about
Estimating heritabilities and genetic correlations: comparing the 'animal model' with parent-offspring regression using data from a natural populationThe Architecture of the Pollen Hoarding Syndrome in Honey Bees: Implications for Understanding Social Evolution, Behavioral Syndromes, and Selective BreedingClimate warming and Bergmann's rule through time: is there any evidence?Predictors of male insemination success in the mosquitofish (Gambusia holbrooki).Co-segregation of hyperactivity, active coping styles, and cognitive dysfunction in mice selectively bred for low levels of anxiety.Individual Differences in Infant Temperament Predict Social Relationships of Yearling Rhesus Monkeys (Macaca mulatta).Evolutionary divergence in directions of high phenotypic variance in the ostracode genus poseidonamicus.Adaptive behavioural syndromes due to strategic niche specializationEvolution of female carotenoid coloration by sexual constraint in Carduelis finches.The evolution of maladaptation.Changes in behavioural trait integration following rapid ecotype divergence in an aquatic isopod.Antler size in red deer: heritability and selection but no evolution.Linking personality to larval energy reserves in rainbow trout (Oncorhynchus mykiss)Stress response during development predicts fitness in a wild, long lived vertebrate.Rapid changes in genetic architecture of behavioural syndromes following colonization of a novel environment.BODY SIZE, NATURAL SELECTION, AND SPECIATION IN STICKLEBACKS.Identifying constraints in the evolution of primate societies.Male behavioural maturation rate responds to selection on pollen hoarding in honeybeesSEXUAL SELECTION AND THE EVOLUTION OF SEXUAL SIZE DIMORPHISM IN THE WATER STRIDER, AQUARIUS REMIGIS.Adaptation or exaptation? An experimental test of hypotheses on the origin of salinity tolerance in Bufo calamita.EXPRESSION OF GENETIC VARIATION IN BODY SIZE OF THE COLLARED FLYCATCHER UNDER DIFFERENT ENVIRONMENTAL CONDITIONS.Natural selection and inheritance of breeding time and clutch size in the collared flycatcher.ENVIRONMENT-DEPENDENCE OF QUANTITATIVE GENETIC PARAMETERS IN IMPATIENS PALLIDA.Correlational selection does not explain the evolution of a behavioural syndrome.Experimental analysis of character coupling across a complex life cycle: pigment pattern metamorphosis in the tiger salamander, Ambystoma tigrinum tigrinum.Foraging syndromes and trait variation in antlions along a climatic gradient.INTENSE NATURAL SELECTION ON BODY SIZE AND WING AND TAIL ASYMMETRY IN CLIFF SWALLOWS DURING SEVERE WEATHER.Strong artificial selection in the wild results in predicted small evolutionary change.Behavioural syndromes in Merriam's kangaroo rats (Dipodomys merriami): a test of competing hypotheses.Personality and problem-solving performance explain competitive ability in the wild.Behavioural syndromes differ predictably between 12 populations of three-spined stickleback.EVOLUTIONARY ENDOCRINOLOGY OF JUVENILE HORMONE ESTERASE: FUNCTIONAL RELATIONSHIP WITH WING POLYMORPHISM IN THE CRICKET, GRYLLUS FIRMUS.Testing evolutionary hypotheses about species borders: patterns of genetic variation towards the southern borders of two rainforest Drosophila and a related habitat generalist.Distinct evolutionary patterns of morphometric sperm traits in passerine birds.Mass-dependent reproductive strategies in wild bighorn ewes: a quantitative genetic approach
P2860
Q27301829-E7B80DF8-7481-4701-80E2-CC876C550C35Q28649877-15745CA8-697C-45AB-834A-E56F5B5B3D5FQ28660548-BF1210BD-88E8-4AA3-A3C3-32A039CAD8C4Q30396747-75293C65-86F8-49A8-9BE7-A946383616C9Q30450488-8BF88CAF-A55A-4976-B520-CC157697CB7FQ30537352-D65A2483-289A-4191-8B40-9CCFC8B64E0FQ33289219-060293D4-7C33-40B3-984C-F54B46D97125Q33302563-58D33400-26DC-4C67-A5DF-B17494200E21Q33545488-6522C364-0AD8-44B0-A600-D3958771D9AAQ33908715-7A40D71A-8C68-490E-A9BB-4CAC3CD8B6A4Q33928052-F7A88B90-033B-412D-9528-05A7D896E38AQ34152238-30F150FE-E989-4A74-9D7C-D95DB48857A9Q34479354-CC9EE6FC-C26F-4F1E-945D-300974CA009CQ35793493-9B749B82-872A-46AE-9702-A962BAB80D72Q35795370-B29DB9D1-05AB-4691-A160-B6AFED05942BQ36388452-91984D7A-5EA7-45B2-8B84-E14FA42E3422Q36801335-C0A63479-93B5-4B37-B50E-762908CDF50DQ36930218-61F2A098-62FB-4C49-84F2-C17F0C6727C1Q38753027-CBF266A8-283E-493A-8326-4DE8C416FEB5Q39027446-973B9F3E-EC9C-44C5-80D0-886D0BD6D3F8Q39341882-F7A90D71-337E-4759-A22D-F501E1B4E3EAQ44800176-C8F1CA5F-1502-4426-865C-147B60F3B985Q45060361-A36C2F2B-A4AC-4994-9AFE-4135ABAD9B1EQ45096263-19D28D2B-76E0-4D20-AEF2-5C934FB157BFQ45946707-21842B69-4721-402F-9D10-2070D9A22E77Q46760729-30408683-9273-41D0-957C-CCED6A82EBA2Q47280698-BD8EE97A-FBE5-4B0B-8400-F796038DDF44Q51703560-3F129229-5368-423D-910E-27BAA6CB86F2Q51705710-0FAE98BE-6DD1-469D-A975-839E49D4B662Q51853329-7687FF47-7FB5-4ADC-A0A7-CC54816ED328Q51975645-E3E06923-5424-46E1-9145-8FA312EB6E10Q52176744-94D202B1-15AD-4219-98BC-F48DFCD59B93Q52696868-990C3627-3D34-49BF-B015-874FDD6483D4Q55056586-710E0FBD-7344-45E2-B449-A8665C5EF123Q57940316-FFE15D0B-71DD-46F4-9369-D39CCCBB17E7
P2860
description
1992 nî lūn-bûn
@nan
1992年の論文
@ja
1992年学术文章
@wuu
1992年学术文章
@zh-cn
1992年学术文章
@zh-hans
1992年学术文章
@zh-my
1992年学术文章
@zh-sg
1992年學術文章
@yue
1992年學術文章
@zh
1992年學術文章
@zh-hant
name
Evolution of correlated characters.
@en
Evolution of correlated characters.
@nl
type
label
Evolution of correlated characters.
@en
Evolution of correlated characters.
@nl
prefLabel
Evolution of correlated characters.
@en
Evolution of correlated characters.
@nl
P1476
Evolution of correlated characters.
@en
P2093
P304
P356
10.1016/0169-5347(92)90229-5
P577
1992-09-01T00:00:00Z