Effects of rumen-protected Y-aminobutyric acid on performance and nutrient digestibility in heat-stressed dairy cows

文献类型: 外文期刊

第一作者: Cheng, J. B.

作者: Cheng, J. B.;Bu, D. P.;Wang, J. Q.;Sun, X. Z.;Pan, L.;Zhou, L. Y.;Liu, W.;Cheng, J. B.;Sun, X. Z.

作者机构:

关键词: gamma-aminobutyric acid;milk yield;heat stress

期刊名称:JOURNAL OF DAIRY SCIENCE ( 影响因子:4.034; 五年影响因子:4.354 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: This experiment was conducted to investigate the effects of rumen-protected gamma-aminobutyric acid (GABA) on performance and nutrient digestibility in heat-stressed dairy cows. Sixty Holstein dairy cows (141 +/- 15 d in milk, 35.9 +/- 4.3 kg of milk/d, and parity 2.0 +/- 1.1) were randomly assigned to 1 of 4 treatments according to a completely randomized block design. Treatments consisted of 0 (control), 40, 80, or 120 mg of true GABA/kg of dry matter (DM). The trial lasted 10 wk. The average temperature-humidity indices at 0700, 1400, and 2200 h were 78.4, 80.2, and 78.7, respectively. Rectal temperatures decreased linearly at 0700, 1400, and 2200 h with increasing GABA concentration. Supplementation of GABA had no effect on respiration rates at any time point. Dry matter intake, energycorrected milk, 4% fat-corrected milk, and milk fat yield tended to increase linearly with increasing GABA concentration. Supplementation of GABA affected, in a quadratic manner, milk protein and lactose concentrations, and milk protein yield, and the peak values were reached at a dose of 40 mg of GABA/kg. Milk urea nitrogen concentration responded quadratically. Total solids content increased linearly with increasing GABA concentration. Supplementation of GABA had no effect on milk yield, lactose production, total solids, milk fat concentration, somatic cell score, or feed efficiency. Apparent total-tract digestibilities of DM, organic matter, crude protein, neutral detergent fiber, and acid detergent fiber were similar among treatments. These results indicate that rumen-protected GABA supplementation to dairy cows can alleviate heat stress by reducing rectal temperature, increase DM intake and milk production, and improve milk composition. The appropriate supplemental GABA level for heat-stressed dairy cows is 40 mg/kg of DM.

分类号: TS252

  • 相关文献

[1]Effect of saturated fatty acid supplementation on production and metabolism indices in heat-stressed mid-lactation dairy cows. Wang, J. P.,Bu, D. P.,Wang, J. Q.,Huo, X. K.,Guo, T. J.,Wei, H. Y.,Zhou, L. Y.,Wang, J. P.,Rastani, R. R.,Baumgard, L. H.,Li, F. D..

[2]Feeding rumen-protected gamma-aminobutyric acid enhances the immune response and antioxidant status of heat-stressed lactating dairy cows. Cheng, Jianbo,Zheng, Nan,Li, Songli,Wang, Jiaqi,Zhang, Yangdong,Cheng, Jianbo,Sun, Xianzhi,Zheng, Nan,Li, Songli,Zhang, Yangdong,Wang, Jiaqi.

[3]The effect of steam-flaked and extruded full-fat soybeans on the concentration of conjugated linoleic acid in the milk fat of dairy cows. Li, Yanling,Meng, Qingxiang,Li, Yanling,Diao, Qiyu. 2009

[4]NPR1-dependent salicylic acid signaling is not involved in elevated CO2-induced heat stress tolerance in Arabidopsis thaliana. Li, Xin,Ahammed, Golam Jalal,Li, Xin,Yu, Jingquan,Shi, Kai. 2015

[5]Shading during the grain filling period increases 2-acetyl-1-pyrroline content in fragrant rice. Mo, Zhaowen,Pan, Shenggang,Xiao, Feng,Tang, Yongjian,Wang, Yilei,Duan, Meiyang,Tian, Hua,Tang, Xiangru,Mo, Zhaowen,Pan, Shenggang,Duan, Meiyang,Tian, Hua,Tang, Xiangru,Li, Wu,Fitzgerald, Timothy L.. 2015

[6]gamma-Aminobutyric acid treatment reduces chilling injury and activates the defence response of peach fruit. Cai, Yuting,Zheng, Yonghua,Yang, Aiping,Cao, Shifeng,Yang, Zhenfeng. 2011

[7]Exogenous Melatonin Treatment Increases Chilling Tolerance and Induces Defense Response in Harvested Peach Fruit during Cold Storage. Cao, Shifeng,Song, Chunbo,Shao, Jiarong,Bian, Kun,Chen, Wei,Yang, Zhenfeng.

