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Historical demography and colonization pathways of the widespread intertidal seaweed Hormosira banksii (Phaeophyceae) in southeastern Australia
The palaeoceanography of southern Australia has been characterized by fluctuating sea levels during glacial periods, changing temperature regimes and modified boundary currents. Previous studies on genetic structuring of species in southeastern Australia have focused mainly on the differentiation of...
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| Published in: | Journal of phycology 2018-02, Vol.54 (1), p.56-65 |
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| creator | Mueller, Rebecca Wright, Jeffrey T. Bolch, Christopher J. S. Verbruggen, H. |
| description | The palaeoceanography of southern Australia has been characterized by fluctuating sea levels during glacial periods, changing temperature regimes and modified boundary currents. Previous studies on genetic structuring of species in southeastern Australia have focused mainly on the differentiation of eastern and western populations while the potential role of Bass Strait as a region of overlap for three biogeographic provinces (Peronia, Maugea, and Flindersia) has been largely ignored. This study aimed to explore the likely roles of historic and contemporary factors in determining divergence patterns in the habitat‐forming intertidal seaweed Hormosira banksii in southeastern Australia with a special focus on postglacial dispersal into Bass Strait. We examined the genetic diversity of 475 Hormosira specimens collected from 19 sites around southern Australia using DNA sequence analysis of cytochrome oxidase 1. Three major haplotype groups were identified (western, centre and eastern) corresponding with the three existing biogeographical provinces in this region. Historic break points appeared to be retained and reinforced by modern day dispersal barriers. Phylogeographic grouping of Hormosira reflected a combination of historic and contemporary oceanography. As western and eastern group haplotypes were largely absent within Bass Strait, re‐colonization after the last glacial maximum appeared to have originated from refuges within or near present day Bass Strait. Patterns of genetic structure for Hormosira are consistent with other marine species in this region and highlight the importance of biogeographical barriers in contributing to modern genetic structure. |
| doi_str_mv | 10.1111/jpy.12599 |
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S. ; Verbruggen, H.</creator><contributor>Verbruggen, H.</contributor><creatorcontrib>Mueller, Rebecca ; Wright, Jeffrey T. ; Bolch, Christopher J. S. ; Verbruggen, H. ; Verbruggen, H.</creatorcontrib><description>The palaeoceanography of southern Australia has been characterized by fluctuating sea levels during glacial periods, changing temperature regimes and modified boundary currents. Previous studies on genetic structuring of species in southeastern Australia have focused mainly on the differentiation of eastern and western populations while the potential role of Bass Strait as a region of overlap for three biogeographic provinces (Peronia, Maugea, and Flindersia) has been largely ignored. This study aimed to explore the likely roles of historic and contemporary factors in determining divergence patterns in the habitat‐forming intertidal seaweed Hormosira banksii in southeastern Australia with a special focus on postglacial dispersal into Bass Strait. We examined the genetic diversity of 475 Hormosira specimens collected from 19 sites around southern Australia using DNA sequence analysis of cytochrome oxidase 1. Three major haplotype groups were identified (western, centre and eastern) corresponding with the three existing biogeographical provinces in this region. Historic break points appeared to be retained and reinforced by modern day dispersal barriers. Phylogeographic grouping of Hormosira reflected a combination of historic and contemporary oceanography. As western and eastern group haplotypes were largely absent within Bass Strait, re‐colonization after the last glacial maximum appeared to have originated from refuges within or near present day Bass Strait. Patterns of genetic structure for Hormosira are consistent with other marine species in this region and highlight the importance of biogeographical barriers in contributing to modern genetic structure.</description><identifier>ISSN: 0022-3646</identifier><identifier>EISSN: 1529-8817</identifier><identifier>DOI: 10.1111/jpy.12599</identifier><identifier>PMID: 29054124</identifier><language>eng</language><publisher>United States: Wiley Subscription Services, Inc</publisher><subject>Algal Proteins - analysis ; Barriers ; Bass ; Bass basin ; Biogeography ; Boundary currents ; Colonization ; contemporary dispersal barrier ; Cytochrome ; Cytochromes ; Demography ; Deoxyribonucleic acid ; Dispersal ; Dispersion ; Divergence ; DNA ; Electron Transport Complex IV - analysis ; gene flow ; Genetic diversity ; Genetic structure ; Genetic Variation ; Genome, Mitochondrial ; Glacial periods ; glacial refugia ; Haplotypes ; historic climatic changes ; Hormosira banksii ; Ice ages ; New South Wales ; Nucleotide sequence ; Oceanography ; Palaeoceanography ; Phaeophyceae - genetics ; Phaeophyceae - physiology ; Physical oceanography ; range expansion ; Refuges ; Sea currents ; Sea level ; Sea level changes ; Seaweed - genetics ; Seaweed - physiology ; Seaweeds ; Tasmania ; Victoria</subject><ispartof>Journal of phycology, 2018-02, Vol.54 (1), p.56-65</ispartof><rights>2017 Phycological Society of America</rights><rights>2017 Phycological Society of America.