The contribution of social effects to heritable variation in finishing traits of domestic pigs (Sus scrofa).
about
The quantitative genetics of indirect genetic effects: a selective review of modelling issuesThe prospects of selection for social genetic effects to improve welfare and productivity in livestockIndirect genetic effects and the spread of infectious disease: are we capturing the full heritable variation underlying disease prevalence?Using pooled data to estimate variance components and breeding values for traits affected by social interactionsIndirect genetic effects and housing conditions in relation to aggressive behaviour in pigsThe early-life environment of a pig shapes the phenotypes of its social partners in adulthood.Indirect genetic effects contribute substantially to heritable variation in aggression-related traits in group-housed mink (Neovison vison).Indirect genetic effects and inbreeding: consequences of BLUP selection for socially affected traits on rate of inbreeding.Interaction of direct and social genetic effects with feeding regime in growing rabbits.Genetic parameters for social effects on survival in cannibalistic layers: combining survival analysis and a linear animal model.Indirect genetic effects from competition in the clonal herb Sedum album (Crassulaceae).Selection based on indirect genetic effects for growth, environmental enrichment and coping style affect the immune status of pigs.Genetics of microenvironmental sensitivity of body weight in rainbow trout (Oncorhynchus mykiss) selected for improved growthCryptic evolution: does environmental deterioration have a genetic basis?A general definition of the heritable variation that determines the potential of a population to respond to selectionGroup selection and social evolution in domesticated animalsGenetic Variation in the Social Environment Contributes to Health and DiseaseIndirect genetic effects for survival in domestic chickens (Gallus gallus) are magnified in crossbred genotypes and show a parent-of-origin effect.The social genome: Current findings and implications for the study of human genetics.Genetic parameters for uniformity of harvest weight and body size traits in the GIFT strain of Nile tilapia.Direct and social genetic parameters for growth and fin damage traits in Atlantic cod (Gadus morhua).New phenotypes for new breeding goals in pigs.Competition as a source of constraint on life history evolution in natural populationsThe relationship between different measures of feed efficiency and feeding behavior traits in Duroc pigs.Direct and indirect genetic effects in life-history traits of flour beetles (Tribolium castaneum).Social genetic effects influence reproductive performance of group-housed sows.Estimating indirect genetic effects: precision of estimates and optimum designs.Genetic control of interactions among individuals: contrasting outcomes of indirect genetic effects arising from neighbour disease infection and competition in a forest tree.Direct and social genetic effects on body weight at 270 days and carcass and ham quality traits in heavy pigs.Air-borne genotype by genotype indirect genetic effects are substantial in the filamentous fungus Aspergillus nidulans.Genetic associations between behavioral traits and direct-social effects of growth rate in pigs.Effect of sow history features on growth and feed intake in grow-finish pigs.A genome-wide association study of social genetic effects in Landrace pigs.Social genetic effects for growth in pigs differ between boars and gilts.The social genome of friends and schoolmates in the National Longitudinal Study of Adolescent to Adult Health.Estimation of indirect genetic effects in group-housed mink (Neovison vison) should account for systematic interactions either due to kin or sex.Individuality and Transgenerational Inheritance of Social Dominance and Sex Pheromones in Isogenic Male Mice.Effect of gestating sow body condition, feed refusals, and group housing on growth and feed intake in grower-finishing pigs.Sexual conflict and interacting phenotypes: a quantitative genetic analysis of fecundity and copula duration in Drosophila melanogaster.Sex-specific evolutionary potential of pre- and postcopulatory reproductive interactions in the field cricket, Teleogryllus commodus.