[8]MeJA induces chilling tolerance in loquat fruit by regulating proline and gamma-aminobutyric acid contents. Cao, Shifeng,Cai, Yuting,Zheng, Yonghua,Cao, Shifeng,Yang, Zhenfeng. 2012

[9]Effect of Exogenous gamma-Aminobutyric Acid Treatment on Proline Accumulation and Chilling Injury in Peach Fruit after Long-Term Cold Storage. Shang, Haitao,Cai, Yuting,Zheng, Yonghua,Shang, Haitao,Cao, Shifeng,Yang, Zhenfeng. 2011

[10]Effect of the treatment by slightly acidic electrolyzed water on the accumulation of gamma-aminobutyric acid in germinated brown millet. Li, Xingfeng,Hao, Jianxiong,Liu, Xianggui,Ning, Yawei,Jia, Yingmin,Liu, Haijie,Tan, Bin,Cheng, Ruhong.

[11]Genome-wide characterization of differentially expressed genes provides insights into regulatory network of heat stress response in radish (Raphanus sativus L.). Wang, Ronghua,Xu, Liang,Wang, Yan,Liu, Liwang,Wang, Ronghua,Mei, Yi,Guo, Jun,Zhu, Xianwen. 2018

[12]mRNA Expression of Glutathione S-Transferase Pi (GSTP1) under Heat Stress and Association of Genotypes with Heat Tolerance Ability in Holstein. Lai, Song-Jia,Li, Qiu-Ling,Wang, Chang-Fa,Wang, Hong-Mei,Zhong, Ji-Feng. 2011

[13]Genome-Wide Identification and Expression Profile of Dof Transcription Factor Gene Family in Pepper (Capsicum annuum L.). Wu, Zhiming,Bang, Guansheng,Cheng, Jiaowen,Cui, Junjie,Hu, Kailin,Xu, Xiaowan,Luo, Xirong,Chen, Xiaocui,Tang, Xiangqun,Qin, Cheng,Qin, Cheng. 2016

[14]Characterization of HSP70 and its expression in tissue: correlation with physiological and immune indices in goose (Anser cygnoides) serum. Zhang, W. W.,Zhang, X. Q.,Kong, L. N.,Luo, Q. B.,Zhang, W. W.,Xiao, X.,Gan, J. K.,Zhang, X. Q.,Kong, L. N.,Luo, Q. B.. 2015

[15]Heat stress inhibits proliferation, promotes growth, and induces apoptosis in cultured Lantang swine skeletal muscle satellite cells. Gao, Chun-qi,Zhao, Yin-ling,Sui, Wei-guo,Yan, Hui-chao,Wang, Xiu-qi,Li, Hai-chang. 2015

[16]Effect of Heat Stress on the Photosynthetic Characteristics in Flag Leaves at the Grain-Filling Stage of Different Heat-Resistant Winter Wheat Varieties. Feng, B.,Liu, P.,Li, G.,Dong, S. T.,Zhang, J. W.,Feng, B.,Wang, F. H.,Kong, L. A.. 2014

[17]Effects of heat stress on gene expression in eggplant (Solanum melongema L.) seedlings. Li, Yanyan,Li, Zhiliang,Li, Zhenxing,Luo, Shaobo,Sun, Baojuan,Li, Yanyan. 2011

[18]The newly identified heat-stress sensitive albino 1 gene affects chloroplast development in rice. Qiu, Zhennan,Kang, Shujing,He, Lei,Zhao, Juan,Zhang, Sen,Hu, Jiang,Zeng, Dali,Zhang, Guangheng,Dong, Guojun,Gao, Zhenyu,Ren, Deyong,Chen, Guang,Guo, Longbiao,Qian, Qian,Zhu, Li. 2018

[19]Heat stress impairs the nutritional metabolism and reduces the productivity of egg-laying ducks. Ma, Xianyong,Lin, Yingcai,Zhang, Hanxing,Chen, Wei,Wang, Shang,Ruan, Dong,Jiang, Zongyong,Ma, Xianyong,Lin, Yingcai,Zhang, Hanxing,Chen, Wei,Wang, Shang,Ruan, Dong,Jiang, Zongyong,Ma, Xianyong,Lin, Yingcai,Zhang, Hanxing,Chen, Wei,Wang, Shang,Ruan, Dong,Jiang, Zongyong. 2014

[20]Dwarfing apple rootstock responses to elevated temperatures: A study on plant physiological features and transcription level of related genes. Zhou Bei-bei,Sun Jian,Liu Song-zhong,Jin Wan-mei,Zhang Qiang,Wei Qin-ping. 2016

作者其他论文 更多>>

微信小程序