about
Wolbachia-induced unidirectional cytoplasmic incompatibility and speciation: mainland-island modelOn the Coyne and Orr-igin of species: effects of intrinsic postzygotic isolation, ecological differentiation, x chromosome size, and sympatry on Drosophila speciation.SNP genotyping for detecting the 'rare allele phenomenon' in hybrid zones.Hybrid zones, barrier loci and the 'rare allele phenomenon'.Pulling together or pulling apart: hybridization in theory and practice.Beyond reinforcement: the evolution of premating isolation by direct selection on preferences and postmating, prezygotic incompatibilities.Geographic variation in hybridization across a reinforcement contact zone of chorus frogs (Pseudacris).Relative abundance and the species-specific reinforcement of male mating preference in the Chrysochus (Coleoptera: Chrysomelidae) hybrid zone.Genomic evidence of gene flow during reinforcement in Texas Phlox.Is cascade reinforcement likely when sympatric and allopatric populations exchange migrants?The evolution of premating isolation: local adaptation and natural and sexual selection against hybrids.A comparison of five hybrid zones of the weta Hemideina thoracica (Orthoptera: Anostostomatidae): degree of cytogenetic differentiation fails to predict zone width.Degree of sympatry affects reinforcement in Drosophila.Correlated evolution of male and female reproductive traits drive a cascading effect of reinforcement in Drosophila yakuba.Reinforcement's incidental effects on reproductive isolation between conspecifics.Reinforcement and the genetics of nonrandom mating.Reinforcement
P2860
Q21092241-5DA993D4-217B-4FFA-BCD8-9178B66DE0C4Q34080337-57ECF7DD-A88A-4AE2-BEFD-26D5398E1E07Q34513036-0ED33D74-8228-4906-ADBA-124D6B0CAFEEQ34549649-618287A2-7F14-47A8-9692-F5EFE5C643DAQ43629260-872828C6-8297-4D2A-B258-7F873D667D1BQ45933690-AC6FF049-B6E5-4FA5-BDE1-2DE65F8C3CC8Q46251549-E1E9B6BC-874B-46CC-8EB9-6C6D5611934FQ46299540-6C268550-99B4-400F-8D95-475015C6E806Q46425281-4B2B8B49-5750-4027-BC20-A6BED828F2A6Q51298496-78D418B8-0AE9-4045-9376-F07420D13EFAQ51995702-2E8FABC3-5E8E-447F-913C-D1AA2FF7CC09Q52607823-2147BCEB-E6B6-46A7-A079-4EFE2BFA6097Q52752561-6CADBF37-20E0-466D-AF59-CEA921F9627DQ52854031-0CD1F1A1-F668-4FD1-A41B-DF74EC63359AQ54966988-075CBB14-2683-449B-8E1F-B7FECE297E46Q55034140-B353D5E5-0BFC-429F-A872-05224B5BABBEQ55885570-AA01EFA7-DB6E-4E06-84C8-4FCDC5E584EF
P2860
description
1989 nî lūn-bûn
@nan
1989年の論文
@ja
1989年学术文章
@wuu
1989年学术文章
@zh-cn
1989年学术文章
@zh-hans
1989年学术文章
@zh-my
1989年学术文章
@zh-sg
1989年學術文章
@yue
1989年學術文章
@zh
1989年學術文章
@zh-hant
name
CAN GENE FLOW PREVENT REINFORCEMENT?
@en
CAN GENE FLOW PREVENT REINFORCEMENT?
@nl
type
label
CAN GENE FLOW PREVENT REINFORCEMENT?
@en
CAN GENE FLOW PREVENT REINFORCEMENT?
@nl
prefLabel
CAN GENE FLOW PREVENT REINFORCEMENT?
@en
CAN GENE FLOW PREVENT REINFORCEMENT?
@nl
P356
P1433
P1476
CAN GENE FLOW PREVENT REINFORCEMENT?
@en
P2093
Neil Sanderson
P304
P356
10.2307/2409358
P577
1989-09-01T00:00:00Z