Abdel-Azim G A, Freeman A E, Kehrli M E, Kelm S C, Burton J L, Kuck A L, Schnell S
Cooperative Resources International, Shawano, WI 54166, USA.
J Dairy Sci. 2005 Mar;88(3):1199-207. doi: 10.3168/jds.S0022-0302(05)72786-7.
Health data collected from 1996 to 1999 from 177 herds in Minnesota and Wisconsin were analyzed to establish genetic basis for infectious and noninfectious diseases. Three types of health traits were targeted. First, available infectious conditions were used to identify animals that are superior in their general immunity (including innate immunity) for infectious diseases. Generalized immunity may be thought of as a combination of immune responses to a variety of immune system challenges. Second, single infectious and noninfectious diseases were analyzed separately. Third, infectious reproductive diseases as one category of related conditions, and cystic ovary disease as one category of 3 related noninfectious ovary disorders were studied. Data were analyzed using a threshold model that included herd, calving year, season of calving, and parity as cross-classified fixed factors; and sire and cow within sires as random effects. Days at risk and days in milk at the beginning of a record were included by fitting the days as continuous covariates in the model. A heritability value of 0.202 +/- 0.083 was estimated for generalized immunity. Heritability values of 0.141 and 0.161 were estimated for uterine infection and mastitis, respectively. Heritability of single noninfectious disorders ranged from 0.087 to 0.349. The amount of additive genetic variance recovered in the underlying scale of noninfectious disorders tended to zero when combining multiple conditions. The study supports combining infectious diseases into categories of interest but we do not recommend the same approach for noninfectious disorders.
对1996年至1999年从明尼苏达州和威斯康星州的177个牛群收集的健康数据进行了分析,以确定传染病和非传染病的遗传基础。研究了三种类型的健康性状。首先,利用现有的传染病情况来识别对传染病具有较强一般免疫力(包括先天免疫力)的动物。一般免疫力可被视为对各种免疫系统挑战的免疫反应的组合。其次,分别分析单一的传染病和非传染病。第三,将传染性生殖疾病作为一类相关病症,将囊性卵巢疾病作为三类相关非传染性卵巢疾病之一进行研究。使用阈值模型对数据进行分析,该模型将牛群、产犊年份、产犊季节和胎次作为交叉分类固定因素;将 sire 和 sire 内的母牛作为随机效应。通过将天数作为连续协变量纳入模型,纳入了记录开始时的风险天数和泌乳天数。估计一般免疫力的遗传力值为0.202±0.083。子宫感染和乳腺炎的遗传力值分别估计为0.141和0.161。单一非传染性疾病的遗传力范围为0.087至0.349。当合并多种病症时,在非传染性疾病的潜在尺度上恢复的加性遗传方差量趋于零。该研究支持将传染病合并为感兴趣的类别,但我们不建议对非传染性疾病采用相同的方法。
