Replicar los datos para: Spatial and temporal stability in the population structure of a marine crab despite the long distance between populations, the presence of a biogeographic break, and the main oceanic currents

Replicar los datos para: Spatial and temporal stability in the population structure of a marine crab despite the long distance between populations, the presence of a biogeographic break, and the main oceanic currents

Elucidating the processes responsible for maintaining the population connectivity of marine benthic species mediated by larval dispersal remains a fundamental question in marine ecology and fishery management. Understanding these processes becomes particularly important in areas with a biogeographical break and primarily unidirectional water movement along the sides of the break. Based on single-nucleotide polymorphism (SNP) variability, we determine the population genetic structure, temporal genetic stability, and gene flow among populations of the commercially important crab Metacarcinus edwardsii in a system in southern Chile with a biogeographical break at 42°S. Specimens were collected from eight localities along its geographical distribution, and collection from four of these sites was performed twice. The population genomic approach, assessed with 4,209 SNPs and 234 samples, showed null population differentiation in both the geographical and temporal dimensions. No evidence of effects from the biogeographic break and the northward Humboldt current was detected in gene flow. Migration analyses showed gene flow among all sites but different proportion between pairs of sites. Overall, this research suggests that M. edwardsii comprises a single large population with high gene flow between sites separated by more than 1700 km and demonstrating temporal stability of the population genetic structure.

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Main Authors: Veliz, David, Rojas-Hernández, Noemi, Vega-Retter, Caren, Zaviezo, Camila, Garrido, Ignacio, Pardo, Luis M.
Published: Repositorio de datos de investigación de la Universidad de Chile 2022
Subjects:Earth and Environmental Sciences,
Online Access:https://doi.org/10.34691/FK2/VF1R0K
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spelling dat-uchile-10.34691FK2VF1R0K2023-04-29T06:00:01ZReplicar los datos para: Spatial and temporal stability in the population structure of a marine crab despite the long distance between populations, the presence of a biogeographic break, and the main oceanic currentshttps://doi.org/10.34691/FK2/VF1R0KVeliz, DavidRojas-Hernández, NoemiVega-Retter, CarenZaviezo, CamilaGarrido, IgnacioPardo, Luis M.Repositorio de datos de investigación de la Universidad de ChileElucidating the processes responsible for maintaining the population connectivity of marine benthic species mediated by larval dispersal remains a fundamental question in marine ecology and fishery management. Understanding these processes becomes particularly important in areas with a biogeographical break and primarily unidirectional water movement along the sides of the break. Based on single-nucleotide polymorphism (SNP) variability, we determine the population genetic structure, temporal genetic stability, and gene flow among populations of the commercially important crab Metacarcinus edwardsii in a system in southern Chile with a biogeographical break at 42°S. Specimens were collected from eight localities along its geographical distribution, and collection from four of these sites was performed twice. The population genomic approach, assessed with 4,209 SNPs and 234 samples, showed null population differentiation in both the geographical and temporal dimensions. No evidence of effects from the biogeographic break and the northward Humboldt current was detected in gene flow. Migration analyses showed gene flow among all sites but different proportion between pairs of sites. Overall, this research suggests that M. edwardsii comprises a single large population with high gene flow between sites separated by more than 1700 km and demonstrating temporal stability of the population genetic structure.Earth and Environmental Sciences2022-04-11Veliz, David
institution UCHILE
collection Dataverse
country Chile
countrycode CL
component Datos de investigación
access En linea
En linea
databasecode dat-uchile
tag biblioteca
region America del Sur
libraryname Universidad de Chile
topic Earth and Environmental Sciences
Earth and Environmental Sciences
spellingShingle Earth and Environmental Sciences
Earth and Environmental Sciences
Veliz, David
Rojas-Hernández, Noemi
Vega-Retter, Caren
Zaviezo, Camila
Garrido, Ignacio
Pardo, Luis M.
Replicar los datos para: Spatial and temporal stability in the population structure of a marine crab despite the long distance between populations, the presence of a biogeographic break, and the main oceanic currents
description Elucidating the processes responsible for maintaining the population connectivity of marine benthic species mediated by larval dispersal remains a fundamental question in marine ecology and fishery management. Understanding these processes becomes particularly important in areas with a biogeographical break and primarily unidirectional water movement along the sides of the break. Based on single-nucleotide polymorphism (SNP) variability, we determine the population genetic structure, temporal genetic stability, and gene flow among populations of the commercially important crab Metacarcinus edwardsii in a system in southern Chile with a biogeographical break at 42°S. Specimens were collected from eight localities along its geographical distribution, and collection from four of these sites was performed twice. The population genomic approach, assessed with 4,209 SNPs and 234 samples, showed null population differentiation in both the geographical and temporal dimensions. No evidence of effects from the biogeographic break and the northward Humboldt current was detected in gene flow. Migration analyses showed gene flow among all sites but different proportion between pairs of sites. Overall, this research suggests that M. edwardsii comprises a single large population with high gene flow between sites separated by more than 1700 km and demonstrating temporal stability of the population genetic structure.
author2 Veliz, David
author_facet Veliz, David
Veliz, David
Rojas-Hernández, Noemi
Vega-Retter, Caren
Zaviezo, Camila
Garrido, Ignacio
Pardo, Luis M.
topic_facet Earth and Environmental Sciences
author Veliz, David
Rojas-Hernández, Noemi
Vega-Retter, Caren
Zaviezo, Camila
Garrido, Ignacio
Pardo, Luis M.
author_sort Veliz, David
title Replicar los datos para: Spatial and temporal stability in the population structure of a marine crab despite the long distance between populations, the presence of a biogeographic break, and the main oceanic currents
title_short Replicar los datos para: Spatial and temporal stability in the population structure of a marine crab despite the long distance between populations, the presence of a biogeographic break, and the main oceanic currents
title_full Replicar los datos para: Spatial and temporal stability in the population structure of a marine crab despite the long distance between populations, the presence of a biogeographic break, and the main oceanic currents
title_fullStr Replicar los datos para: Spatial and temporal stability in the population structure of a marine crab despite the long distance between populations, the presence of a biogeographic break, and the main oceanic currents
title_full_unstemmed Replicar los datos para: Spatial and temporal stability in the population structure of a marine crab despite the long distance between populations, the presence of a biogeographic break, and the main oceanic currents
title_sort replicar los datos para: spatial and temporal stability in the population structure of a marine crab despite the long distance between populations, the presence of a biogeographic break, and the main oceanic currents
publisher Repositorio de datos de investigación de la Universidad de Chile
publishDate 2022
url https://doi.org/10.34691/FK2/VF1R0K
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