Adaptive evolution and segregating load contribute to the genomic landscape of divergence in two tree species connected by episodic gene flow.
about
Interpreting the genomic landscape of speciation: a road map for finding barriers to gene flow.Inconvenient truths in population and speciation genetics point towards a future beyond allele frequencies.Asymmetrical natural hybridization varies among hybrid swarms between two diploid Rhododendron species.The draft genome sequence of a desert tree Populus pruinosaExtensive recent secondary contacts between four European white oak species.Advances in ecological genomics in forest trees and applications to genetic resources conservation and breeding.History rather than hybridization determines population structure and adaptation in Populus balsamifera.Can genomic data alone tell us whether speciation happened with gene flow?Congruent population structure across paralogous and nonparalogous loci in Salish Sea chum salmon (Oncorhynchus keta).Molecular ecology studies of species radiations: current research gaps, opportunities and challenges.Genomics of adaptive divergence with chromosome-scale heterogeneity in crossover rate.Introduction: integrative molecular ecology is rapidly advancing the study of adaptation and speciation.Dedicated population genomics for the silent world: the specific questions of marine population genetics.Adaptive introgression: a plant perspective.The divergence history of European blue mussel species reconstructed from Approximate Bayesian Computation: the effects of sequencing techniques and sampling strategiesCoadapted genomes and selection on hybrids: Fisher's geometric model explains a variety of empirical patterns
P2860
Q38635379-22602BA8-A8F9-4116-B67A-850D13E28898Q38645636-CBF66BAF-6D95-4A51-9D40-A36948F582A6Q38819382-6AD8E82E-54FF-4278-8439-A4ACDD478F94Q41692249-6CE888D4-2C99-418D-8EAD-AD66D0E639E2Q42287063-BF8C7229-9DE4-4C3B-83E6-30FCA11BC856Q43785423-DF158AC3-38B0-4237-A940-9B2684C27AA0Q44875130-1C0C679C-A5E2-4351-ADB0-734310F08F87Q44918344-8A9E24F6-3E89-494C-B24A-448138428ADFQ46375228-982066DC-75F2-4992-8A87-DAEFAF2EA457Q46402131-BB3BFBAF-B61B-42A1-AC66-79FE7FCDF976Q47812963-E75DFD6B-92D1-4F9C-BC54-B736075BF474Q48347071-2FA0C90F-05DF-4D3C-98F3-EA4C0425E72FQ50323960-D634799C-333A-400C-BBDB-F5F0260F5EE8Q52655459-BDC8AB8E-E096-4C21-93B1-FF2FCE834B80Q57052375-F325A4EC-7D29-4936-BCFB-A25E898B6E6CQ57133869-61D883EF-F5E7-4F49-80E7-8DD9A746D0F9
P2860
Adaptive evolution and segregating load contribute to the genomic landscape of divergence in two tree species connected by episodic gene flow.
description
2016 nî lūn-bûn
@nan
2016年の論文
@ja
2016年論文
@yue
2016年論文
@zh-hant
2016年論文
@zh-hk
2016年論文
@zh-mo
2016年論文
@zh-tw
2016年论文
@wuu
2016年论文
@zh
2016年论文
@zh-cn
name
Adaptive evolution and segrega ...... nnected by episodic gene flow.
@en
Adaptive evolution and segrega ...... nnected by episodic gene flow.
@nl
type
label
Adaptive evolution and segrega ...... nnected by episodic gene flow.
@en
Adaptive evolution and segrega ...... nnected by episodic gene flow.
@nl
prefLabel
Adaptive evolution and segrega ...... nnected by episodic gene flow.
@en
Adaptive evolution and segrega ...... nnected by episodic gene flow.
@nl
P2093
P2860
P356
P1433
P1476
Adaptive evolution and segrega ...... onnected by episodic gene flow
@en
P2093
Camille Christe
Christelle Fraїsse
Kai N Stölting
Margot Paris
P2860
P356
10.1111/MEC.13765
P577
2016-08-26T00:00:00Z