Nutrient use and methane emissions in growing beef fed different protein sources and a pasture-based diet

IF 2.7 2区农林科学 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE Journal of animal science Pub Date : 2025-01-17 DOI:10.1093/jas/skaf007

Christos Christodoulou, Kirsty E Kliem, Marc D Auffret, David J Humphries, Paul Kirton, Hassan Jalal, John R Newbold, Nicholas Davison, Laurence G Smith, Sokratis Stergiadis

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Abstract

This study investigated the effects of different protein sources on feed intake, nutrient, and energy utilization, growth performance, and enteric methane (CH4) emissions in growing beef cattle, also evaluated against a pasture-based diet. Thirty-two Holstein × Angus growing beef were allocated to four dietary treatments: a total mixed ration (TMR) including solvent-extracted soybean meal as the main protein source (SB; n = 8), TMR with local brewers' spent grains (BSG; n = 8), TMR with local field beans (BNS; n = 8), and a diet consisting solely of fresh-cut Italian ryegrass (GRA; n = 8). Every four weeks, animals were moved to digestibility stalls within respiration chambers to measure nutrient intakes, energy and nitrogen (N) utilization, and enteric CH4 emissions. Feed intake (Calan gates), nutrient intakes, and CH4 emissions (GreenFeed) were also measured when animals were group-housed. In respiratory chambers, enteric CH4 yield per kg of dry matter intake (DMI), per kg of organic matter intake (OMI), and per kg body weight were lower (P < 0.05) for GRA. Feces and urine energy outputs were higher (P = 0.007 and P < 0.001, respectively) for GRA steers than concentrate-fed steers. Urinary nitrogen output (UNO, P = 0.026), manure (feces+urine) nitrogen output (MNO, P = 0.034), UNO/nitrogen intake (P = 0.002), and MNO/nitrogen intake (P = 0.006) were higher for GRA. During group-housing periods, CH4 emissions, measured by GreenFeed, were similar to those measured in chambers. Similar CH4 yield between treatments, expressed per kg digestible DMI and digestible OMI, may indicate that the lower diet digestibility was likely the reason for the reduced enteric CH4 emissions in pasture-based diets. The higher energy output and nitrogen losses, and the reduced nitrogen utilization for steers fed the fresh-cut ryegrass diet indicate less efficient energy and nitrogen utilization, which can be considered environmentally undesirable. The lower growth rates in the pasture-based system should also be accounted for when this is adopted for reducing production costs.

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饲喂不同蛋白质来源和以牧场为基础的饮食的牛肉生长中的养分利用和甲烷排放

本研究调查了不同蛋白质来源对生长肉牛的饲料摄入量、养分和能量利用率、生长性能和肠道甲烷（CH4）排放量的影响，同时还对以牧草为基础的日粮进行了评估。32头荷斯坦×安格斯生长肉牛被分配到四种日粮处理中：包括溶剂萃取大豆粉作为主要蛋白质来源的全混合日粮（TMR）（SB；n = 8）、添加当地啤酒糟的全混合日粮（TMR）（BSG；n = 8）、添加当地大田豆类的全混合日粮（TMR）（BNS；n = 8）以及仅由新鲜切碎的意大利黑麦草组成的日粮（GRA；n = 8）。每隔四周，将动物转移到呼吸室中的消化间，以测量养分摄入量、能量和氮（N）利用率以及肠道甲烷（CH4）排放量。当动物分组饲养时，还测量了饲料摄入量（Calan gates）、营养摄入量和 CH4 排放量（GreenFeed）。在呼吸室中，GRA 每公斤干物质摄入量（DMI）、每公斤有机物质摄入量（OMI）和每公斤体重的肠道 CH4 产量均较低（P < 0.05）。与精饲牛相比，GRA 牛的粪便和尿液能量输出更高（分别为 P = 0.007 和 P < 0.001）。GRA 的尿氮输出量（UNO，P = 0.026）、粪便（粪便+尿液）氮输出量（MNO，P = 0.034）、UNO/氮摄入量（P = 0.002）和 MNO/氮摄入量（P = 0.006）更高。在分组饲养期间，用 GreenFeed 测得的 CH4 排放量与在室内测得的排放量相似。以每千克可消化 DMI 和可消化 OMI 表示，不同处理之间的 CH4 产量相似，这可能表明日粮消化率较低可能是牧草日粮减少肠道 CH4 排放的原因。饲喂鲜切黑麦草日粮的母牛能量输出和氮损失较高，氮利用率较低，这表明能量和氮的利用效率较低，对环境不利。在采用牧草日粮降低生产成本时，还应考虑到牧草日粮的生长率较低这一因素。

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来源期刊

Journal of animal science 农林科学-奶制品与动物科学

CiteScore

4.80

自引率

12.10%

发文量

1589

审稿时长

3 months

期刊介绍： The Journal of Animal Science (JAS) is the premier journal for animal science and serves as the leading source of new knowledge and perspective in this area. JAS publishes more than 500 fully reviewed research articles, invited reviews, technical notes, and letters to the editor each year. Articles published in JAS encompass a broad range of research topics in animal production and fundamental aspects of genetics, nutrition, physiology, and preparation and utilization of animal products. Articles typically report research with beef cattle, companion animals, goats, horses, pigs, and sheep; however, studies involving other farm animals, aquatic and wildlife species, and laboratory animal species that address fundamental questions related to livestock and companion animal biology will be considered for publication.