Please use this identifier to cite or link to this item: http://hdl.handle.net/1893/31347
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dc.contributor.authorCooper, Lisaen_UK
dc.contributor.authorBunnefeld, Lynseyen_UK
dc.contributor.authorHearn, Jacken_UK
dc.contributor.authorCook, James Men_UK
dc.contributor.authorLohse, Konraden_UK
dc.contributor.authorStone, Graham Nen_UK
dc.date.accessioned2020-06-30T00:01:08Z-
dc.date.available2020-06-30T00:01:08Z-
dc.date.issued2020-10en_UK
dc.identifier.urihttp://hdl.handle.net/1893/31347-
dc.description.abstractPopulation divergence and gene flow are key processes in evolution and ecology. Model‐based analysis of genome‐wide datasets allows discrimination between alternative scenarios for these processes even in non‐model taxa. We used two complementary approaches (one based on the blockwise site frequency spectrum (bSFS), the second on the Pairwise Sequentially Markovian Coalescent (PSMC)) to infer the divergence history of a fig wasp, Pleistodontes nigriventris. Pleistodontes nigriventris and its fig tree mutualist Ficus watkinsiana are restricted to rain forest patches along the eastern coast of Australia, and are separated into northern and southern populations by two dry forest corridors (the Burdekin and St. Lawrence Gaps). We generated whole genome sequence data for two haploid males per population and used the bSFS approach to infer the timing of divergence between northern and southern populations of P. nigriventris, and to discriminate between alternative isolation with migration (IM) and instantaneous admixture (ADM) models of post divergence gene flow. Pleistodontes nigriventris has low genetic diversity (π = 0.0008), to our knowledge one of the lowest estimates reported for a sexually reproducing arthropod. We find strongest support for an ADM model in which the two populations diverged ca . 196kya in the late Pleistocene, with almost 25% of northern lineages introduced from the south during an admixture event ca . 57kya. This divergence history is highly concordant with individual population demographies inferred from each pair of haploid males using PSMC. Our analysis illustrates the inferences possible with genome‐level data for small population samples of tiny, non‐model organisms and adds to a growing body of knowledge on the population structure of Australian rain forest taxa.en_UK
dc.language.isoenen_UK
dc.publisherWileyen_UK
dc.relationCooper L, Bunnefeld L, Hearn J, Cook JM, Lohse K & Stone GN (2020) Low-coverage genomic data resolve the population divergence and gene flow history of an Australian rain forest fig wasp. Molecular Ecology, 29 (19), pp. 3649-3666. https://doi.org/10.1111/mec.15523en_UK
dc.rightsThis item has been embargoed for a period. During the embargo please use the Request a Copy feature at the foot of the Repository record to request a copy directly from the author. You can only request a copy if you wish to use this work for your own research or private study. This is the peer reviewed version of the following article: Cooper, L, Bunnefeld, L, Hearn, J, Cook, JM, Lohse, K, Stone, GN. Low-coverage genomic data resolve the population divergence and gene flow history of an Australian rain forest fig wasp. Molecular Ecology 2020; 29: 3649-3666, which has been published in final form at https://doi.org/10.1111/mec.15523. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for self-archiving.en_UK
dc.rights.urihttps://storre.stir.ac.uk/STORREEndUserLicence.pdfen_UK
dc.subjectAgaonidaeen_UK
dc.subjectAustraliaen_UK
dc.subjectDemographyen_UK
dc.subjectFicusen_UK
dc.subjectphylogeographyen_UK
dc.subjectPleistodontesen_UK
dc.titleLow-coverage genomic data resolve the population divergence and gene flow history of an Australian rain forest fig waspen_UK
dc.typeJournal Articleen_UK
dc.rights.embargodate2021-06-23en_UK
dc.rights.embargoreason[mec.15523.pdf] Publisher requires embargo of 12 months after formal publication.en_UK
dc.identifier.doi10.1111/mec.15523en_UK
dc.identifier.pmid32567765en_UK
dc.citation.jtitleMolecular Ecologyen_UK
dc.citation.issn1365-294Xen_UK
dc.citation.issn0962-1083en_UK
dc.citation.volume29en_UK
dc.citation.issue19en_UK
dc.citation.spage3649en_UK
dc.citation.epage3666en_UK
dc.citation.publicationstatusPublisheden_UK
dc.citation.peerreviewedRefereeden_UK
dc.type.statusAM - Accepted Manuscripten_UK
dc.contributor.funderNatural Environment Research Councilen_UK
dc.author.emaillynsey.bunnefeld@stir.ac.uken_UK
dc.citation.date22/06/2020en_UK
dc.contributor.affiliationUniversity of Edinburghen_UK
dc.contributor.affiliationBiological and Environmental Sciencesen_UK
dc.contributor.affiliationUniversity of Edinburghen_UK
dc.contributor.affiliationUniversity of Western Sydneyen_UK
dc.contributor.affiliationUniversity of Edinburghen_UK
dc.contributor.affiliationUniversity of Edinburghen_UK
dc.identifier.isiWOS:000573477100007en_UK
dc.identifier.scopusid2-s2.0-85087762861en_UK
dc.identifier.wtid1639161en_UK
dc.contributor.orcid0000-0002-9226-7153en_UK
dc.date.accepted2020-06-12en_UK
dcterms.dateAccepted2020-06-12en_UK
dc.date.filedepositdate2020-06-29en_UK
rioxxterms.apcnot requireden_UK
rioxxterms.typeJournal Article/Reviewen_UK
rioxxterms.versionAMen_UK
local.rioxx.authorCooper, Lisa|en_UK
local.rioxx.authorBunnefeld, Lynsey|0000-0002-9226-7153en_UK
local.rioxx.authorHearn, Jack|en_UK
local.rioxx.authorCook, James M|en_UK
local.rioxx.authorLohse, Konrad|en_UK
local.rioxx.authorStone, Graham N|en_UK
local.rioxx.projectProject ID unknown|Natural Environment Research Council|http://dx.doi.org/10.13039/501100000270en_UK
local.rioxx.freetoreaddate2021-06-23en_UK
local.rioxx.licencehttp://www.rioxx.net/licenses/under-embargo-all-rights-reserved||2021-06-22en_UK
local.rioxx.licencehttps://storre.stir.ac.uk/STORREEndUserLicence.pdf|2021-06-23|en_UK
local.rioxx.filenamemec.15523.pdfen_UK
local.rioxx.filecount1en_UK
local.rioxx.source1365-294Xen_UK
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