</rights><rights>2018 Phycological Society of America</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c3539-767acdbc6a61ac318a3323f4704afbdcc1b9492dd4e7fa03965d0de668a6d0cb3</citedby><cites>FETCH-LOGICAL-c3539-767acdbc6a61ac318a3323f4704afbdcc1b9492dd4e7fa03965d0de668a6d0cb3</cites><orcidid>0000-0001-9047-2391 ; 0000-0001-7998-3756 ; 0000-0002-1085-4582</orcidid></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27924,27925</link.rule.ids><backlink>$$Uhttps://www.ncbi.nlm.nih.gov/pubmed/29054124$$D View this record in MEDLINE/PubMed$$Hfree_for_read</backlink></links><search><contributor>Verbruggen, H.</contributor><creatorcontrib>Mueller, Rebecca</creatorcontrib><creatorcontrib>Wright, Jeffrey T.</creatorcontrib><creatorcontrib>Bolch, Christopher J. S.</creatorcontrib><creatorcontrib>Verbruggen, H.</creatorcontrib><title>Historical demography and colonization pathways of the widespread intertidal seaweed Hormosira banksii (Phaeophyceae) in southeastern Australia</title><title>Journal of phycology</title><addtitle>J Phycol</addtitle><description>The palaeoceanography of southern Australia has been characterized by fluctuating sea levels during glacial periods, changing temperature regimes and modified boundary currents. Previous studies on genetic structuring of species in southeastern Australia have focused mainly on the differentiation of eastern and western populations while the potential role of Bass Strait as a region of overlap for three biogeographic provinces (Peronia, Maugea, and Flindersia) has been largely ignored. This study aimed to explore the likely roles of historic and contemporary factors in determining divergence patterns in the habitat‐forming intertidal seaweed Hormosira banksii in southeastern Australia with a special focus on postglacial dispersal into Bass Strait. We examined the genetic diversity of 475 Hormosira specimens collected from 19 sites around southern Australia using DNA sequence analysis of cytochrome oxidase 1. Three major haplotype groups were identified (western, centre and eastern) corresponding with the three existing biogeographical provinces in this region. Historic break points appeared to be retained and reinforced by modern day dispersal barriers. Phylogeographic grouping of Hormosira reflected a combination of historic and contemporary oceanography. As western and eastern group haplotypes were largely absent within Bass Strait, re‐colonization after the last glacial maximum appeared to have originated from refuges within or near present day Bass Strait. Patterns of genetic structure for Hormosira are consistent with other marine species in this region and highlight the importance of biogeographical barriers in contributing to modern genetic structure.</description><subject>Algal Proteins - analysis</subject><subject>Barriers</subject><subject>Bass</subject><subject>Bass basin</subject><subject>Biogeography</subject><subject>Boundary currents</subject><subject>Colonization</subject><subject>contemporary dispersal barrier</subject><subject>Cytochrome</subject><subject>Cytochromes</subject><subject>Demography</subject><subject>Deoxyribonucleic acid</subject><subject>Dispersal</subject><subject>Dispersion</subject><subject>Divergence</subject><subject>DNA</subject><subject>Electron Transport Complex IV - analysis</subject><subject>gene flow</subject><subject>Genetic diversity</subject><subject>Genetic structure</subject><subject>Genetic Variation</subject><subject>Genome, Mitochondrial</subject><subject>Glacial periods</subject><subject>glacial refugia</subject><subject>Haplotypes</subject><subject>historic climatic changes</subject><subject>Hormosira banksii</subject><subject>Ice ages</subject><subject>New South Wales</subject><subject>Nucleotide sequence</subject><subject>Oceanography</subject><subject>Palaeoceanography</subject><subject>Phaeophyceae - genetics</subject><subject>Phaeophyceae - physiology</subject><subject>Physical oceanography</subject><subject>range expansion</subject><subject>Refuges</subject><subject>Sea currents</subject><subject>Sea level</subject><subject>Sea level changes</subject><subject>Seaweed - genetics</subject><subject>Seaweed - physiology</subject><subject>Seaweeds</subject><subject>Tasmania</subject><subject>Victoria</subject><issn>0022-3646</issn><issn>1529-8817</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2018</creationdate><recordtype>article</recordtype><recordid>eNp1kcFO3DAQQC3UChbaQ3-gstQLHAJ2HDvxESFgqZDKoT30FE3sSdfbJE7tRKvwE_1lDEt7qNS5zOXN00iPkA-cnfM0F9txOee51PqArLjMdVZVvHxDVozleSZUoY7IcYxbxlipJD8kR7lmsuB5sSK_1y5OPjgDHbXY-x8Bxs1CYbDU-M4P7hEm5wc6wrTZwRKpb-m0QbpzFuMYECx1w4RhcjYZIsIO0dK1D72PLgBtYPgZnaOnDxtAn9QGAc_SDY1-TiKI6Xigl3OcAnQO3pG3LXQR37_uE_Lt5vrr1Tq7_3J7d3V5nxkhhc5KVYKxjVGgOBjBKxAiF21RsgLaxhrDG13o3NoCyxaY0EpaZlGpCpRlphEn5HTvHYP_NWOc6t5Fg10HA_o51lzLgpUVlyqhn_5Bt34OQ_ouUVpIJmRZJepsT5ngYwzY1mNwPYSl5qx-rlSnSvVLpcR-fDXOTY_2L_knSwIu9sDOdbj831R_fvi-Vz4BoSWfog</recordid><startdate>201802</startdate><enddate>201802</enddate><creator>Mueller, Rebecca</creator><creator>Wright, Jeffrey T.