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草业学报 ›› 2020, Vol. 29 ›› Issue (3): 78-88.DOI: 10.11686/cyxb2019300

• 研究论文 • 上一篇    下一篇

不同精粗比日粮中添加小肽对牦牛瘤胃体外发酵特性的影响

涂瑞, 苗建军, 彭忠利*, 高彦华, 柏雪, 谢昕廷   

  1. 西南民族大学生命科学与技术学院,青藏高原动物遗传资源保护与利用教育部重点实验室,四川 成都 610041
  • 收稿日期:2019-07-01 出版日期:2020-03-20 发布日期:2020-03-20
  • 通讯作者: *E-mail: leo3131@163.com
  • 作者简介:涂瑞(1996-),男,湖北孝感人,在读硕士。E-mail: XGturui@163.com
  • 基金资助:
    四川省重点研发项目(2017NZ0042)和四川省肉牛创新团队藏区肉牛(牦牛)产业技术研发与集成应用专项资助

An in vitro study of dietary concentrate∶forage ratio and small peptide supplementation effects on ruminal fermentation parameters of yaks

TU Rui, MIAO Jian-jun, PENG Zhong-li*, GAO Yan-hua, BAI Xue, XIE Xin-ting   

  1. Key Laboratory of Qinghai-Tibetan Plateau Animal Genetic Resource Reservation and Utilization, Ministry of Education, College of Life Science and Technology, Southwest Minzu University, Chengdu 610041, China
  • Received:2019-07-01 Online:2020-03-20 Published:2020-03-20

摘要: 为研究不同精粗比日粮中添加小肽对牦牛瘤胃体外发酵产气量、养分降解率以及发酵参数的影响,采用3×5交叉设计,以底物的精粗比(40∶60、50∶50、60∶40)和小肽的添加水平(0、0.75%、1.50%、2.25%、3.00%)作为两试验因素,试验共15个处理,每个处理3个重复,在发酵48 h后采集发酵样品进行测定。结果表明:1)日粮精粗比对中性洗涤纤维(NDF)和酸性洗涤纤维(ADF)的降解率无显著影响(P>0.05);随小肽添加水平的升高,NDF和ADF的降解率呈先升高后降低的二次曲线变化(P<0.01),以1.50%和2.25%水平效果较佳。日粮精粗比和小肽添加水平对产气量(GP)和干物质(DM)、粗蛋白(CP)的降解率存在极显著的互作效应(P<0.01)。2)随日粮精粗比的升高,pH逐渐降低(P<0.01),微生物蛋白(MCP)合成量逐渐升高(P>0.05),且50∶50和60∶40无显著差异。随小肽添加水平的升高,pH和MCP均呈二次曲线变化(P<0.01),以2.25%水平最高。日粮精粗比和小肽添加水平对氨态氮(NH3-N)浓度存在显著的互作效应(P<0.05)。3)日粮精粗比和小肽添加水平对挥发性脂肪酸(VFA)存在极显著的互作效应(P<0.01)。在3种精粗比条件下,随小肽添加水平的升高,乙酸与丙酸比(乙/丙)和乙酸、异丁酸、异戊酸比例呈二次曲线变化(P<0.05),以1.50%水平时乙/丙最小,乙酸比例最低,2.25%水平时异位酸比例最高。综上所述,日粮精粗比和小肽添加水平对体外产气量、养分降解率和发酵参数有着显著影响。本试验条件下,精粗比为50∶50和60∶40时效果较好,小肽的添加水平以1.50%和2.25%为宜。

关键词: 小肽, 精粗比, 牦牛, 体外发酵

Abstract: This study investigated the effects of different combinations of dietary concentrate∶forage ratio and small peptide supplementation on in vitro gas production, nutrient digestibility and ruminal fermentation parameters of yaks. The experiment comprised a factorial combination of three different concentrate∶forage ratios (40∶60, 50∶50, 60∶40; CFRs) and five different small peptide supplementation levels (0, 0.75%, 1.50%, 2.25%, 3.00%), making a total of 15 treatments, with 3 replicates per treatment. Fermentation samples were collected after 48 hours of fermentation. It was found that: 1) CFR had no significant effect on the degradation rate of neutral detergent fibre and acid detergent fibre (P>0.05). Across the range of small peptide supplementation levels, the degradation rate of neutral detergent fibre and acid detergent fibre displayed a quadratic pattern (P<0.01). The optimal small peptide supplementation treatments were 1.50% and 2.25%. There were significant interactions between CFR and the level of small peptides for gas production and the degradation rates of dry matter and crude protein (P<0.01). 2) With increase in CFR from 40∶60 to 60∶40, rumen pH decreased (P<0.01), while microbial protein increased (P>0.05). However, no significant changes in digestive parameters between CFR 50∶50 and 60∶40 were observed. A quadratic response pattern (P<0.01) was also observed for pH and microbial protein across the range of small peptide supplementation rates tested, with the optimal supplementation rate being 2.25%. A significant interaction was observed between CFR and the level of small peptide supplementation, for the concentration of ammonia nitrogen (P<0.05). 3) There was a significant interaction between CFR and the level of small peptide supplementation for rumen volatile fatty acid concentrations (P<0.01). Across the three tested CFRs, acetate∶propionate and the proportion of acetate, isobutyrate and isovalerate presented quadratic variation (P<0.05). The lowest value of acetate∶propionate ratio and lowest proportion of acetate occurred with 1.50% small peptide supplementation, and the highest proportion of isoacids occurred at 2.25%. These results showed that CFR and the level of small peptides affected gas production, nutrient degradation and ruminal fermentation parameters. In this research, the better CFRs were 50∶50 and 60∶40, and the optimal peptide levels were 1.50% and 2.25%.

Key words: small peptides, concentrate-forage ratios, yaks, in vitro fermentation