G. F. Barbato scite author profile

Theoret. Appl. Genetics

1991

Genetic improvement in growth of poultry has traditionally proceeded via selection for body weight at a fixed age. Due to increased maintenance costs and reproductive problems of adult broiler breeders, the potential for genetic manipulation of the growth curve has been receiving increased interest. Research of both male and female progeny of a three-way diallel cross was used to investigate the inheritance of growth curve parameters. The Laird form of the Gompertz equation was used to determine growth curve parameters, and was suited to the juvenile growth data frequently collected from meat-type chickens. Growth rate exhibited significant heterosis due to both autosomes and the sex chromosomes. Age at inflection point also exhibited significant average heterosis, though only among females. Growth rate was also influenced by average line effects, as was age at inflection point. Maternal effects had no influence on growth curve parameters, while additive sex linkage was observed for growth rate. Phenotypic and genetic correlations were calculated among the growth curve parameters and suggest that specific breeding programs could alter the growth trajectory of the contemporary broiler chicken. Moderate heritabilities were observed for the growth curve parameters and support the hypothesis that the growth curve could be altered via genetic manipulation of early postnatal growth, especially during the first 14 days post-hatch.

Growth of Broiler Chickens in Response to Feed Restriction Regimens to Reduce Ascites

et al. 1995

A trial was conducted to investigate the impact of early feed restriction on ascites induced by cold temperatures and the subsequent effect on the whole body and breast muscle growth of broilers. Two feed restriction regimens were tested, consisting of limiting daily feed intake of the birds to 75% of the ME required for normal growth from either 4 to 11 d or from 7 to 14 d. At 21 d, half of the birds were moved to a cold house (17.8 C) to induce ascites. Five birds from each pen were killed for the breast muscle growth, Pectoralis major and Pectoralis minor, and heart and abdominal fat pad weights at 4, 7, 11, 14, 21, 35, and 49 d of the experiment. Birds in the cold house were heavier and had better feed conversion than birds in the control house at 49 d of age. This could be attributed to the high ambient temperatures (27 to 33 C) in the control house. The ad libitum birds had a significantly greater percentage of P. major than the feed-restricted birds. Exposure to cold temperatures caused significantly higher percentage of ascites from 21 to 49 d. Cold temperatures also increased the percentage of total heart and the right ventricle weight relative to total heart weight ratio at 35 and 49 d of age, suggesting that the surviving birds were more likely to develop ascites. Although catch-up growth was observed, the final body weight of feed-restricted birds was not the same as ad libitum birds. Early feed restriction reduced the incidence of ascites, but at the cost of breast muscle growth.

A Practical In Vitro Sperm-Egg Binding Assay That Detects Subfertile Males1

Cramer

Hammerstedt

1998

A series of in vitro assays of sperm-egg binding were developed to identify potentially subfertile roosters. Initial assays used either segments of intact hen's egg perivitelline membrane (PVM) placed on a microscope slide or a heat-solubilized extract of PVM (HS-PVM) dried within a flat-bottomed microwell plate, with bound sperm detected with a DNA-specific stain and epifluorescence microscopy. An automated assay was developed using prestained sulfosuccinimidyl-7-amino-4-methylcoumarin-3-acetate-HS-PVM and enumeration of bound sperm with a fluorometric microwell plate reader. Four populations of chickens differing in fertility were evaluated with the following results: 1) the correlation across lines between in vitro sperm binding and fertility was 0.83 (N = 40; p < 0.0001); 2) correlations with other seminal parameters were low; and 3) the relationship between sperm binding and fertility was not linear, but a threshold plot allowed identification of males with low binding and low fertility. Motile sperm from roosters, turkeys, bulls, humans, mice, rams, and stallions bound in a dose responsive manner. Features of binding were revealed by both scanning and transmission electron microscopy. Use of this assay to cull males whose semen appears normal by traditional modes of analysis but differs in the obligatory trait of sperm-egg binding could be of value to avoid expensive progeny testing.

Genetic relationships between selection for growth and reproductive effectiveness

1999

Poultry Science

The domestic and international poultry industries have gone through many changes over the last 50 yr. One constant in the meat-type poultry industry has been the emphasis on genetic improvement of growth. Using lines from a double, divergent selection experiment, data are presented on the genetic relationships between growth to different ages and reproductive parameters. During the last three generations of selection an in vitro sperm binding assay was used and evaluated for its usefulness in a selection program for growth-related phenotypes. Growth to different ages can have markedly different genetic architecture, compared to evaluating body weight at a fixed age. Growth is a nonlinear phenomenon and should be evaluated as such within the context of a genetics program. Fertility is positively correlated with growth to 14 d of age (EGR14), but negatively correlated with growth to 42 d of age (EGR42). This difference is primarily due to the high, negative correlation between exponential growth from 14 to 42 d of age (EGR14/42) and reproductive phenotypes. Roosters were also evaluated with an in vitro sperm binding assay, which is highly correlated with fertility. The genetic architecture of the sperm binding assay was very similar to that of fertility, with an additive genetic correlation of 0.75. Further, it was shown that culling the worst 25% roosters on the basis of the sperm binding assay would have very little effect on the growth performance of the resulting progeny, yet increased the number of chicks produced per rooster by 10 to 25% (depending upon the population).

Measuring Male-to-Male Differences in Fertility or Effects of Semen Treatments

Amann

Saacke

Annu. Rev. Anim. Biosci.

et al. 2018

Fertility is a convenient but meaningless term unless the outcome measure is stipulated and accounts for dependence of male fertility on the female population. We describe outcome measures and detail the impacts of the physiological status of each female and her external environment, as well as management imposed by humans. We explain the dominant role of the female reproductive tract as a series of hurdles for sperm seeking an ovum. Each spermatozoon in an ejaculate is unique, although usually most are morphologically similar. Semen seemingly contains three subpopulations of sperm, based on fate within a female and role in hampering the success of the ultimate winning spermatozoon; we define these subpopulations. The numerical size of each subpopulation placed into a female determines the shape of the dose-response curve leading to possible live young. Heterospermic artificial insemination provides far greater sensitivity to detect differences, partly because the female environment is identical for each comparison.