about
Sex-ratio conflicts, kin selection, and the evolution of altruism.Allometry of workers of the fire ant, Solenopsis invictaSpeed and accuracy in nest-mate recognition: a hover wasp prioritizes face recognition over colony odour cues to minimize intrusion by outsidersCuticular Lipids as a Cross-Talk among Ants, Plants and Butterflies.Phylogenetic tests reject Emery's rule in the evolution of social parasitism in yellowjackets and hornets (Hymenoptera: Vespidae, Vespinae)Effects of worker size on the dynamics of fire ant tunnel constructionEvidence for the Absence of Worker Behavioral Subcastes in the Sociobiologically Primitive Australian AntNothomyrmecia macropsClark (Hymenoptera: Formicidae: Myrmeciinae)Specialization does not predict individual efficiency in an ant.The genomic impact of 100 million years of social evolution in seven ant species.A morphologically specialized soldier caste improves colony defense in a neotropical eusocial beeModeling collective animal behavior with a cognitive perspective: a methodological framework.Population genomics of the honey bee reveals strong signatures of positive selection on worker traitsWorker senescence and the sociobiology of aging in ants.Holistic Darwinism: the new evolutionary paradigm and some implications for political science.Artificial selection on relative brain size reveals a positive genetic correlation between brain size and proactive personality in the guppy.The morphometry of solenopsis fire ants.Small worker bumble bees (Bombus impatiens) are hardier against starvation than their larger sisters.Function and evolution of microRNAs in eusocial Hymenoptera.Changes in period mRNA levels in the brain and division of labor in honey bee colonies.Comparative proteomics reveal characteristics of life-history transitions in a social insectEmergence of cooperation: state of the art.The Importance of Interdisciplinary Research Training and Community Dissemination.Environmental and genetic controls of soldier caste in a parasitic social waspA genome-wide signature of positive selection in ancient and recent invasive expansions of the honey bee Apis melliferaOrder, disorder, death: lessons from a superorganism.Evolution of recombination and genome structure in eusocial insectsHoneybee colony integration: worker-worker interactions mediate hormonally regulated plasticity in division of labor.The genetic basis of emotional behavior: has the time come for a Drosophila model?Extended evolution: A conceptual framework for integrating regulatory networks and niche construction.Age, worksite location, neuromodulators, and task performance in the ant Pheidole dentata.Queens and Workers Contribute Differently to Adaptive Evolution in Bumble Bees and Honey Bees.Recurrence analysis of ant activity patterns.Dynamical Models of Task Organization in Social Insect Colonies.Geographic variation in caste ratio of trematode colonies with a division of labour reflect local adaptation.Stalk size and altruism investment within and among populations of the social amoeba.Common and novel transcriptional routes to behavioral maturation in worker and male honey bees.Physiology of reproductive worker honey bees (Apis mellifera): insights for the development of the worker caste.Network approach to understanding the organization of and the consequence of targeted leader removal on an end-oriented task.Location, location, location: larvae position inside the nest is correlated with adult body size in worker bumble-bees (Bombus impatiens).A critical number of workers in a honeybee colony triggers investment in reproduction.
P2860
Q24531298-C53A1A18-2824-4F2B-B5F5-49CE73B70305Q24806276-865EA2E1-8247-4338-9CA4-A598843C053DQ27331973-231598E2-7D7B-4AD1-9E84-25439471EB9AQ28079807-83DD9ADA-1A03-4110-ACEF-246C28A1415AQ28606852-DA843B96-349A-4A3B-A587-C084CB7ED331Q28714647-CB3654C3-9A21-4503-8FBD-30A46A2ADE20Q29392797-64F74BEF-B5D6-4FBE-927A-7743EEA8D92EQ33385485-4EE089F9-9053-4AD4-B4A7-DD0A3AE2BC4CQ34222362-AAD719CE-0F17-466F-AB85-C8583FFF354AQ34246082-C075EC75-2216-4A95-AB4A-E111A95283D9Q34325731-2099CA22-BF28-4B99-871E-34D71071B8E3Q34401696-E8A2D68D-AC82-4604-963D-67E4029FFB96Q34455070-9F9CD8C0-A63D-4D7D-940C-8037D5B11EBDQ34604525-21E5C263-81F9-49B3-9E9E-2100AC3933E1Q34841637-DDD6E31F-254A-488F-99E7-5C9326B1993FQ35048534-306633CD-7D69-41B5-92AD-8A2E0EC7B4C6Q35634146-A53EB60C-0682-4666-9B5B-C1AD1398309AQ35650964-93E5B94E-C2CE-439C-BAF5-FFCD9772E26DQ35811466-DD554B4B-D29F-45D9-905C-F40EAC801F76Q35971431-71562DD0-D771-4864-A268-C57FCAAD72E9Q36212378-C95B55B5-067A-4B2A-941E-0A147110EB98Q36222512-4C34E5C7-2D5C-43EA-A287-071868170071Q36333288-A7D972E7-5086-4091-89CE-95FD3E7FE24DQ36491322-40C0A246-38B1-4EDD-B234-877AD4E497B7Q36543791-3A98695D-F39E-450F-9728-313F2662B38AQ36721420-45016594-425F-42E0-A86E-017F9F80F3A4Q37336772-B5AE1AC7-A817-4BAC-8BF5-79F43F66DC21Q37358119-B0268022-A304-4B66-B5B1-5CF8FEA73A72Q38276348-82F0A6D6-0F74-447E-8596-FC06C980DC89Q39044830-7D0917BC-E449-4C22-8AD3-DD00E80B1D75Q41788701-95C898B3-45A2-4ED7-B6D3-6D94D6F4FE5FQ42708373-F386897F-D2E3-403C-9005-F903D7033AB6Q46556461-B2874614-E116-44EA-BA64-BA7AFCD6E144Q46901041-25BD6856-1706-4194-9295-BA0AB7D68DD5Q47191757-DFC98CE0-D3BB-41C4-B95A-DC594C8F2BB5Q48031925-3AEA3A46-57C1-400B-B20E-95FBEDC330B8Q49083742-F9073413-D0A8-41F0-A9E2-C7A2476693A5Q51150542-58F0CAFA-1AAE-44E0-9F9F-B945CFA1E6E4Q51663655-7CCB68A5-7C34-4CCD-BA10-9225CC120137Q51799208-929EE001-7466-4E89-BDBF-A6370759CAFE
P2860
description
1985 nî lūn-bûn
@nan
1985年の論文
@ja
1985年学术文章
@wuu
1985年学术文章
@zh
1985年学术文章
@zh-cn
1985年学术文章
@zh-hans
1985年学术文章
@zh-my
1985年学术文章
@zh-sg
1985年學術文章
@yue
1985年學術文章
@zh-hant
name
The sociogenesis of insect colonies.
@en
The sociogenesis of insect colonies.
@nl
type
label
The sociogenesis of insect colonies.
@en
The sociogenesis of insect colonies.
@nl
prefLabel
The sociogenesis of insect colonies.
@en
The sociogenesis of insect colonies.
@nl
P1433
P1476
The sociogenesis of insect colonies.
@en
P2093
P304
P356
10.1126/SCIENCE.228.4707.1489
P407
P577
1985-06-01T00:00:00Z