Fine-scale spatial genetic structure in the brooding sea urchin Abatus cordatus suggests vulnerability of the Southern Ocean marine invertebrates facing global change

The Southern Ocean benthic communities are characterized by their levels of endemism and their diversity of invertebrate brooding species. Overall, biological processes acting within these species remain poorly understood despite their importance to understand impacts of ongoing global change. We ta...

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Main Authors: Ledoux, J.-B., Tarnowska, K., Gérard, K., L'Huillier, E., Jacquemin, B., Weydmann, A., Féral, J.-P., Chenuil, A.
Format: Article in Journal/Newspaper
Language:English
Published: Springer-Verlag 2012
Subjects:
Abatus cordatus
Microsatellites
Introns
Brooding
Genetic structure
Heterozygote deficiency
Antarctic
Kerguelen
Kerguelen Islands
Southern Ocean
Antarc*
Online Access:http://www.captura.uchile.cl/handle/2250/16422
id ftunivchilecap:oai:www.captura.uchile.cl:2250/16422
record_format openpolar
spelling ftunivchilecap:oai:www.captura.uchile.cl:2250/16422 2023-05-15T13:43:13+02:00 Fine-scale spatial genetic structure in the brooding sea urchin Abatus cordatus suggests vulnerability of the Southern Ocean marine invertebrates facing global change Ledoux, J.-B. Tarnowska, K. Gérard, K. L'Huillier, E. Jacquemin, B. Weydmann, A. Féral, J.-P. Chenuil, A. 2012 http://www.captura.uchile.cl/handle/2250/16422 en eng Springer-Verlag Abatus cordatus Microsatellites Introns Brooding Genetic structure Heterozygote deficiency Artículo de Revista 2012 ftunivchilecap 2013-12-20T10:28:46Z The Southern Ocean benthic communities are characterized by their levels of endemism and their diversity of invertebrate brooding species. Overall, biological processes acting within these species remain poorly understood despite their importance to understand impacts of ongoing global change. We take part in filling this gap by studying the genetic structure over different spatial scales (from centimeters to tens of kilometers) in Abatus cordatus, an endemic and brooding sea urchin from the Kerguelen Islands. We developed three microsatellites and two exon-primed intron crossing markers and conducted a two-scale sampling scheme (from individuals to patches) within two dense localities of Abatus cordatus. Between patches, all pairwise comparisons, covering distances from few meters (between patches within locality) to 25 km (between localities), revealed significant genetic differentiation, a higher proportion of the molecular variance being explained by the comparisons between localities than within localities, in agreement with an isolation by distance model. Within patches, we found no significant correlation between individual pairwise spatial and genetic distances, except for the most polymorphic locus in the patch where the largest range of geographical distances had been analyzed. This study provides an estimation of the dispersal capacities of Abatus cordatus and highlights its low recolonization ability. Similar low recolonization capacities are thus expected in other Antarctic and Subantarctic brooding invertebrate species and suggest a high vulnerability of these species facing global change. Article in Journal/Newspaper Antarc* Antarctic Kerguelen Islands Southern Ocean Universidad de Chile: Captura Antarctic Kerguelen Kerguelen Islands Southern Ocean
institution Open Polar
collection Universidad de Chile: Captura
op_collection_id ftunivchilecap
language English
topic Abatus cordatus
Microsatellites
Introns
Brooding
Genetic structure
Heterozygote deficiency
spellingShingle Abatus cordatus
Microsatellites
Introns
Brooding
Genetic structure
Heterozygote deficiency
Ledoux, J.-B.
Tarnowska, K.
Gérard, K.
L'Huillier, E.
Jacquemin, B.
Weydmann, A.
Féral, J.-P.
Chenuil, A.
Fine-scale spatial genetic structure in the brooding sea urchin Abatus cordatus suggests vulnerability of the Southern Ocean marine invertebrates facing global change
topic_facet Abatus cordatus
Microsatellites
Introns
Brooding
Genetic structure
Heterozygote deficiency
description The Southern Ocean benthic communities are characterized by their levels of endemism and their diversity of invertebrate brooding species. Overall, biological processes acting within these species remain poorly understood despite their importance to understand impacts of ongoing global change. We take part in filling this gap by studying the genetic structure over different spatial scales (from centimeters to tens of kilometers) in Abatus cordatus, an endemic and brooding sea urchin from the Kerguelen Islands. We developed three microsatellites and two exon-primed intron crossing markers and conducted a two-scale sampling scheme (from individuals to patches) within two dense localities of Abatus cordatus. Between patches, all pairwise comparisons, covering distances from few meters (between patches within locality) to 25 km (between localities), revealed significant genetic differentiation, a higher proportion of the molecular variance being explained by the comparisons between localities than within localities, in agreement with an isolation by distance model. Within patches, we found no significant correlation between individual pairwise spatial and genetic distances, except for the most polymorphic locus in the patch where the largest range of geographical distances had been analyzed. This study provides an estimation of the dispersal capacities of Abatus cordatus and highlights its low recolonization ability. Similar low recolonization capacities are thus expected in other Antarctic and Subantarctic brooding invertebrate species and suggest a high vulnerability of these species facing global change.
format Article in Journal/Newspaper
author Ledoux, J.-B.
Tarnowska, K.
Gérard, K.
L'Huillier, E.
Jacquemin, B.
Weydmann, A.
Féral, J.-P.
Chenuil, A.
author_facet Ledoux, J.-B.
Tarnowska, K.
Gérard, K.
L'Huillier, E.
Jacquemin, B.
Weydmann, A.
Féral, J.-P.
Chenuil, A.
author_sort Ledoux, J.-B.
title Fine-scale spatial genetic structure in the brooding sea urchin Abatus cordatus suggests vulnerability of the Southern Ocean marine invertebrates facing global change
title_short Fine-scale spatial genetic structure in the brooding sea urchin Abatus cordatus suggests vulnerability of the Southern Ocean marine invertebrates facing global change
title_full Fine-scale spatial genetic structure in the brooding sea urchin Abatus cordatus suggests vulnerability of the Southern Ocean marine invertebrates facing global change
title_fullStr Fine-scale spatial genetic structure in the brooding sea urchin Abatus cordatus suggests vulnerability of the Southern Ocean marine invertebrates facing global change
title_full_unstemmed Fine-scale spatial genetic structure in the brooding sea urchin Abatus cordatus suggests vulnerability of the Southern Ocean marine invertebrates facing global change
title_sort fine-scale spatial genetic structure in the brooding sea urchin abatus cordatus suggests vulnerability of the southern ocean marine invertebrates facing global change
publisher Springer-Verlag
publishDate 2012
url http://www.captura.uchile.cl/handle/2250/16422
geographic Antarctic
Kerguelen
Kerguelen Islands
Southern Ocean
geographic_facet Antarctic
Kerguelen
Kerguelen Islands
Southern Ocean
genre Antarc*
Antarctic
Kerguelen Islands
Southern Ocean
genre_facet Antarc*
Antarctic
Kerguelen Islands
Southern Ocean
_version_ 1766185999568732160

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