P2860
Q27011539-74DB1BEC-B955-4598-89AC-0567439166C9Q27022772-AA1EB0BC-B232-4BCF-BE08-8DDD308BE94DQ27300801-26274E80-D8A1-41F9-BF25-410788A29694Q30657504-C52F66CC-E053-4670-9FE3-56A8F1AA7432Q31119367-5A4EBDCB-17D3-46EE-8177-25F3B123CA24Q33701723-6D16A8BE-203B-469E-AFA9-1D84FDD7E5E4Q33716271-2DF62C26-6269-4730-82D3-924CC7B67308Q33903855-E5054C3F-91BA-4DB9-AFD0-1E3DB196ACC8Q33922018-C28C9790-052B-417E-9160-FC395401BD23Q34031256-DD5AB148-A941-4499-8766-47AC5EF24673Q34110375-63CD02AC-2340-4746-B04E-4564A322A33CQ34282258-D4BA272C-4DA2-4755-8132-A653F006EBA9Q34305735-93959880-D4B0-4D5B-B049-62C7377A3ACBQ34760469-92160F3F-BCB2-4B73-97B1-28D0C26C565FQ35620430-7A98CA89-EFA3-48AC-8B11-B86A319677FAQ35961105-7D1BAA38-2395-4A3F-92C8-8F14EA49114AQ36259653-5D1A7195-4458-4B96-8FE2-D25374181108Q36268146-36B55B37-F852-408F-B807-2BBF46BC9D24Q36310535-9A060695-4DE6-40F4-ABD3-83B8429B4DFBQ36991220-8EF70BC2-0213-4DD4-8804-E5651961C82AQ37532195-32462276-CFD0-4B2C-83D4-2A5920F6FACFQ37995775-AF718ABA-10DF-4A7D-A2E1-A9BAC532CB40Q38084821-7EEEBEE0-ABFC-43D5-A91A-1AD6DC80F1ECQ38626034-9385F6BE-0510-4AA3-BFB8-D9F659FAD18CQ40218218-4726F6F0-49F1-48C4-A88D-3DCB42671AD8Q40462604-A1CAFCCC-6172-4E82-96AB-6BF8F980546AQ41821642-A6F06825-D3B8-41AA-BFCD-3C7476EF431CQ44909843-CF98AB6E-5CB8-48BC-A1C4-C463D0BC5FD8Q45122836-3FA0A076-2E0D-4996-A3AF-92110E6BE9C1Q46403997-D7890213-041E-425E-8C5F-86A0918EDC35Q46803177-A54DDFE3-B68D-49FA-BE2E-B060E9F8CAACQ46841532-1A574027-732D-4F41-B993-8CCE21CFB1F2Q47265452-F2D294B8-04EC-4635-8747-B8CE7393C23EQ47550044-ADD4CF2B-94AD-4A78-BAA3-4629036144A0Q47562598-18C4A290-8496-4005-A2EA-4F92B2F0B797Q48197532-872247C7-4DEA-4A25-BE35-9CECA383A216Q50204409-3E5BB8AD-5B0E-47B5-932D-97BB6A3F2258Q50849356-DB262A62-7EEC-40CA-991F-3FD7957F6E0AQ51163822-F2B31EDA-C74A-4254-A029-1BFC600A66A3Q51238075-4DC8B54A-D51D-4AC7-838D-E00A80A90B86
P2860
The contribution of social effects to heritable variation in finishing traits of domestic pigs (Sus scrofa).
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
The contribution of social eff ...... of domestic pigs (Sus scrofa).
@ast
The contribution of social eff ...... of domestic pigs (Sus scrofa).
@en
type
label
The contribution of social eff ...... of domestic pigs (Sus scrofa).
@ast
The contribution of social eff ...... of domestic pigs (Sus scrofa).
@en
prefLabel
The contribution of social eff ...... of domestic pigs (Sus scrofa).
@ast
The contribution of social eff ...... of domestic pigs (Sus scrofa).
@en
P2093
P2860
P1433
P1476
The contribution of social eff ...... of domestic pigs (Sus scrofa).
@en
P2093
P2860
P304
P356
10.1534/GENETICS.107.084236
P407
P577
2008-02-01T00:00:00Z