about
What's killing American honey bees?Ancestral monogamy shows kin selection is key to the evolution of eusocialityDrifting of workers in nest aggregations of the giant honeybee Apis dorsataGenetic Structure of an Apis dorsata Population: The Significance of Migration and Colony AggregationTask specialization in a wild bee, Apis florea (Hymenoptera: Apidae), revealed by RFLP bandingA scientific note on a genetically-determined color morph of the dwarf honey bee,Apis andreniformisEffects of selection for honey bee worker reproduction on foraging traits.The dynamic DNA methylation cycle from egg to sperm in the honey bee Apis mellifera.Nest architecture and genetic differentiation in a species complex of Australian stingless bees.A SNP test to identify Africanized honeybees via proportion of 'African' ancestry.Queen signals in a stingless bee: suppression of worker ovary activation and spatial distribution of active compoundsEffects of carbon dioxide narcosis on ovary activation and gene expression in worker honeybees, Apis mellifera.Honeybee workers use cues other than egg viability for policing.Inheritance of thelytoky in the honey bee Apis mellifera capensis.RNA-sequencing elucidates the regulation of behavioural transitions associated with the mating process in honey bee queens.Towards a molecular definition of worker sterility: differential gene expression and reproductive plasticity in honey bees.Parent-of-origin effects on genome-wide DNA methylation in the Cape honey bee (Apis mellifera capensis) may be confounded by allele-specific methylation.Individual honey bee (Apis cerana) foragers adjust their fuel load to match variability in forage reward.Genetic reincarnation of workers as queens in the Eastern honeybee Apis cerana.Four quantitative trait loci that influence worker sterility in the honeybee (Apis mellifera).When workers disunite: intraspecific parasitism by eusocial bees.Thelytokous parthenogenesis in unmated queen honeybees (Apis mellifera capensis): central fusion and high recombination rates.Factors affecting the dynamics of the honeybee (Apis mellifera) hybrid zone of South Africa.Whole-genome DNA methylation profile of the jewel wasp (Nasonia vitripennis).Nature versus nurture in social insect caste differentiation.Evolution: a royal seal for wasp eggs.The Africanization of honeybees (Apis mellifera L.) of the Yucatan: a study of a massive hybridization event across time.Androgenesis: where males hijack eggs to clone themselves.A thelytokous lineage of socially parasitic honey bees has retained heterozygosity despite at least 10 years of inbreeding.Associations between reproduction and work in workers of the Asian hive bee Apis cerana.Pheromones affecting ovary activation and ovariole loss in the Asian honey bee Apis cerana.Phantom alternatives influence food preferences in the eastern honeybee Apis cerana.Kin conflict in insect societies: a new epigenetic perspective.Population structuring of the ubiquitous stingless bee Tetragonisca angustula in southern Brazil as revealed by microsatellite and mitochondrial markers.Entomology: A Bee Farming a Fungus.Entomology: Asian honeybees parasitize the future dead.Maintenance and loss of heterozygosity in a thelytokous lineage of honey bees (Apis mellifera capensis).Who is the Queen's mother? Royal cheats in social insects.Why acquiesce? Worker reproductive parasitism in the Eastern honeybee (Apis cerana).Multiple paternity or multiple queens: two routes to greater intracolonial genetic diversity in the eusocial Hymenoptera.
P50
Q21092758-25303BEA-809C-41D4-9342-05EB780E04A4Q28282011-4C82112A-D819-468A-9CC7-CC001960E27CQ29013787-760389EB-B7A0-497E-8424-8814F1E14838Q29398128-D21C20DA-D9CA-4FD0-9FD5-05F1C014CE44Q29543263-89545902-99FF-4006-B016-A35EA5EF03E9Q30053609-EF0F77CF-42E5-4BD9-B818-5C0409DC6B6CQ33322363-FEDC9BF7-5A4D-405F-8985-0E85D2EDF954Q33796261-B88F61DF-263E-4A60-9CA8-61799A1DF362Q34332302-D4B9BD4E-9B27-45A5-9D93-11F3A113E03BQ34470471-8F7139B5-4BDB-40B8-9539-CEAAA6FC56D7Q34684112-DA62CEAA-6700-42F9-9C10-24CC193A4107Q35097180-4FF4BD10-4ADA-4887-92DF-24194F032955Q35112726-2FC8644B-2B8F-4B53-987D-E0D6D692F5D5Q35614518-2BD69416-0C53-4486-BDC2-9A6CDC940A25Q35728174-3AE41529-3C0F-4702-823E-2A0D3C78631BQ35741182-6C8BA9B5-E549-43A1-A368-AE05297B743BQ35954806-CAD72426-A941-4DF8-A7CE-9478D94BBE50Q36262600-8EDFD416-0AF7-4A40-8702-33A0C8F31B66Q36750132-BD9B959F-2A39-47CD-B723-94085E88D4CCQ36778073-8FAD36B2-3766-4AD2-8D04-9E994785A586Q36864650-45955992-19AA-446A-9B03-CA98D51DBBCEQ36873708-ACDC349C-E4E3-4D9A-9C3F-081F2FF5A646Q36937895-5246959F-A04B-4E44-80D2-2895C7D573EBQ37655679-CD550F74-4EB7-4EEB-B9B2-2B98FAF166B3Q37682429-2C6449A5-9CFE-4FD3-913E-EC05A445C36FQ38528998-47664C67-C3EB-4016-9C2C-915E003859BDQ38948175-E4C8A14D-CA74-419A-B836-BBEFD76D761EQ38952354-7B8FE086-092D-4758-BECA-C5F8DBB15916Q39321544-873093DF-E4A7-40F8-A90C-DBF1BEA4335AQ39508335-6681985C-5E24-4075-A7FB-FB64BFFFB08FQ39508343-BB2D5B7C-36AA-4538-A3DF-554BF8F575A4Q39508349-E0C90234-8F65-436E-943B-578AFC8159BEQ39631819-73F958E4-FCB3-4DAD-BB09-E3B4EF5EEAD9Q39662371-042DD6BF-6119-4C47-967F-7C7BDE7A33F3Q40303421-F828BA87-A00A-4988-AB6C-4F938E7A8054Q40383303-865E823D-04B4-4968-B92E-6901ADFCCD14Q43660146-65411231-8F06-4A2B-9CCE-E6D2689C231AQ44180802-E4DF9D6F-69B1-4BED-8CF7-79A7B3F300E5Q44684173-07D5F084-06E2-4944-9880-2CD6064A4B59Q44805981-4D9D6703-94F0-4881-A8FD-5AD617B0D8D6
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Benjamin P Oldroyd
@ast
Benjamin P Oldroyd
@en
Benjamin P Oldroyd
@es
Benjamin P Oldroyd
@nl
Benjamin P Oldroyd
@sl
type
label
Benjamin P Oldroyd
@ast
Benjamin P Oldroyd
@en
Benjamin P Oldroyd
@es
Benjamin P Oldroyd
@nl
Benjamin P Oldroyd
@sl
prefLabel
Benjamin P Oldroyd
@ast
Benjamin P Oldroyd
@en
Benjamin P Oldroyd
@es
Benjamin P Oldroyd
@nl
Benjamin P Oldroyd
@sl
P106
P21
P31
P496
0000-0001-6831-3677