Estimation of the threshold for heat stress and genetic features for milk yield in Mehsana buffaloes in India

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Mayank Darji , Jay Prakash Gupta , B.P. Brahmkshtri , Sujit Saha , S.K. Mohapatra , Jagdish Chaudhari , Arth Chaudhari
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Abstract

Heat stress is one of the primary environmental factors that harm both the productivity and health of buffaloes. The current study was conducted to estimate the threshold of temperature humidity index (THI)1 and genetic features for milk yield of first-lactation Mehsana buffaloes using an univariate repeatability test-day model. The data included 130,475 first lactation test-day milk yield (FLTDMY) records of 13,887 Mehsana buffaloes and the daily temperature and humidity. The statistical model included herd test day as fixed effects, days-in-milk (DIM) classes, age of the animal, as well as random factors such as the additive genetic effect (AGE) of animal in general conditions (intercept), AGE of the buffaloes subjected to heat stress (slope), permanent environmental effect of animal in general conditions (intercept), permanent environmental effect of animal under heat stress conditions (slope) and random residual effect. It was expected that the general effects and the heat-tolerance effects would be correlated, represented by the present investigation's repeatability models. The variance components of FLTDMY in the present study were computed using the REML method. The threshold for THI was 78. At the THI below the threshold, the heritability estimated for the FLTDMY trait was 0.29, and the additive genetic variance (AGV) for heat stress conditions was 0. At THI of 83, AGV for heat stress conditions was highest for FLTDMY. The genetic correlation of general AGE to heat-tolerant AGE was −0.40. The results indicated that a consistent selection for milk production, avoiding the thermal tolerance, may diminish the thermal tolerance capacity of Mehsana buffaloes.

印度 Mehsana 水牛热应激阈值和产奶量遗传特征的估计。
热应激是损害水牛生产力和健康的主要环境因素之一。本研究采用单变量重复性测试日模型,估算了温度湿度指数(THI)1 的阈值和第一泌乳期 Mehsana 水牛产奶量的遗传特征。数据包括 13,887 头 Mehsana 水牛的 130,475 个首次泌乳测试日产奶量(FLTDMY)记录以及每日温度和湿度。统计模型包括作为固定效应的牛群测试日、奶中天数(DIM)等级、动物年龄,以及随机因素,如一般条件下动物的遗传效应(AGE)(截距)、热应激水牛的遗传效应(斜率)、一般条件下动物的永久环境效应(截距)、热应激条件下动物的永久环境效应(斜率)和随机残差效应。预计一般效应和耐热效应将相互关联,这在本研究的重复性模型中得到了体现。本研究使用 REML 方法计算了 FLTDMY 的方差分量。THI 临界值为 78。当 THI 低于临界值时,FLTDMY 性状的遗传力估计值为 0.29,热胁迫条件下的加性遗传方差(AGV)为 0;当 THI 为 83 时,FLTDMY 在热胁迫条件下的 AGV 最大。一般 AGE 与耐热 AGE 的遗传相关性为-0.40。结果表明,一味地选择产奶量而避免耐热性,可能会降低梅赫萨纳水牛的耐热能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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