Spatial autocorrelation analysis offers new insights into gene flow in the Australian bush rat, Rattus fuscipes.
about
Resilience to disturbance despite limited dispersal and self-recruitment in tropical barrel sponges: implications for conservation and managementInferring Population Genetic Structure in Widely and Continuously Distributed Carnivores: The Stone Marten (Martes foina) as a Case StudyFine-scale genetic structure and cryptic associations reveal evidence of kin-based sociality in the African forest elephant.Fine-scale analysis reveals cryptic landscape genetic structure in desert tortoisesLandforms predict phylogenetic structure on one of the world's most ancient surfacesGenAlEx 6.5: genetic analysis in Excel. Population genetic software for teaching and research--an updateA case of isolation by distance and short-term temporal stability of population structure in brown trout (Salmo trutta) within the River Dart, southwest England.Connectivity in grey reef sharks (Carcharhinus amblyrhynchos) determined using empirical and simulated genetic data.Global positioning system data-loggers: a tool to quantify fine-scale movement of domestic animals to evaluate potential for zoonotic transmission to an endangered wildlife population.Importance of genetic diversity assessment in crop plants and its recent advances: an overview of its analytical perspectives.Recent habitat fragmentation due to roads can lead to significant genetic differentiation in an abundant flightless ground beetle.Streams over mountains: influence of riparian connectivity on gene flow in the Pacific jumping mouse (Zapus trinotatus).Population structure of brush-tailed rock-wallaby (Petrogale penicillata) colonies inferred from analysis of faecal DNA.When log-dwellers meet loggers: impacts of forest fragmentation on two endemic log-dwelling beetles in southeastern Australia.Inferring population history from fine-scale spatial genetic analysis in Oryza rufipogon (Poaceae).From genes to geography: a genetic similarity rule for arthropod community structure at multiple geographic scales.Does soil type drive social organization in southern hairy-nosed wombats?Spatial genetic analysis and long-term mark-recapture data demonstrate male-biased dispersal in a snakeGenetic reconstruction of the population dynamics of a carnivorous marsupial (Antechinus flavipes) in response to floods.The tales of two geckos: does dispersal prevent extinction in recently fragmented populations?Female dispersal and male kinship-based association in southern hairy-nosed wombats (Lasiorhinus latifrons).Evidence for habitat fragmentation altering within-population processes in wombats.The spatial distribution of avian relatives: do obligate army-ant-following birds roost and feed near family members?The homogenous genetic structure and inferred unique history of range shifts during the Pleistocene climatic oscillations of Arcterica nana (Maxim.) Makino (Ericaceae).Molecular Evidence For High Levels of Intrapopulation Genetic Diversity in Woodrats (Neotoma Micropus).Dispersal and population structure at different spatial scales in the subterranean rodent Ctenomys australis.Will climate change, genetic and demographic variation or rat predation pose the greatest risk for persistence of an altitudinally distributed island endemic?Genetic diversity and spatial structure of the Rufous-throated Antbird (Gymnopithys rufigula), an Amazonian obligate army-ant follower.The influence of habitat structure on genetic differentiation in red fox populations in north-eastern PolandLow genetic and phenotypic divergence in a contact zone between freshwater and marine sticklebacks: gene flow constrains adaptation.Sex-specific genetic analysis indicates low correlation between demographic and genetic connectivity in the Scandinavian brown bear (Ursus arctos).Population structure of an orchid mycorrhizal fungus with genus-wide specificity.Effect of anthropogenic landscape features on population genetic differentiation of Przewalski's gazelle: main role of human settlement.Fine-scale genetic structure analyses suggest further male than female dispersal in mountain gorillas.Fine-scale genetic structure arises during range expansion of an invasive gecko.Evidence that disease-induced population decline changes genetic structure and alters dispersal patterns in the Tasmanian devil.Contemporary gene flow and mating system of Arabis alpina in a Central European alpine landscape.Inbreeding avoidance mechanisms: dispersal dynamics in cooperatively breeding southern pied babblers.Reproduction and dispersal in an ant-associated root aphid community.Spatial genetic structure and mitochondrial DNA phylogeography of Argentinean populations of the grasshopper Dichroplus elongatus.
