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https://hdl.handle.net/1959.11/26930
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DC Field | Value | Language |
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dc.contributor.author | Murray, Bruce F | en |
dc.contributor.author | Capon, Samantha J | en |
dc.contributor.author | Reid, Michael A | en |
dc.contributor.author | Thoms, Martin | en |
dc.contributor.author | Wu, Shu-Biao | en |
dc.date.accessioned | 2019-05-24T03:23:53Z | - |
dc.date.available | 2019-05-24T03:23:53Z | - |
dc.date.issued | 2019 | - |
dc.identifier.citation | Journal of Biogeography, 46(6), p. 1138-1151 | en |
dc.identifier.issn | 1365-2699 | en |
dc.identifier.issn | 0305-0270 | en |
dc.identifier.uri | https://hdl.handle.net/1959.11/26930 | - |
dc.description.abstract | Aim: Riparian ecosystems are regarded as vulnerable to the effects of climate change. Because of their reliance on passive dispersal to migrate from areas where conditions have become unfavourable, plants are particularly susceptible. On dryland river floodplains, the species diversity of herbaceous annuals is often high while that of structurally dominant woody perennials is low. We examined gene flow genetic structure and dispersal in Acacia stenophylla, a small perennial tree widely distributed throughout river systems of inland Australia. The role of the river corridor in shaping patterns of gene flow and genetic structure is also investigated. Location: Murray-Darling Basin, south eastern Australia Methods: A total of 127 individuals, from 12 subpopulations located on seven rivers were genotyped at 13 microsatellite loci. Several population and landscape genetic tools were applied to the microsatellite data to evaluate spatial patterns of gene flow and genetic structure and make inferences regarding possible modes of dispersal. Results: High gene flow and weak genetic structure was identified for the 12 subpopulations of A. stenophylla sampled, a surprising result given large distances between subpopulations. Pairwise genetic distance between subpopulations was low to moderate and could largely be explained (R<sup>2</sup> = 0.68) by two variables: distance along the river and the proportion of no flow days. structure analysis revealed two genetic clusters. Subpopulations located on the Darling and Lower Balonne rivers were dominated by cluster one while subpopulations from the Warrego and Paroo rivers showed largely mixed ancestry with individuals descending from both clusters one and two. Main Conclusions: These results indicate that the river corridor facilitates extensive gene flow between subpopulations of A. stenophylla in this system. Hydrochory appears to be the dominant process; however, upstream movements of propagules most probably via animal movement are sufficient to negate effects expected under unidirectional dispersal. | en |
dc.language | en | en |
dc.publisher | Wiley-Blackwell Publishing Ltd | en |
dc.relation.ispartof | Journal of Biogeography | en |
dc.title | Gene flow and genetic structure in Acacia stenophylla (Fabaceae): Effects of hydrological connectivity | en |
dc.type | Journal Article | en |
dc.identifier.doi | 10.1111/jbi.13566 | en |
local.contributor.firstname | Bruce F | en |
local.contributor.firstname | Samantha J | en |
local.contributor.firstname | Michael A | en |
local.contributor.firstname | Martin | en |
local.contributor.firstname | Shu-Biao | en |
local.subject.for2008 | 060411 Population, Ecological and Evolutionary Genetics | en |
local.subject.for2008 | 060302 Biogeography and Phylogeography | en |
local.subject.seo2008 | 960505 Ecosystem Assessment and Management of Forest and Woodlands Environments | en |
local.subject.seo2008 | 960806 Forest and Woodlands Flora, Fauna and Biodiversity | en |
local.profile.school | School of Humanities, Arts and Social Sciences | en |
local.profile.school | School of Humanities, Arts and Social Sciences | en |
local.profile.school | School of Environmental and Rural Science | en |
local.profile.email | mreid24@une.edu.au | en |
local.profile.email | mthoms2@une.edu.au | en |
local.profile.email | swu3@une.edu.au | en |
local.output.category | C1 | en |
local.record.place | au | en |
local.record.institution | University of New England | en |
local.publisher.place | United Kingdom | en |
local.format.startpage | 1138 | en |
local.format.endpage | 1151 | en |
local.identifier.scopusid | 85065289761 | en |
local.peerreviewed | Yes | en |
local.identifier.volume | 46 | en |
local.identifier.issue | 6 | en |
local.title.subtitle | Effects of hydrological connectivity | en |
local.contributor.lastname | Murray | en |
local.contributor.lastname | Capon | en |
local.contributor.lastname | Reid | en |
local.contributor.lastname | Thoms | en |
local.contributor.lastname | Wu | en |
dc.identifier.staff | une-id:mreid24 | en |
dc.identifier.staff | une-id:mthoms2 | en |
dc.identifier.staff | une-id:swu3 | en |
local.profile.orcid | 0000-0002-3948-9347 | en |
local.profile.orcid | 0000-0002-8074-0476 | en |
local.profile.orcid | 0000-0002-1790-6015 | en |
local.profile.role | author | en |
local.profile.role | author | en |
local.profile.role | author | en |
local.profile.role | author | en |
local.profile.role | author | en |
local.identifier.unepublicationid | une:1959.11/26930 | en |
local.date.onlineversion | 2019-05-02 | - |
dc.identifier.academiclevel | Academic | en |
dc.identifier.academiclevel | Academic | en |
dc.identifier.academiclevel | Academic | en |
dc.identifier.academiclevel | Academic | en |
dc.identifier.academiclevel | Academic | en |
local.title.maintitle | Gene flow and genetic structure in Acacia stenophylla (Fabaceae) | en |
local.relation.fundingsourcenote | Australian Postgraduate Award Scholarship | en |
local.output.categorydescription | C1 Refereed Article in a Scholarly Journal | en |
local.search.author | Murray, Bruce F | en |
local.search.author | Capon, Samantha J | en |
local.search.author | Reid, Michael A | en |
local.search.author | Thoms, Martin | en |
local.search.author | Wu, Shu-Biao | en |
local.istranslated | No | en |
local.uneassociation | Yes | en |
local.atsiresearch | No | en |
local.sensitive.cultural | No | en |
local.identifier.wosid | 000470781300004 | en |
local.year.available | 2019 | en |
local.year.published | 2019 | en |
local.fileurl.closedpublished | https://rune.une.edu.au/web/retrieve/44b748de-c741-49a0-9ba2-62295e3a6002 | en |
local.subject.for2020 | 310402 Biogeography and phylogeography | en |
local.subject.for2020 | 370901 Geomorphology and earth surface processes | en |
local.subject.seo2020 | 180301 Assessment and management of freshwater ecosystems | en |
local.subject.seo2020 | 180606 Terrestrial biodiversity | en |
dc.notification.token | 98117a4e-18ae-469d-8936-eac7bcf90219 | en |
local.codeupdate.date | 2022-03-01T16:22:00.276 | en |
local.codeupdate.eperson | mthoms2@une.edu.au | en |
local.codeupdate.finalised | true | en |
local.original.for2020 | undefined | en |
local.original.for2020 | 310402 Biogeography and phylogeography | en |
local.original.seo2020 | 180301 Assessment and management of freshwater ecosystems | en |
local.original.seo2020 | 180606 Terrestrial biodiversity | en |
Appears in Collections: | Journal Article School of Environmental and Rural Science School of Humanities, Arts and Social Sciences |
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