China Dairy ›› 2021, Vol. 0 ›› Issue (10): 31-34.doi: 10.12377/1671-4393.21.10.07

• INVITED REVIEW • Previous Articles     Next Articles

Causes,Effects and Evaluation of Weaning Stress in Calves

YANG Xiya1, XIE Lei1, ZHAO Yongpan2, Gou Qi3, DONG Qiang1,*   

  1. 1College of Veterinary Medicine,Northwest A&F University,Yangling Shaanxi 712100;
    2Shaanxi Animal Husbandry Industry Experimental Demonstration Centre,Jingyang shanxi 713700;
    3Heyang County Animal Disease Prevention and Control Center,HeYang shaanxi 715300
  • Online:2021-10-25 Published:2021-12-03

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Abstract: Weaning stress is often caused when calves undergo weaning before they are fully developed. Oxidative stress is the main mechanism of weaning stress, which affects the health, growth and development of calves, as well as their future performance and reproductive ability. Therefore, based on the mechanism of oxidative stress, this paper describes the specific causes of weaning stress, summarizes the effects of weaning stress on calves, and systematically introduces how to evaluate weaning stress, in order to provide the theoretical and practical basis for calf breeding and enhance animal welfare.

Key words: calf, weaning stress, oxidative stress, biomarkers

[1] 赵会利,曹玉凤,高艳霞,等. 缓解犊牛断奶应激的营养调控技术措施[J]. 中国畜牧杂志,2011(24):38-44.
[2] Boulanger V,Zhao X,Lacasse P.Protective effect of melatonin and catalase in bovine neutrophil-induced model of mammary cell damage[J]. Journal of Dairy Science,2002,85(3):562-569.
[3] Peter S,Lech W.Fatty acids as modulators of the cellular production of reactive oxygen species[J]. Free Radical Biology and Medicine,2008,45(3):231-241.
[4] Hulbert L E,Moisa S J.Stress,immunity,and the management of calves[J]. Journal of Dairy Science,2016,99(4):3199-3216.
[5] Aschbacher K,O'Donovan A,Wolkowitz O M,et al. Good stress,bad stress and oxidative stress:Insights from anticipatory cortisol reactivity[J]. Psychoneuroendocrinology: An International Journal,2013,38(9):1698-1708.
[6] Miller J K,Msdsen F C.Oxidative stress,antioxidants,and animal function[J]. Journal of Dairy Science ,1993(76):2812-2823.
[7] Gao W,Du X,Lei L,et al.NEFA-induced ROS impaired insulin signalling through the JNK and p38MAPK pathways in non-alcoholic steatohepatitis[J]. Journal of cellular and molecular medicine,2018,22(7):3408.
[8] 阳坦,孙志洪,李晓敏. 在早期断奶过程中氧化应激的产生机制及其影响[J]. 动物营养学报,2013,25(4):705-714.
[9] Kankofer M,Podolak M,Fidecki M,et al.Activity of placental glutathione peroxidase and superoxide dismutase in cows with and without retained fetal membranes[J]. Placenta,1996,17(8):591.
[10] 郝绍有. 泛酸钙对乳用犊牛腹泻的预防效果[J]. 动物医学进展,1984(2):7-8.
[11] 李贵生. 犊牛肺炎治疗技术要点[J]. 中国畜牧兽医文摘,2017,33(2):184.
[12] Weary D M,Jasper J,HoTzel M J.Understanding weaning distress[J].Applied Animal Behaviour Science,2008,110(1-2):24-41.
[13] 宋斌,王树茂,付龙. 犊牛运输应激综合征的诊治[J]. 畜牧兽医科技信息, 2011(2):39-40.
[14] Chai G M.Effect of weaning age on growth measurements and sero-biochemical parameters in Murrah buffalo calves[J]. The Indian Journal of Animal Sciences, 2018, 88(11):1305-1309.
[15] Enríquez D,Hötzel M J,Ungerfeld R.Minimising the stress of weaning of beef calves: a review[J]. Acta Veterinaria Scandinavica, 2011, 53(1):28.
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