Routes to indirect fitness in cooperatively breeding vertebrates: kin discrimination and limited dispersal.
about
Occasional cooperative breeding in birds and the robustness of comparative analyses concerning the evolution of cooperative breeding.When cooperation begets cooperation: the role of key individuals in galvanizing supportDoes food sharing in vampire bats demonstrate reciprocity?Major evolutionary transitions in individualityFlight calls signal group and individual identity but not kinship in a cooperatively breeding birdKin selection, not group augmentation, predicts helping in an obligate cooperatively breeding birdCooperative bird differentiates between the calls of different individuals, even when vocalizations were from completely unfamiliar individuals.How life history and demography promote or inhibit the evolution of helping behaviours.Cooperative investment in public goods is kin directed in communal nests of social birds.Fine-scale genetic structure reflects sex-specific dispersal strategies in a population of sociable weavers (Philetairus socius).Fine-scale kin recognition in the absence of social familiarity in the Siberian jay, a monogamous bird species.Evidence for loss of nepotism in the evolution of permanent sociality.Care for kin: within-group relatedness and allomaternal care are positively correlated and conserved throughout the mammalian phylogenyKin Recognition in a Clonal Fish, Poecilia formosa.The ecology of cooperative breeding behaviour.Variation in helper effort among cooperatively breeding bird species is consistent with Hamilton's Rule.Nice to kin and nasty to non-kin: revisiting Hamilton's early insights on eusociality.Helping in cooperatively breeding long-tailed tits: a test of Hamilton's rule.Self-Resemblance and Social Rejection.Exchanging grooming, but not tolerance and aggression in common marmosets (Callithrix jacchus).Pollution and its impact on wild animals: a meta-analysis on oxidative stress.Higher relatedness mitigates mortality in a nematode with lethal male fighting.A comparative study of egg recognition signature mixtures in Formica ants.Direct benefits explain interspecific variation in helping behaviour among cooperatively breeding birds.Was monogamy a key step on the hominin road? Reevaluating the monogamy hypothesis in the evolution of cooperative breeding.Kin Selection in the RNA World.Building genetic networks using relatedness information: a novel approach for the estimation of dispersal and characterization of group structure in social animals.High relatedness in a social amoeba: the role of kin-discriminatory segregation.Testing the predictions of sex allocation hypotheses in dimorphic, cooperatively breeding riflemen.The value of oviposition timing, queen presence and kinship in a social insect.Bell miner provisioning calls are more similar among relatives and are used by helpers at the nest to bias their effort towards kin.Kin discrimination allows plants to modify investment towards pollinator attraction.Kinship affects investment by helpers in a cooperatively breeding bird.Kin discriminators in the eusocial sweat bee Lasioglossum malachurum: the reliability of cuticular and Dufour’s gland odoursMeta-analytic insights into evolutionary ecology: an introduction and synthesisPopulation Social Structure Facilitates Indirect Fitness Benefits from Extra-Pair MatingCarer provisioning rules in an obligate cooperative breeder: prey type, size and delivery rateResource availability, but not polyandry, influences sibling conflict in a burying beetle Nicrophorus vespilloidesFemale sociality and kin discrimination in brood parasitism: unrelated females fight over egg laying
P2860
Q26749445-3032544E-3228-48D0-AE67-91936EA7255BQ26778778-27A63120-27A8-4BFF-B5CE-F055D7ACA108Q28307451-BC891EDB-A3D4-4F8D-86D4-A655D50DCE9DQ28608544-373089BC-435A-4BE9-8857-43008B5075BFQ28674350-AC03A6E4-A774-49F4-9EDC-A75A328792C4Q29392020-64F66182-F486-47AA-BB4B-166ACB77AA23Q30453277-7E8EA227-36D8-4FD6-82F2-0FA116C5444BQ34113572-5A02213D-16FB-4B86-BA11-F7B0FB47149DQ34803263-E5E1088F-FF6D-40AC-9DCA-F4BD54C65A32Q35690908-C41A2817-14BB-4109-BCE7-7AD4595A745BQ35804421-67015B3B-9022-4A40-8888-6ECE98990577Q36022640-85AE2A50-3C2E-4174-8088-13ECF188E27FQ36081292-FB527DA2-B87B-4E69-8E1A-D2BF99C882B6Q36092515-D44F58D2-AB35-4AE7-A0CC-D018F66D6D63Q36365457-239B5816-56C7-4540-900B-D99BCA9D499CQ37208280-3FA0CDCB-F99A-4DBF-81F5-BCE8DEF0BAF1Q37410797-4C972F5E-DE14-444D-8BEE-724949CA446BQ37696314-21DE3365-8793-4252-AE82-7C523922EBF7Q38777511-66285AF4-4ED3-4184-B97E-55B87A7ABAFCQ39268738-5D7BEF18-CFC9-4EA4-8885-174317F5096CQ39834427-A214F76B-D698-4812-8B29-64E1F92617FEQ40918298-CFD479FB-0CA9-402F-B141-DE43F1F36665Q41643056-A977AE7A-445F-48C3-B199-49ABEF1B1C9BQ42646015-FCCFA9C8-25FA-47F2-9096-3BEE6F0D77D7Q47417803-17CAA897-E439-4FC4-BE5C-DCC9AD01F6DBQ48176580-140A29B5-0B48-4425-BC2C-B118B75E9A36Q51360129-C8E46AEC-6EC3-4030-A50F-EE9B774A0158Q51570716-5EF00BE0-481A-490A-922B-8AE4F215B495Q52568239-0D74F4E5-EE3D-47B1-A5ED-3855890A219DQ52757827-B6A6AF61-413D-4BD0-BA8D-A2A6E32E98E1Q53082704-72F59663-BD70-41CE-AE61-98FD21EED410Q55010403-66F0D41D-7588-451D-962A-FB10DDD4855EQ55499019-C281A855-8EAE-43A9-88C2-E598696663CFQ57231822-34811E63-53E1-4AE3-B389-7855B06EC260Q57269586-CDE6BB2D-8763-40D1-B9EB-B087B9EB77D4Q57899077-7A380BE5-1449-48B8-B31E-F1832F267D96Q57920873-3D5462A9-0336-4539-B4A3-37DEF0DC21E3Q58643616-739F0D98-7842-49BD-9F73-2F3DFC243F99Q58771211-D4B8757A-607F-4DE0-863C-34B365A480D0
P2860
Routes to indirect fitness in cooperatively breeding vertebrates: kin discrimination and limited dispersal.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh-hant
name
Routes to indirect fitness in ...... ination and limited dispersal.
@en
Routes to indirect fitness in ...... ination and limited dispersal.
@nl
type
label
Routes to indirect fitness in ...... ination and limited dispersal.
@en
Routes to indirect fitness in ...... ination and limited dispersal.
@nl
prefLabel
Routes to indirect fitness in ...... ination and limited dispersal.
@en
Routes to indirect fitness in ...... ination and limited dispersal.
@nl
P1476
Routes to indirect fitness in ...... ination and limited dispersal.
@en
P2093
A S Griffin
C K Cornwallis
P2860
P304
P356
10.1111/J.1420-9101.2009.01853.X
P50
P577
2009-10-12T00:00:00Z