Literature DB >> 30172398

Nitrate improves ammonia incorporation into rumen microbial protein in lactating dairy cows fed a low-protein diet.

Rong Wang1, Min Wang2, Emilio M Ungerfeld3, Xiu Min Zhang4, Dong Lei Long1, Hong Xiang Mao1, Jin Ping Deng5, André Bannink6, Zhi Liang Tan7.   

Abstract

Generation of ammonia from nitrate reduction is slower compared with urea hydrolysis and may be more efficiently incorporated into ruminal microbial protein. We hypothesized that nitrate supplementation could increase ammonia incorporation into microbial protein in the rumen compared with urea supplementation of a low-protein diet fed to lactating dairy cows. Eight multiparous Chinese Holstein dairy cows were used in a crossover design to investigate the effect of nitrate or an isonitrogenous urea inclusion in the basal low-protein diet on rumen fermentation, milk yield, and ruminal microbial community in dairy cows fed a low-protein diet in comparison with an isonitrogenous urea control. Eight lactating cows were blocked in 4 pairs according to days in milk, parity, and milk yield and allocated to urea (7.0 g urea/kg of dry matter of basal diet) or nitrate (14.6 g of NO3-/kg of dry matter of basal diet, supplemented as sodium nitrate) treatments, which were formulated on 75% of metabolizable protein requirements. Nitrate supplementation decreased ammonia concentration in the rumen liquids (-33.1%) and plasma (-30.6%) as well as methane emissions (-15.0%) and increased dissolved hydrogen concentration (102%), microbial N (22.8%), propionate molar percentage, milk yield, and 16S rRNA gene copies of Selenomonas ruminantium. Ruminal dissolved hydrogen was positively correlated with the molar proportion of propionate (r = 0.57), and negatively correlated with acetate-to-propionate ratio (r = -0.57) and estimated net metabolic hydrogen production relative to total VFA produced (r = -0.58). Nitrate reduction to ammonia redirected metabolic hydrogen away from methanogenesis, enhanced ammonia incorporation into rumen microbial protein, and shifted fermentation from acetate to propionate, along with increasing S. ruminantium 16S rRNA gene copies, likely leading to the increased milk yield.
Copyright © 2018 American Dairy Science Association. Published by Elsevier Inc. All rights reserved.

Entities:  

Keywords:  dissolved hydrogen; microbial protein; nitrate; rumen fermentation

Mesh:

Substances:

Year:  2018        PMID: 30172398     DOI: 10.3168/jds.2018-14904

Source DB:  PubMed          Journal:  J Dairy Sci        ISSN: 0022-0302            Impact factor:   4.034


  7 in total

1.  Feeding Calcium-Ammonium Nitrate to Lactating Dairy Goats: Milk Quality and Ruminal Fermentation Responses.

Authors:  Kleves V Almeida; Geraldo T Santos; Jesus A C Osorio; Jean C S Lourenço; Monique Figueiredo; Thomer Durman; Francilaine E Marchi; Claudete R Alcalde; Ranulfo C Silva-Junior; Camila C B F Itavo; Rafael C Araujo; Andre F Brito
Journal:  Animals (Basel)       Date:  2022-04-11       Impact factor: 3.231

2.  Metabolic Hydrogen Flows in Rumen Fermentation: Principles and Possibilities of Interventions.

Authors:  Emilio M Ungerfeld
Journal:  Front Microbiol       Date:  2020-04-15       Impact factor: 5.640

3.  Changes in hematological, biochemical, and blood gases parameters in response to progressive inclusion of nitrate in the diet of Holstein calves.

Authors:  Abimael Ortiz-Chura; Gisela Marcoppido; José Gere; Gustavo Depetris; Francisco Stefañuk; Marcos D Trangoni; Silvio L Cravero; Claudia Faverín; Angel Cataldi; María E Cerón-Cucchi
Journal:  Vet World       Date:  2021-01-09

Review 4.  Technologies and perspectives for achieving carbon neutrality.

Authors:  Fang Wang; Jean Damascene Harindintwali; Zhizhang Yuan; Min Wang; Faming Wang; Sheng Li; Zhigang Yin; Lei Huang; Yuhao Fu; Lei Li; Scott X Chang; Linjuan Zhang; Jörg Rinklebe; Zuoqiang Yuan; Qinggong Zhu; Leilei Xiang; Daniel C W Tsang; Liang Xu; Xin Jiang; Jihua Liu; Ning Wei; Matthias Kästner; Yang Zou; Yong Sik Ok; Jianlin Shen; Dailiang Peng; Wei Zhang; Damià Barceló; Yongjin Zhou; Zhaohai Bai; Boqiang Li; Bin Zhang; Ke Wei; Hujun Cao; Zhiliang Tan; Liu-Bin Zhao; Xiao He; Jinxing Zheng; Nanthi Bolan; Xiaohong Liu; Changping Huang; Sabine Dietmann; Ming Luo; Nannan Sun; Jirui Gong; Yulie Gong; Ferdi Brahushi; Tangtang Zhang; Cunde Xiao; Xianfeng Li; Wenfu Chen; Nianzhi Jiao; Johannes Lehmann; Yong-Guan Zhu; Hongguang Jin; Andreas Schäffer; James M Tiedje; Jing M Chen
Journal:  Innovation (Camb)       Date:  2021-10-30

5.  Sodium nitrate has no detrimental effect on milk fatty acid profile and rumen bacterial population in water buffaloes.

Authors:  Fang Xie; Zhenhua Tang; Xin Liang; Chongli Wen; Mengwei Li; Yanxia Guo; Kaiping Peng; Chengjian Yang
Journal:  AMB Express       Date:  2022-02-05       Impact factor: 3.298

6.  Effect of Methionine Supplementation on Serum Metabolism and the Rumen Bacterial Community of Sika Deer (Cervus nippon).

Authors:  Yan Wu; Xiaolan Guo; Dehui Zhao; Chao Xu; Haoran Sun; Qianlong Yang; Qianqian Wei; Huazhe Si; Kaiying Wang; Tietao Zhang
Journal:  Animals (Basel)       Date:  2022-07-31       Impact factor: 3.231

7.  In vitro and in vivo Studies of Soybean Peptides on Milk Production, Rumen Fermentation, Ruminal Bacterial Community, and Blood Parameters in Lactating Dairy Cows.

Authors:  Tian Xie; Fanlin Kong; Wei Wang; Yajing Wang; Hongjian Yang; Zhijun Cao; Shengli Li
Journal:  Front Vet Sci       Date:  2022-08-11
  7 in total

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