Showing papers by "Chris Haley published in 1990"

Embryo survival and conceptus growth after reciprocal embryo transfer between Chinese Meishan and Landrace x Large White gilts.

Abstract: Embryos were transferred between Meishan and Landrace x Large White (control) gilts on Day 4 or 5 to establish approximately equal numbers of all four possible combinations of donor breed and recipient breed. The breed of the donor gilt significantly (P less than 0.01) affected embryo survival with 44.5% of transferred Meishan embryos and 69.6% of transferred control embryos surviving to Day 30 +/- 1. There was no influence of the breed of the recipient gilt on the proportion of embryos which survived. These differences in embryo survival between the two breeds could not be explained by differences in (1) the number of embryos transferred, (2) the stage of development of the embryos transferred, (3) the interval between ovulation and transfer or (4) the degree of asynchrony between donor and recipient gilt. On Day 30 +/- 1 embryos from control donors developed into longer fetuses (P less than 0.01) with larger allantoic sacs (P less than 0.05) than did embryos from Meishan donors. Fetuses in control recipients were longer (P less than 0.01), heavier (P less than 0.001) and had larger allantoic sacs (P less than 0.05) than fetuses occupying Meishan uteri. The interaction between breed of donor gilt and breed of recipient gilt did not significantly affect conceptus growth. These results suggest that Meishan pig embryos may be less tolerant to routine embryo transfer procedures than those of control gilts, that the genotype of the dam does not affect the proportion of embryos surviving to Day 30 +/- 1, and that both fetal and maternal factors affect conceptus growth.

Direct responses in males and correlated responses for reproduction in females to selection for testicular size adjusted for body weight in young male lambs.

Abstract: Selection based upon testicular diameter adjusted for body weight at 6, 10 and 14 weeks of age was used to produce two lines of sheep, with either high or low testicular size. Ten generations of selection were carried out and the estimate of the realized heritability of the selection criterion was 0.53 +/- 0.01. There were significant positive correlated responses to selection for testicular diameter at 6, 10 and 14 weeks of age, but the correlated responses in body weight at these ages were negative. In mature females, there were significant negative correlated responses to selection in premating body weight in the 1st, 2nd and 3rd breeding season and in the day of the first oestrus in the 2nd breeding season. Litter size per ewe mated had a small positive correlated response to selection in the second breeding season. This latter response appeared to be due to a positive correlated response in fertility, ewes from the High-line having a significantly higher probability of conceiving to a single mating than those from the Low-line. There was no significant correlated response in ovulation rate or litter size per ewe lambing and the genetic correlation between these traits and the selection criterion is likely to be close to zero. This may be due to the adjustment for body weight used, but it is possible that, in any event, body weight in young rams may be a better predictor of female ovulation rate than testicular diameter. These results do not rule out the possibility that testicular size in rams older than those selected would provide a good predictor of genetic merit for female ovulation rate.

Approximations to segregation analysis for the detection of major genes.

Abstract: Segregation analysis can be used to detect an allele of large effect segregating against a polygenic background. Simulation was used to study the power of three approximations to the exact mixed model likelihood (major gene and polygenic component) for the detection of a major gene and the estimation of its effect. The approximations differed in their ability to detect a major gene, however the best method, which involves an approximation by Hermite integration, provided good estimates of its effect. Analysing the data assuming the polygenic heritability is known can provide a more powerful test for a major gene, but could potentially detect a spurious major gene if the polygenic heritability was fixed at too low a value.