Image_5_Genetic Diversity and Population Structure of the Antarctic Toothfish, Dissostichus mawsoni, Using Mitochondrial and Microsatellite DNA Markers.JPEG

The Antarctic toothfish, Dissostichus mawsoni, serves as a valuable fishery resource around the Antarctic Continent since 1997, managed by the Commission for the Conservation of Antarctic Marine Living Resources (CCAMLR). Although delineating genetic or stock structure of populations is crucial for...

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Main Authors: Hee-kyu Choi, Ji Eun Jang, Seo Yeon Byeon, Yu Rim Kim, Dale Maschette, Sangdeok Chung, Seok-Gwan Choi, Hyun-Woo Kim, Hyuk Je Lee
Format: Still Image
Language:unknown
Published: 2021
Subjects:
Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
Antarctic toothfish
CCAMLR
fishery management
genetic diversity
population connectivity
contemporary gene flow
genetic stock
phylogeographic break
Antarctic
The Antarctic
Antarc*
Antarctic Toothfish
Online Access:https://doi.org/10.3389/fmars.2021.666417.s005
https://figshare.com/articles/figure/Image_5_Genetic_Diversity_and_Population_Structure_of_the_Antarctic_Toothfish_Dissostichus_mawsoni_Using_Mitochondrial_and_Microsatellite_DNA_Markers_JPEG/15089799
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record_format openpolar
spelling ftfrontimediafig:oai:figshare.com:article/15089799 2023-05-15T13:36:09+02:00 Image_5_Genetic Diversity and Population Structure of the Antarctic Toothfish, Dissostichus mawsoni, Using Mitochondrial and Microsatellite DNA Markers.JPEG Hee-kyu Choi Ji Eun Jang Seo Yeon Byeon Yu Rim Kim Dale Maschette Sangdeok Chung Seok-Gwan Choi Hyun-Woo Kim Hyuk Je Lee 2021-08-02T05:47:56Z https://doi.org/10.3389/fmars.2021.666417.s005 https://figshare.com/articles/figure/Image_5_Genetic_Diversity_and_Population_Structure_of_the_Antarctic_Toothfish_Dissostichus_mawsoni_Using_Mitochondrial_and_Microsatellite_DNA_Markers_JPEG/15089799 unknown doi:10.3389/fmars.2021.666417.s005 https://figshare.com/articles/figure/Image_5_Genetic_Diversity_and_Population_Structure_of_the_Antarctic_Toothfish_Dissostichus_mawsoni_Using_Mitochondrial_and_Microsatellite_DNA_Markers_JPEG/15089799 CC BY 4.0 CC-BY Oceanography Marine Biology Marine Geoscience Biological Oceanography Chemical Oceanography Physical Oceanography Marine Engineering Antarctic toothfish CCAMLR fishery management genetic diversity population connectivity contemporary gene flow genetic stock phylogeographic break Image Figure 2021 ftfrontimediafig https://doi.org/10.3389/fmars.2021.666417.s005 2021-08-04T22:59:39Z The Antarctic toothfish, Dissostichus mawsoni, serves as a valuable fishery resource around the Antarctic Continent since 1997, managed by the Commission for the Conservation of Antarctic Marine Living Resources (CCAMLR). Although delineating genetic or stock structure of populations is crucial for improving fishery management of this species, its number of genetic populations and genetic diversity levels remain ambiguous. In the present study, we assessed the population genetic and phylogeographic structure of the Antarctic toothfish across 20 geographic localities spanning from Subareas 88 (88.1, 88.2, and 88.3) to Subareas 58 (58.4 and 58.5) by using mitochondrial DNA (mtDNA) cytochrome oxidase I (COI) and 16S rRNA (16S) sequences and seven nuclear microsatellite loci. MtDNA revealed a low level of polymorphism (h = 0.571, π = 0.0006) with 40 haplotypes in 392 individuals, connected only by 1–5 mutational steps, which is indicative of shallow evolutionary history. Microsatellites showed a range of allelic richness (AR) from 6.328 (88.3 RB3) to 7.274 (88.3 RB6) within populations. Overall genetic diversity was generally higher in Subareas 58 than in Subareas 88, suggesting that effective population size (N E ) is larger in Subareas 58. The results of population analyses using microsatellites suggest that the sampled populations are likely to comprise a well-admixed single gene pool (i.e., one genetic stock), perhaps due to high contemporary gene flow occurring during the prolonged larval phase of this fish. However, given weak, but significant microsatellite differentiation found in six population-pairs, the possibility of existence of multiple genetic populations could not be completely excluded. The mtDNA AMOVA suggests a genetic break between the Subareas 88 and 58 groups (F CT = 0.011, P = 0.004). Moreover, mtDNA genetic distances (F ST ) between populations were proportionally greater as geographic distances increase. The patterns of isolation by distance (IBD) shown only in mtDNA, but not in ... Still Image Antarc* Antarctic Antarctic Toothfish Frontiers: Figshare Antarctic The Antarctic
institution Open Polar
collection Frontiers: Figshare
op_collection_id ftfrontimediafig
language unknown
topic Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
Antarctic toothfish
CCAMLR
fishery management
genetic diversity
population connectivity
