restriction site associated DNA sequencing to generate high‐resolution insights into the structure of the <jats:italic>Mytilus</jats:italic> complex across Europe and to resolve patterns of introgression. Inferred species distributions were concordant with the results of previous studies based on smaller numbers of genetic markers, with <jats:italic>M. edulis</jats:italic> and <jats:italic>M. galloprovincialis</jats:italic> predominating in northern and southern Europe respectively, while introgression between these species was most pronounced in northern France and the Shetland Islands. We also detected traces of <jats:italic>M. trossulus</jats:italic> ancestry in several northern European populations, especially around the Baltic and in northern Scotland. Finally, genome‐wide heterozygosity, whether quantified at the population or individual level, was lowest in <jats:italic>M. edulis</jats:italic>, intermediate in <jats:italic>M. galloprovincialis,</jats:italic> and highest in <jats:italic>M. trossulus</jats:italic>, while introgression was positively associated with heterozygosity in <jats:italic>M. edulis</jats:italic> but negatively associated with heterozygosity in <jats:italic>M. galloprovincialis</jats:italic>. Our study will help to inform mussel aquaculture by providing baseline information on the genomic backgrounds of different <jats:italic>Mytilus</jats:italic> populations across Europe and by elucidating the effects of introgression on genome‐wide heterozygosity, which is known to influence commercially important traits such as growth, viability, and fecundity in mussels.</jats:p>
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author Vendrami, David L. J., De Noia, Michele, Telesca, Luca, Brodte, Eva‐Maria, Hoffman, Joseph I.
author_facet Vendrami, David L. J., De Noia, Michele, Telesca, Luca, Brodte, Eva‐Maria, Hoffman, Joseph I., Vendrami, David L. J., De Noia, Michele, Telesca, Luca, Brodte, Eva‐Maria, Hoffman, Joseph I.
author_sort vendrami, david l. j.
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description <jats:title>Abstract</jats:title><jats:p>The three mussel species comprising the <jats:italic>Mytilus</jats:italic> complex are widespread across Europe and readily hybridize when they occur in sympatry, resulting in a mosaic of populations with varying genomic backgrounds. Two of these species, <jats:italic>M. edulis</jats:italic> and <jats:italic>M. galloprovincialis</jats:italic>, are extensively cultivated across Europe, with annual production exceeding 230,000 tonnes. The third species, <jats:italic>M.</jats:italic> <jats:italic>trossulus</jats:italic>, is considered commercially damaging as hybridization with this species results in weaker shells and poor meat quality. We therefore used restriction site associated DNA sequencing to generate high‐resolution insights into the structure of the <jats:italic>Mytilus</jats:italic> complex across Europe and to resolve patterns of introgression. Inferred species distributions were concordant with the results of previous studies based on smaller numbers of genetic markers, with <jats:italic>M. edulis</jats:italic> and <jats:italic>M. galloprovincialis</jats:italic> predominating in northern and southern Europe respectively, while introgression between these species was most pronounced in northern France and the Shetland Islands. We also detected traces of <jats:italic>M. trossulus</jats:italic> ancestry in several northern European populations, especially around the Baltic and in northern Scotland. Finally, genome‐wide heterozygosity, whether quantified at the population or individual level, was lowest in <jats:italic>M. edulis</jats:italic>, intermediate in <jats:italic>M. galloprovincialis,</jats:italic> and highest in <jats:italic>M. trossulus</jats:italic>, while introgression was positively associated with heterozygosity in <jats:italic>M. edulis</jats:italic> but negatively associated with heterozygosity in <jats:italic>M. galloprovincialis</jats:italic>. Our study will help to inform mussel aquaculture by providing baseline information on the genomic backgrounds of different <jats:italic>Mytilus</jats:italic> populations across Europe and by elucidating the effects of introgression on genome‐wide heterozygosity, which is known to influence commercially important traits such as growth, viability, and fecundity in mussels.</jats:p>
