Abstract
Genetic parameters for survival, reproduction and production traits were estimated for a sire and dam line, originating from
one Large White breed separated more than 25 years ago. The change in parameters due to different selection pressure on
reproduction and production traits in both lines was also examined. Data collected between 1990 and 2007 were available
for the analysis of reproduction traits in 4713 litters (sire line) and 14 836 litters (dam line) and for the production traits in
58 329 pigs (sire line) and 108 912 pigs (dam line). Genetic parameters were estimated using a Bayesian approach. Average
phenotypic differences between lines were substantial with 1.5 more piglets born in the dam line and 1.7mm less backfat
thickness (BF) in the sire line. Based on a multiple trait analysis which included both reproduction and production traits,
heritabilities for survival and litter size traits in the sire (or dam) line were estimated at 0.0360.01 (0.0660.01) for
percentage of stillborn piglets (SB), 0.1060.03 (0.1160.01) for total number of piglets born (NBT) and 0.0960.03
(0.0960.01) for number of piglets born alive. Heritabilities for production traits were estimated at 0.2960.01 (0.2960.01)
for average daily gain, 0.5060.01 (0.4260.01) for BF and 0.4160.01 for muscle depth. Selection pressure on litter size in
the dam line resulted in a slightly unfavourable correlation for SB–NBT (0.2160.11), which was only marginally unfavourable
in the sire line (0.0660.24). Selection pressure on BF in the sire line may have resulted in the moderately undesirable
correlation with SB (20.4660.15), which was not significant in the dam line (20.0860.06). Changing the base population
in the dam line to animals born since the year 2000 indicated that selection pressure on different traits has altered the
heritabilities and correlations of the traits within the line. The undesirable correlations between survival at birth and
reproduction traits or production traits were low so that simultaneous improvement of all traits can be achieved. Heritabilities
for survival at birth and reproduction traits were low, but genetic variation was substantial and extensive pedigree information
can be used to improve the accuracy of breeding values, so that genetic improvement is expected to be efficient.
Original language | English |
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Pages (from-to) | 1354 - 1362 |
Number of pages | 9 |
Journal | Animal |
Volume | 3 |
Issue number | 10 |
DOIs | |
Publication status | First published - 2009 |
Bibliographical note
1020937Keywords
- Breed
- Genetic correlations
- Pig
- Selection
- Survival