P2860
Q21132289-51CBBEC6-24D6-49CA-93B6-F52AF57A2019Q28646048-D2B59F42-9D04-4E14-B56A-697F2041477BQ28659499-567C4C55-15FD-4D46-8364-2ADC9265ED43Q28742425-9DB2057F-663A-4AFC-9253-6E826D4F5F33Q28754425-3984BF77-5227-4F06-A249-2906626F89D9Q29547286-8AD8F3BE-98D7-4D3D-9CC3-DAFA8C43AD57Q30395288-FB64EE07-AAF7-499D-AE16-BC40FB90E863Q30403297-FFAC5DF1-C089-4340-A24D-2DFA4168D768Q30866905-D7796B6A-0A6E-4B23-B479-66567C3ACCB0Q30932034-6D5FB6A3-E234-446B-87FF-518D07D09774Q31112121-4750E307-2A7A-4908-9A6B-A62CB9336C1CQ33215640-F2ED8668-2A81-4F1C-86E5-F5CDDA800342Q33229995-57EC1F7A-1139-4FFA-B5E2-84AD958C1C0CQ33240637-858B91DF-1671-4BE0-B62E-C31CEB2DF563Q33240641-1C96C699-668A-4923-A164-E4638CC59070Q33261013-195B5278-04E5-4A12-A60E-53433311AE9FQ33267169-A8434351-1095-4BE4-8932-CA113A77A8F9Q33282368-3E622E6B-3552-45CE-A251-1393C888D500Q33290132-40AB3590-FA3E-4C34-BEAD-8FDA3064437CQ33293716-F162A3DC-5565-4176-BF5A-CA9B0A342785Q33321310-700E0F87-B7F2-4E21-9C82-FA09A4BEEBF2Q33326860-4DCEBC32-2D67-443B-9CC6-CCBCC990D3B1Q33344998-59D327D7-A288-4AF6-829D-44FCCCD87E06Q33400772-8E366D89-0D3E-4CB4-A3A1-AE30BC0E3F09Q33515043-40556AF2-32FA-43EC-8891-59F7162F6555Q33527144-CC214DCE-C803-4DE4-9FA4-780E925BFFAFQ33565303-A018966B-67CB-4808-9D96-C16584463190Q33575131-41E07AC6-0E6C-4953-BC05-7B1745B7D701Q33757150-C6BBD2B0-C8C0-4350-8EFD-643D5E29905BQ33771615-86BA785D-FBB6-482D-9F51-4D5763F0B2DDQ33866276-70E3AEAA-8D93-49A9-AC00-70CF9CA5E9D5Q33911755-AD571CC9-20AC-480B-86F6-D67597235330Q33916264-41CDAF26-BF9C-4F70-A4A1-208AA4A8576BQ33961925-AA650E8D-97BA-45A6-AB75-78110533497BQ34066940-D0086410-1CD3-404D-AF8B-FFC440CB4180Q34103086-C7632577-8A57-4A73-864B-88A52067DC72Q34227795-E4075EFB-6172-4207-921B-D18D5BB20F68Q34265550-B18D4E70-EF83-412E-9D4C-4DAC574ADD86Q34288653-6DB55EB2-281D-4349-9208-4E8810E69593Q34364104-D551030D-FA2F-4F30-9831-14BF895A7641
P2860
Spatial autocorrelation analysis offers new insights into gene flow in the Australian bush rat, Rattus fuscipes.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
2003年學術文章
@zh-hant
name
Spatial autocorrelation analys ...... ian bush rat, Rattus fuscipes.
@en
Spatial autocorrelation analys ...... ian bush rat, Rattus fuscipes.
@nl
type
label
Spatial autocorrelation analys ...... ian bush rat, Rattus fuscipes.
@en
Spatial autocorrelation analys ...... ian bush rat, Rattus fuscipes.
@nl
prefLabel
Spatial autocorrelation analys ...... ian bush rat, Rattus fuscipes.
@en
Spatial autocorrelation analys ...... ian bush rat, Rattus fuscipes.
@nl
P2860
P1433
P1476
Spatial autocorrelation analys ...... ian bush rat, Rattus fuscipes.
@en
P2093
Monica Ruibal
Rod Peakall
P2860
P304
P356
10.1111/J.0014-3820.2003.TB00327.X
P577
2003-05-01T00:00:00Z