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spelling Vendrami, David L. J. De Noia, Michele Telesca, Luca Brodte, Eva‐Maria Hoffman, Joseph I. 1752-4571 1752-4571 Wiley General Agricultural and Biological Sciences Genetics Ecology, Evolution, Behavior and Systematics http://dx.doi.org/10.1111/eva.12974 <jats:title>Abstract</jats:title><jats:p>The three mussel species comprising the <jats:italic>Mytilus</jats:italic> complex are widespread across Europe and readily hybridize when they occur in sympatry, resulting in a mosaic of populations with varying genomic backgrounds. Two of these species, <jats:italic>M. edulis</jats:italic> and <jats:italic>M. galloprovincialis</jats:italic>, are extensively cultivated across Europe, with annual production exceeding 230,000 tonnes. The third species, <jats:italic>M.</jats:italic> <jats:italic>trossulus</jats:italic>, is considered commercially damaging as hybridization with this species results in weaker shells and poor meat quality. We therefore used restriction site associated DNA sequencing to generate high‐resolution insights into the structure of the <jats:italic>Mytilus</jats:italic> complex across Europe and to resolve patterns of introgression. Inferred species distributions were concordant with the results of previous studies based on smaller numbers of genetic markers, with <jats:italic>M. edulis</jats:italic> and <jats:italic>M. galloprovincialis</jats:italic> predominating in northern and southern Europe respectively, while introgression between these species was most pronounced in northern France and the Shetland Islands. We also detected traces of <jats:italic>M. trossulus</jats:italic> ancestry in several northern European populations, especially around the Baltic and in northern Scotland. Finally, genome‐wide heterozygosity, whether quantified at the population or individual level, was lowest in <jats:italic>M. edulis</jats:italic>, intermediate in <jats:italic>M. galloprovincialis,</jats:italic> and highest in <jats:italic>M. trossulus</jats:italic>, while introgression was positively associated with heterozygosity in <jats:italic>M. edulis</jats:italic> but negatively associated with heterozygosity in <jats:italic>M. galloprovincialis</jats:italic>. Our study will help to inform mussel aquaculture by providing baseline information on the genomic backgrounds of different <jats:italic>Mytilus</jats:italic> populations across Europe and by elucidating the effects of introgression on genome‐wide heterozygosity, which is known to influence commercially important traits such as growth, viability, and fecundity in mussels.</jats:p> Genome‐wide insights into introgression and its consequences for genome‐wide heterozygosity in the <i>Mytilus</i> species complex across Europe Evolutionary Applications
spellingShingle Vendrami, David L. J., De Noia, Michele, Telesca, Luca, Brodte, Eva‐Maria, Hoffman, Joseph I., Evolutionary Applications, Genome‐wide insights into introgression and its consequences for genome‐wide heterozygosity in the Mytilus species complex across Europe, General Agricultural and Biological Sciences, Genetics, Ecology, Evolution, Behavior and Systematics
title Genome‐wide insights into introgression and its consequences for genome‐wide heterozygosity in the Mytilus species complex across Europe
title_full Genome‐wide insights into introgression and its consequences for genome‐wide heterozygosity in the Mytilus species complex across Europe
title_fullStr Genome‐wide insights into introgression and its consequences for genome‐wide heterozygosity in the Mytilus species complex across Europe
title_full_unstemmed Genome‐wide insights into introgression and its consequences for genome‐wide heterozygosity in the Mytilus species complex across Europe
title_short Genome‐wide insights into introgression and its consequences for genome‐wide heterozygosity in the Mytilus species complex across Europe
title_sort genome‐wide insights into introgression and its consequences for genome‐wide heterozygosity in the <i>mytilus</i> species complex across europe
title_unstemmed Genome‐wide insights into introgression and its consequences for genome‐wide heterozygosity in the Mytilus species complex across Europe
topic General Agricultural and Biological Sciences, Genetics, Ecology, Evolution, Behavior and Systematics
url http://dx.doi.org/10.1111/eva.12974