Nowier Amira M, Ramadan Sherif I, El Nagar Ayman G
Biotechnology Research Department, Animal Production Research Institute, Agriculture Research Center, Dokki, Egypt.
Animal Wealth Development Department, Faculty of Veterinary Medicine, Benha University, Toukh, Egypt.
Anim Biotechnol. 2023 Dec;34(9):4308-4315. doi: 10.1080/10495398.2022.2148109. Epub 2022 Nov 21.
This study was conducted to genetically and environmentally characterize prolificacy (litter size and weight at birth; LSB and LWB and litter size and weight at weaning; LSW and LWW, respectively), milk yield at the 7th (MY7), 15th (MY15), 30th (MY30), 60th (MY60), 90th (MY90) day of lactation and monthly milk yield (MMY) and milk composition traits in Egyptian Zaraibi goats. A total of 443 and 421 records produced by 121 Zaraibi lactating goats were used to assess prolificacy and milk production traits, respectively. The milk composition traits were measured using 371 milk samples obtained at random from 53 goats. The fourth parity showed the highest values for LWB, LWW, and MMY (3.62, 18.15, and 28.99 kg, respectively). Milk composition traits revealed an inverse tendency, decreasing until the second month and then increasing until the seventh month. The heritability estimates ranged from 0.07 to 0.13, from 0.04 to 0.39, and from 0.07 to 0.33 for prolificacy, milk yield, and milk composition traits, respectively. Negatively high genetic correlations between MMY and all milk composition traits were found. MMY had the highest estimate of heritability (0.39 ± 0.07), this means that the genetic improvement of this trait could be achieved through direct selection.
本研究旨在对埃及扎拉伊比山羊的繁殖力(出生时的产仔数和体重;分别为LSB和LWB,以及断奶时的产仔数和体重;分别为LSW和LWW)、泌乳第7天(MY7)、15天(MY15)、30天(MY30)、60天(MY60)、90天(MY90)的产奶量、月产奶量(MMY)以及乳成分性状进行遗传和环境特征分析。分别使用121只扎拉伊比泌乳山羊产生的443条和421条记录来评估繁殖力和产奶性状。使用从53只山羊中随机获取的371份乳样来测量乳成分性状。第四胎次的LWB、LWW和MMY值最高(分别为3.62、18.15和28.99千克)。乳成分性状呈现出相反的趋势,直到第二个月下降,然后直到第七个月上升。繁殖力、产奶量和乳成分性状的遗传力估计值分别为0.07至0.13、0.04至0.39和0.07至0.33。发现MMY与所有乳成分性状之间存在高度负遗传相关性。MMY的遗传力估计值最高(0.39±0.07),这意味着该性状的遗传改良可以通过直接选择来实现。
