Effects of dietary rumen undegradable protein:rumen degradable protein ratio on nitrogen metabolism in Hanwoo steers.

IF 2.5 2区农林科学 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE Animal Bioscience Pub Date : 2025-06-01 Epub Date: 2025-02-27 DOI:10.5713/ab.24.0592

Sang Yeob Kim, Rajaraman Bharanidharan, Seyun Im, Kyoung Hoon Kim, Joonpyo Oh, Hyun Jin Kim, Jaesung Lee, Kamburawala Kankanamge Tharindu Namal Ranaweera, Jin Woo Jeong, Jun Seok Oh, Sang Hyun Lee, Myunggi Baik

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Abstract

Objective: We investigated the effects of dietary rumen undegradable protein (RUP): rumen degradable protein (RDP) ratio on growth performance, nitrogen (N) metabolism, and rumen and blood parameters in Hanwoo (Korean cattle) steers.

Methods: Eight Hanwoo steers (average body weight, 393 kg) were allocated to two groups and fed with a high RUP:RDP ratio (46.9:53.1 based on crude protein) or a low RUP:RDP ratio (30.6:69.4) concentrate with iso-crude protein content in a 2×2 Latin square design in two successive periods.

Results: The high RUP:RDP group had higher (p<0.01) average daily gain, and lower (p<0.05) ruminal ammonia and plasma urea N concentrations than the low RUP:RDP group. The high RUP:RDP group had lower (p<0.05) urinary N excretion and urinary N per N intake and higher (p<0.1) tendency of retained N than the low RUP:RDP group. The high RUP:RDP group had higher (p<0.1) tendency of N utilization efficiency (retained N per N intake: 28.7% vs. 25.5%) than the low RUP:RDP group. The high RUP:RDP group had a lower (p<0.1) tendency of urinary N per total N excretion, but a higher tendency of fecal N per total N excretion.

Conclusion: A high ratio of dietary RUP:RDP may improve N utilization efficiency by reducing urinary N excretion, which may be beneficial for the environment through reducing atmospheric ammonia emissions.

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饲粮瘤胃不可降解蛋白与瘤胃可降解蛋白比例对汉宇阉牛氮代谢的影响。

研究目的我们研究了日粮中瘤胃不可降解蛋白质（RUP）:瘤胃可降解蛋白质（RDP）的比例对韩牛（韩国牛）生长性能、氮（N）代谢以及瘤胃和血液参数的影响：将 8 头 Hanwoo 牛（平均体重 393 千克）分成两组，以 2×2 拉丁正方形设计法连续饲喂两期等粗蛋白含量的高 RUP:RDP 比（46.9:53.1，基于粗蛋白）或低 RUP:RDP 比（30.6:69.4）精料：结果：RUP:RDP 比率高的饲养组动物的生长速度较快（p日粮中 RUP:RDP 的高比例可通过减少尿氮排泄来提高氮的利用率，从而通过减少大气中的氨排放对环境有益。

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