sameAs
The genome of Eucalyptus grandisA rare, new species of Atriplex (Chenopodiaceae) comprising two genetically distinct but morphologically cryptic populations in arid Western Australia: implications for taxonomy and conservationIntroducing BASE: the Biomes of Australian Soil Environments soil microbial diversity databaseA climate change context for the decline of a foundation tree species in south-western Australia: insights from phylogeography and species distribution modellingPhylogeographic evidence for two mesic refugia in a biodiversity hotspotStrong phylogeographic structure in a millipede indicates Pleistocene Vicariance between populations on banded iron formations in semi-arid AustraliaPlasticity of functional traits varies clinally along a rainfall gradient in Eucalyptus tricarpa.Rapid characterisation of vegetation structure to predict refugia and climate change impacts across a global biodiversity hotspot.Biological invasions, climate change and genomics.A low-altitude mountain range as an important refugium for two narrow endemics in the Southwest Australian Floristic Region biodiversity hotspot.Birth of a biome: insights into the assembly and maintenance of the Australian arid zone biota.Characterization of polymorphic microsatellite DNA markers in Hakea oldfieldii Benth. (Proteaceae).Characterization of polymorphic microsatellite DNA markers in Banksia nivea, formerly Dryandra nivea.Assessing the benefits and risks of translocations in changing environments: a genetic perspectiveCultivation shapes genetic novelty in a globally important invader.Contemporary pollen-mediated gene immigration reflects the historical isolation of a rare, animal-pollinated shrub in a fragmented landscape.Transdisciplinary synthesis for ecosystem science, policy and management: The Australian experience.Phylodiversity to inform conservation policy: An Australian example.Contrasting Influences of Geographic Range and Distribution of Populations on Patterns of Genetic Diversity in Two Sympatric Pilbara Acacias.Limiting inbreeding in disjunct and isolated populations of a woody shrub.Genomic Scans across Three Eucalypts Suggest that Adaptation to Aridity is a Genome-Wide Phenomenon.Bioclimatic transect networks: Powerful observatories of ecological change.Genome-wide scans detect adaptation to aridity in a widespread forest tree species.Contrasting patterns of clonality and fine-scale genetic structure in two rare sedges with differing geographic distributionsExtensive long-distance pollen dispersal and highly outcrossed mating in historically small and disjunct populations of Acacia woodmaniorum (Fabaceae), a rare banded iron formation endemicGenetic connectivity and diversity in inselberg populations of Acacia woodmaniorum, a rare endemic of the Yilgarn Craton banded iron formations.The maintenance of disparate levels of clonality, genetic diversity and genetic differentiation in disjunct subspecies of the rare Banksia ionthocarpa.Outcrossing between an agroforestry plantation and remnant native populations of Eucalyptus loxophleba.Landscape genomic prediction for restoration of a Eucalyptus foundation species under climate change.Genetic diversity and multiple origins of polyploid Atriplex nummularia Lindl. (Chenopodiaceae)Phylogeographic consequences of different introduction histories of invasive Australian Acacia species and Paraserianthes lophantha (Fabaceae) in South AfricaReproductive biology of Australian acacias: important mediator of invasiveness?Decline of a biome: evolution, contraction, fragmentation, extinction and invasion of the Australian mesic zone biotaUsing assisted colonisation to conserve biodiversity and restore ecosystem function under climate changeWomen in conservation science making a differenceFoundations for the future: A long-term plan for Australian ecosystem scienceConnectivity in riparian plants: influence of vegetation type and habitat fragmentation overrides water flowReal-world conservation planning for evolutionary diversity in the Kimberley, Australia, sidesteps uncertain taxonomyFacilitating adaptation of biodiversity to climate change: a conceptual framework applied to the world’s largest Mediterranean-climate woodlandPersistence and stochasticity are key determinants of genetic diversity in plants associated with banded iron formation inselbergs
