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Genetic parameters and predicted selection results for maternal traits related to lactation efficiency in sows
- Source :
- Journal of Animal Science 86 (2008) 5, Journal of Animal Science, 86(5), 1067-1080
- Publication Year :
- 2008
-
Abstract
- The increased productivity of sows increases the risk of a more pronounced negative energy balance during lactation. One possibility to prevent this is to increase the lactation efficiency (LE) genetically and thereby increase milk output for a given feed intake and mobilization of body tissue. The benefits of selection for LE depend on its heritability and the relationships with other traits of interest. The objectives of this study were to estimate genetic parameters for LE, its underlying traits, and to predict the consequences of current selection strategies in dam lines. Data from 4 farms were available to estimate genetic parameters. Heritabilities were estimated by using a univariate repeatability model, and genetic correlations were estimated bivariately. Selection index theory was used to predict the genetic progress by 3 alternative breeding programs: 1) a breeding program that aimed at balanced progress in the total number of piglets born, piglet mortality, and percent prolonged interval from weaning to estrus; 2) extension of this breeding goal with LE; and 3) a breeding goal that included only one selection criterion, litter weight gain, to demonstrate the effect of indirect selection for milk production. The heritability for LE was low (0.12). Body fat mass (0.52) and BW (0.45) of sows at the beginning of lactation showed the greatest heritabilities. Protein mass at the beginning of lactation, protein loss, weight loss, and ad libitum feed intake during lactation showed moderate heritabilities (0.39, 0.21, 0.20, and 0.30, respectively). Low to moderate heritabilities were found for litter weight at birth, within-litter SD in the birth weight of piglets, litter weight gain, fat loss, and restricted feed intake during lactation (0.19, 0.09, 0.18, 0.05, and 0.14, respectively). Within-litter SD in the weaning weight of piglets showed no genetic variability. It was predicted that a breeding goal for dam lines with an emphasis on the total number of piglets born, piglet mortality, and percent prolonged interval from weaning to estrus would not dramatically change BW or body composition at the beginning of lactation, or mobilization of body tissue and feed intake during lactation. Inclusion of LE in the breeding goal will improve stayability, as defined by the first-litter survival of sows and LE itself, without negative consequences for other economically important traits. Nevertheless, it might be worthwhile to design a breeding goal in which LE increases and feed intake remains unchanged.
- Subjects :
- Litter (animal)
Litter Size
Animal Nutrition
Swine
Breeding
Weight Gain
stayability
body-composition
Weight loss
birth-weight
Lactation
primiparous sows
large white
pigs
General Medicine
Diervoeding
Animals, Suckling
medicine.anatomical_structure
Adipose Tissue
Female
medicine.symptom
performance
Breeding program
Birth weight
Weaning
Biology
Animal Breeding and Genomics
Animal science
Quantitative Trait, Heritable
Estrus
Genetics
medicine
Animals
Fokkerij en Genomica
Selection, Genetic
business.industry
Heritability
Biotechnology
residual feed-intake
breeding sows
WIAS
Animal Science and Zoology
Residual feed intake
business
Energy Intake
Energy Metabolism
Weight gain
growth-rate
Food Science
Subjects
Details
- Language :
- English
- ISSN :
- 00218812 and 10671080
- Database :
- OpenAIRE
- Journal :
- Journal of Animal Science 86 (2008) 5, Journal of Animal Science, 86(5), 1067-1080
- Accession number :
- edsair.doi.dedup.....d3ea88905beb05c8b53d729697e2a668