Effects of supplementing rumen-protected arginine on performance of transition cows.

IF 3.7 1区农林科学 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE

Journal of Dairy Science Pub Date : 2024-10-04 DOI:10.3168/jds.2024-25562

B Souza Simões, M Nehme Marinho, R R Lobo, T M Adeoti, M C Perdomo, L Sekito, F T Saputra, U Arshad, A Husnain, R Malhotra, A Fraz, Y Sugimoto, C D Nelson, J E P Santos

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Abstract

An experiment was conducted to determine the effects of supplementing rumen-protected arginine (RPA) on productive performance in dairy cows. One-hundred and 2 cows were blocked by parity and then by energy-corrected milk (ECM) yield. Within block, cows were randomly assigned to control (CON) that received 200 g/d of a mixture of hydrogenated soybean oil and heat-treated soybean meal to supply 30 g of metabolizable protein (MP), or 200 g/d of a product containing 30 g of metabolizable arginine (RPA), which increased the dietary arginine from 5.7 to 7.5% of the MP from 250 d of gestation to 21 d postpartum. After 21 d postpartum, cows were fed the same diet and data were collected until 84 d postpartum. Cows fed RPA produced an additional 2.5 kg of colostrum (5.3 vs. 7.8 ± 1.0 kg) and 220 g more immunoglobulin G (526 vs. 746 ± 93 g) than CON cows. Supplementing RPA increased the yields of milk (32.8 vs. 34.9 ± 1.0 kg/d), ECM (37.8 vs. 40.9 ± 1.2 kg/d), and milk total solids (4.48 vs. 4.86 ± 0.14 kg/d) in the first 21 DIM. The benefits of RPA extended beyond the period of supplementation, with a 6.4% increase in yield of ECM per kg of dry matter consumed in all cows (1.88 vs. 2.00 ± 0.05 kg/kg) and an increase in ECM yield, but only in parous cows (44.2 vs. 48.5 ± 1.5 kg/d). Feeding RPA increased the concentrations of urea N in plasma pre- (12.5 vs. 13.9 ± 0.4 mg/dL) and postpartum (11.6 vs. 13.2 ± 0.4 mg/dL), and in milk during the first 21 d postpartum (11.0 vs. 12.0 ± 0.3 mg/dL). Treatment did not affect the concentrations of AA in plasma prepartum, but feeding RPA tended to increase citrulline (72.5 vs. 77.5 ± 2.7 μM), whereas RPA either tended to decrease isoleucine (129.5 vs. 120.9 ± 5.7 μM) or decreased the concentrations of leucine (181.3 vs. 170.2 ± 6.4 μM) and valine (293.2 vs. 276.7 ± 10.4 μM) postpartum. Feeding RPA increased the relative expression of transcripts involved in AA transport (SLC38A4), urea cycle (ARG1), and gluconeogenesis (PC, PEPCK, and G6PC) in hepatic tissue. Feeding diets to supply additional arginine as RPA during the transition period benefited productive performance in dairy cows that extended beyond the period of supplementation despite minor changes in plasma AA concentrations.

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补充瘤胃保护精氨酸对过渡期奶牛生产性能的影响。

我们进行了一项实验，以确定补充瘤胃保护精氨酸 (RPA) 对奶牛生产性能的影响。根据奶牛的奇偶性和能量校正奶（ECM）产量，对 1002 头奶牛进行分群。在区块内，奶牛被随机分配到对照组（CON），每天摄入 200 克氢化大豆油和热处理大豆粉的混合物，以提供 30 克可代谢蛋白质（MP）；或每天摄入 200 克含 30 克可代谢精氨酸（RPA）的产品，从妊娠 250 d 到产后 21 d，日粮中精氨酸占 MP 的比例从 5.7% 提高到 7.5%。产后 21 d 后，奶牛饲喂相同的日粮，并收集数据直至产后 84 d。饲喂RPA的奶牛比饲喂CON的奶牛多产2.5千克初乳（5.3 vs. 7.8 ± 1.0千克），多产220克免疫球蛋白G（526 vs. 746 ± 93克）。在头 21 个月内，补充 RPA 增加了牛奶产量（32.8 vs. 34.9 ± 1.0 kg/d）、ECM（37.8 vs. 40.9 ± 1.2 kg/d）和牛奶总固体（4.48 vs. 4.86 ± 0.14 kg/d）。RPA 的益处超过了补充期，所有奶牛每公斤干物质的 ECM 产量增加了 6.4%（1.88 vs. 2.00 ± 0.05 kg/kg），ECM 产量也有所增加，但仅限于准母牛（44.2 vs. 48.5 ± 1.5 kg/d）。饲喂 RPA 会增加产前（12.5 vs. 13.9 ± 0.4 mg/dL）和产后（11.6 vs. 13.2 ± 0.4 mg/dL）血浆中的尿素氮浓度，以及产后 21 天内牛奶中的尿素氮浓度（11.0 vs. 12.0 ± 0.3 mg/dL）。治疗不影响产前血浆中 AA 的浓度，但喂食 RPA 有增加瓜氨酸的趋势（72.5 vs. 77.5 ± 2.7 μM），而 RPA 有降低异亮氨酸的趋势（129.5 vs. 120.9 ± 5.7 μM），或降低产后亮氨酸（181.3 vs. 170.2 ± 6.4 μM）和缬氨酸（293.2 vs. 276.7 ± 10.4 μM）的浓度。饲喂 RPA 增加了肝组织中参与 AA 转运（SLC38A4）、尿素循环（ARG1）和葡萄糖生成（PC、PEPCK 和 G6PC）的转录本的相对表达量。尽管血浆 AA 浓度变化不大，但在过渡时期饲喂以 RPA 形式提供额外精氨酸的日粮，可使奶牛的生产性能在补充期后继续提高。

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来源期刊

Journal of Dairy Science 农林科学-奶制品与动物科学

CiteScore

7.90

自引率

17.10%

发文量

784

审稿时长

4.2 months

期刊介绍： The official journal of the American Dairy Science Association®, Journal of Dairy Science® (JDS) is the leading peer-reviewed general dairy research journal in the world. JDS readers represent education, industry, and government agencies in more than 70 countries with interests in biochemistry, breeding, economics, engineering, environment, food science, genetics, microbiology, nutrition, pathology, physiology, processing, public health, quality assurance, and sanitation.