contemporary gene flow
genetic stock
phylogeographic break
spellingShingle Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
Antarctic toothfish
CCAMLR
fishery management
genetic diversity
population connectivity
contemporary gene flow
genetic stock
phylogeographic break
Hee-kyu Choi
Ji Eun Jang
Seo Yeon Byeon
Yu Rim Kim
Dale Maschette
Sangdeok Chung
Seok-Gwan Choi
Hyun-Woo Kim
Hyuk Je Lee
Image_5_Genetic Diversity and Population Structure of the Antarctic Toothfish, Dissostichus mawsoni, Using Mitochondrial and Microsatellite DNA Markers.JPEG
topic_facet Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
Antarctic toothfish
CCAMLR
fishery management
genetic diversity
population connectivity
contemporary gene flow
genetic stock
phylogeographic break
description The Antarctic toothfish, Dissostichus mawsoni, serves as a valuable fishery resource around the Antarctic Continent since 1997, managed by the Commission for the Conservation of Antarctic Marine Living Resources (CCAMLR). Although delineating genetic or stock structure of populations is crucial for improving fishery management of this species, its number of genetic populations and genetic diversity levels remain ambiguous. In the present study, we assessed the population genetic and phylogeographic structure of the Antarctic toothfish across 20 geographic localities spanning from Subareas 88 (88.1, 88.2, and 88.3) to Subareas 58 (58.4 and 58.5) by using mitochondrial DNA (mtDNA) cytochrome oxidase I (COI) and 16S rRNA (16S) sequences and seven nuclear microsatellite loci. MtDNA revealed a low level of polymorphism (h = 0.571, π = 0.0006) with 40 haplotypes in 392 individuals, connected only by 1–5 mutational steps, which is indicative of shallow evolutionary history. Microsatellites showed a range of allelic richness (AR) from 6.328 (88.3 RB3) to 7.274 (88.3 RB6) within populations. Overall genetic diversity was generally higher in Subareas 58 than in Subareas 88, suggesting that effective population size (N E ) is larger in Subareas 58. The results of population analyses using microsatellites suggest that the sampled populations are likely to comprise a well-admixed single gene pool (i.e., one genetic stock), perhaps due to high contemporary gene flow occurring during the prolonged larval phase of this fish. However, given weak, but significant microsatellite differentiation found in six population-pairs, the possibility of existence of multiple genetic populations could not be completely excluded. The mtDNA AMOVA suggests a genetic break between the Subareas 88 and 58 groups (F CT = 0.011, P = 0.004). Moreover, mtDNA genetic distances (F ST ) between populations were proportionally greater as geographic distances increase. The patterns of isolation by distance (IBD) shown only in mtDNA, but not in ...
format Still Image
author Hee-kyu Choi
Ji Eun Jang
Seo Yeon Byeon
Yu Rim Kim
Dale Maschette
Sangdeok Chung
Seok-Gwan Choi
Hyun-Woo Kim
Hyuk Je Lee
author_facet Hee-kyu Choi
Ji Eun Jang
Seo Yeon Byeon
Yu Rim Kim
Dale Maschette
Sangdeok Chung
Seok-Gwan Choi
Hyun-Woo Kim
Hyuk Je Lee
author_sort Hee-kyu Choi
title Image_5_Genetic Diversity and Population Structure of the Antarctic Toothfish, Dissostichus mawsoni, Using Mitochondrial and Microsatellite DNA Markers.JPEG
title_short Image_5_Genetic Diversity and Population Structure of the Antarctic Toothfish, Dissostichus mawsoni, Using Mitochondrial and Microsatellite DNA Markers.JPEG
title_full Image_5_Genetic Diversity and Population Structure of the Antarctic Toothfish, Dissostichus mawsoni, Using Mitochondrial and Microsatellite DNA Markers.JPEG
title_fullStr Image_5_Genetic Diversity and Population Structure of the Antarctic Toothfish, Dissostichus mawsoni, Using Mitochondrial and Microsatellite DNA Markers.JPEG
title_full_unstemmed Image_5_Genetic Diversity and Population Structure of the Antarctic Toothfish, Dissostichus mawsoni, Using Mitochondrial and Microsatellite DNA Markers.JPEG
title_sort image_5_genetic diversity and population structure of the antarctic toothfish, dissostichus mawsoni, using mitochondrial and microsatellite dna markers.jpeg
publishDate 2021
url https://doi.org/10.3389/fmars.2021.666417.s005
https://figshare.com/articles/figure/Image_5_Genetic_Diversity_and_Population_Structure_of_the_Antarctic_Toothfish_Dissostichus_mawsoni_Using_Mitochondrial_and_Microsatellite_DNA_Markers_JPEG/15089799
geographic Antarctic
The Antarctic
geographic_facet Antarctic
The Antarctic
genre Antarc*
Antarctic
Antarctic Toothfish
genre_facet Antarc*
Antarctic
Antarctic Toothfish
op_relation doi:10.3389/fmars.2021.666417.s005
https://figshare.com/articles/figure/Image_5_Genetic_Diversity_and_Population_Structure_of_the_Antarctic_Toothfish_Dissostichus_mawsoni_Using_Mitochondrial_and_Microsatellite_DNA_Markers_JPEG/15089799
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.3389/fmars.2021.666417.s005
_version_ 1766074852199890944

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