P50
Q22122137-2485DE8B-7767-489E-8843-E3402590A9CFQ22712277-552EB5BC-F2BB-494E-B6B8-0AD1C724F921Q28602604-F38798CA-B1D5-412D-B66B-34A0E5C2F93DQ28607623-D71CF620-F04C-4A23-95CC-1CABD3229C11Q28652661-7C21E9E2-9A6B-4275-940E-03571C38DCCDQ28660760-49D84BBE-2ACD-4428-9370-213462C625C7Q30713052-BCBA4CA2-F6F5-4347-98EE-EF1AA391F305Q30731706-F625E542-B932-4037-A440-BEE02F1D27E8Q30890746-9A85CE07-7C40-4574-A22B-E9D5F3C19139Q31131111-BED6A212-FAB0-491C-9C31-DA1887513A84Q33365405-19CAD16B-7AC3-465D-A8C9-E26C95BC51DEQ33896959-B5140796-320F-415D-9E6E-2E89F6DE4843Q33903293-E871E11A-0EF1-47BF-B8F0-F3A01886F920Q34144468-98A50391-C3E4-4E05-9E61-4C7FA0C67D74Q34267828-3F44A806-2F6C-4824-99CE-41C83C774FCFQ34996716-8FA1F2DE-63F2-41F6-A292-D53A87C3E80AQ35625998-C8C4C053-3A94-4341-AF9D-6891019AA2ABQ35632313-CF016DD0-A6DE-4E21-BD71-58763C276229Q36170721-747CBC0D-6BBC-463A-A8F7-83589BC82457Q37172541-870DED9F-53DE-4EB3-A37A-548A00E2F559Q37738612-94C1673D-075D-4841-BC08-EC873D0244CAQ38660580-BC48A4ED-33DF-41C0-AD7B-FC2421ECC8C5Q39206510-4976D566-0C0D-43C9-B027-2F1D66449487Q39694926-3E875EB7-7279-4B0F-B952-06D7F5B42BB0Q41768069-75F5EE3C-4139-4781-B42D-15BA6072DE1FQ42937426-DF8F88A5-84D1-47C6-9BF5-830D237030FDQ43490366-4CF304F3-DD6B-454C-B4F9-7323618919D0Q51887523-E80D299E-D5D5-4F7F-899F-74E49F7FD8FDQ53071980-7CEB8C6F-3C95-402A-87FD-C5B1670AA31EQ56534335-54BB6B56-D9C9-4C24-A43A-B350C45A72AAQ56744595-82CDFABC-A5DC-4375-A1D3-E661BA98E662Q56744640-D360AFB1-C5BF-4728-9892-77452EEDA021Q56967521-62DE42CF-4167-41C5-BF92-F770AE1C2462Q56985711-51B50DEB-1913-42C1-9AF6-40FF8F0BFF66Q57046224-8234D609-6896-44E5-BD5C-60F8DEAE7B40Q57061299-3859A32D-D8AC-462F-B1CD-9911F954E808Q57144396-F7943012-5044-4FD3-829E-7A34CBABB6D2Q58046490-D21DD925-2946-48E4-96EA-69C43C41FA2FQ58651066-F127BCEE-B4F0-47AC-822E-9BB53ADE5831Q60230397-D246594F-8422-4CAD-90F1-E87232E1ED53
P50
description
Australian geneticist and botanist
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aŭstralia genetikisto
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botanegydd
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botanicus
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genetista australiana
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jeneticiste australian
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Margaret Mary Byrne
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Margaret Mary Byrne
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Margaret Mary Byrne
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Margaret Mary Byrne
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Margaret Mary Byrne
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Margaret Mary Byrne
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Margaret Mary Byrne
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Margaret Mary Byrne
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Margaret Mary Byrne
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Margaret Mary Byrne
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Byrne
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Byrne
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Byrne
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Margaret Byrne
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Margaret Byrne
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Margaret Byrne
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Margaret Byrne
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prefLabel
Margaret Mary Byrne
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Margaret Mary Byrne
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Margaret Mary Byrne
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Margaret Mary Byrne
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Margaret Mary Byrne
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P214
P227
P1053
H-8198-2015
P19
P21
P214
P227
1168025613
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P3762
P3829
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0000-0002-7197-5409
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1960-01-01T00:00:00Z
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20003939-1
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lccn-no2011147934