</creator><creator>Bolch, Christopher J. 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S. ; Verbruggen, H.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c3539-767acdbc6a61ac318a3323f4704afbdcc1b9492dd4e7fa03965d0de668a6d0cb3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2018</creationdate><topic>Algal Proteins - analysis</topic><topic>Barriers</topic><topic>Bass</topic><topic>Bass basin</topic><topic>Biogeography</topic><topic>Boundary currents</topic><topic>Colonization</topic><topic>contemporary dispersal barrier</topic><topic>Cytochrome</topic><topic>Cytochromes</topic><topic>Demography</topic><topic>Deoxyribonucleic acid</topic><topic>Dispersal</topic><topic>Dispersion</topic><topic>Divergence</topic><topic>DNA</topic><topic>Electron Transport Complex IV - analysis</topic><topic>gene flow</topic><topic>Genetic diversity</topic><topic>Genetic structure</topic><topic>Genetic Variation</topic><topic>Genome, Mitochondrial</topic><topic>Glacial periods</topic><topic>glacial refugia</topic><topic>Haplotypes</topic><topic>historic climatic changes</topic><topic>Hormosira banksii</topic><topic>Ice ages</topic><topic>New South Wales</topic><topic>Nucleotide sequence</topic><topic>Oceanography</topic><topic>Palaeoceanography</topic><topic>Phaeophyceae - genetics</topic><topic>Phaeophyceae - physiology</topic><topic>Physical oceanography</topic><topic>range expansion</topic><topic>Refuges</topic><topic>Sea currents</topic><topic>Sea level</topic><topic>Sea level changes</topic><topic>Seaweed - genetics</topic><topic>Seaweed - physiology</topic><topic>Seaweeds</topic><topic>Tasmania</topic><topic>Victoria</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Mueller, Rebecca</creatorcontrib><creatorcontrib>Wright, Jeffrey T.</creatorcontrib><creatorcontrib>Bolch, Christopher J. 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Previous studies on genetic structuring of species in southeastern Australia have focused mainly on the differentiation of eastern and western populations while the potential role of Bass Strait as a region of overlap for three biogeographic provinces (Peronia, Maugea, and Flindersia) has been largely ignored. This study aimed to explore the likely roles of historic and contemporary factors in determining divergence patterns in the habitat‐forming intertidal seaweed Hormosira banksii in southeastern Australia with a special focus on postglacial dispersal into Bass Strait. We examined the genetic diversity of 475 Hormosira specimens collected from 19 sites around southern Australia using DNA sequence analysis of cytochrome oxidase 1. Three major haplotype groups were identified (western, centre and eastern) corresponding with the three existing biogeographical provinces in this region. Historic break points appeared to be retained and reinforced by modern day dispersal barriers. Phylogeographic grouping of Hormosira reflected a combination of historic and contemporary oceanography. As western and eastern group haplotypes were largely absent within Bass Strait, re‐colonization after the last glacial maximum appeared to have originated from refuges within or near present day Bass Strait. Patterns of genetic structure for Hormosira are consistent with other marine species in this region and highlight the importance of biogeographical barriers in contributing to modern genetic structure.</abstract><cop>United States</cop><pub>Wiley Subscription Services, Inc</pub><pmid>29054124</pmid><doi>10.1111/jpy.12599</doi><tpages>10</tpages><orcidid>https://orcid.org/0000-0001-9047-2391</orcidid><orcidid>https://orcid.org/0000-0001-7998-3756</orcidid><orcidid>https://orcid.org/0000-0002-1085-4582</orcidid></addata></record> |
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| ispartof | Journal of phycology, 2018-02, Vol.54 (1), p.56-65 |
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| source | Wiley-Blackwell Read & Publish Collection |
| subjects | Algal Proteins - analysis Barriers Bass Bass basin Biogeography Boundary currents Colonization contemporary dispersal barrier Cytochrome Cytochromes Demography Deoxyribonucleic acid Dispersal Dispersion Divergence DNA Electron Transport Complex IV - analysis gene flow Genetic diversity Genetic structure Genetic Variation Genome, Mitochondrial Glacial periods glacial refugia Haplotypes historic climatic changes Hormosira banksii Ice ages New South Wales Nucleotide sequence Oceanography Palaeoceanography Phaeophyceae - genetics Phaeophyceae - physiology Physical oceanography range expansion Refuges Sea currents Sea level Sea level changes Seaweed - genetics Seaweed - physiology Seaweeds Tasmania Victoria |
| title | Historical demography and colonization pathways of the widespread intertidal seaweed Hormosira banksii (Phaeophyceae) in southeastern Australia |
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