红海藻Mazzaella japonica作为肉牛饲料添加剂的评价

IF 2.1 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE Frontiers in animal science Pub Date : 2023-06-20 DOI:10.3389/fanim.2023.1181768
S. Terry, T. Coates, R. Gruninger, D. W. Abbott, K. Beauchemin
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引用次数: 1

摘要

用大型藻类补充反刍动物日粮正引起全球的兴趣,因为含溴化物的海藻(如芦笋属)已被证明是高效的肠道甲烷(CH4)抑制剂。一些替代海藻在体外减少了CH4的产生,但很少有在动物身上进行评估。本研究考察了在肉牛日粮中加入红海藻Mazzaella japonica对干物质摄入量(DMI)、瘤胃发酵、消化率、氮利用率和肠道CH4生产的影响。6头瘤胃插管的成熟小母牛(824±47.1kg)被用在一个3×3的双拉丁正方形中,周期为35-d。基础日粮包括52%的大麦青贮饲料、44%的大麦秸秆和4%的维生素和矿物质补充剂[干物质(DM)基础]。处理为(DM基础):0%(对照)、1%和2%日本血吸虫。随着M.japonica的加入,DMI呈二次增加(P=0.025),因此消耗1%的小母牛的DMI比对照小母牛的大(P<0.05)。DM的表观总消化率随着M.japonica的加入而线性下降(P=0.002),但对有机物、粗蛋白、中性洗涤纤维或淀粉的消化率没有处理差异。粳稻水平线性地增加了小母牛的氮摄入量(P<0.001)。粪氮排泄量随日本血吸虫呈线性增加(P=0.020),但尿总氮排泄量、氮组分(尿囊素、尿酸)、总嘌呤衍生物、吸收的微生物嘌呤衍生物、微生物氮流量或滞留氮无差异。对瘤胃pH或总挥发性脂肪酸(VFAs)无处理影响;然而,在日粮中二次添加M.japonica(P=0.023)降低了乙酸盐的比例,而1%的包合物降低了乙酸酯的比例。甲烷产量(g/天)呈二次下降(P=0.037),因此接受2%日本血吸虫的小母牛产生的CH4比对照动物少9.2%;CH4产量(g/kg DMI)在不同处理之间没有差异。我们得出的结论是,在以饲料为基础的日粮中添加高达2%的日本血吸虫并不能降低小母牛的肠道CH4产量。M.japonica可用于日粮中,以帮助满足牛对CP的需求,但高无机物比例可能会限制其包含率。当含有高达2%的日粮时,不能推荐将M.japonica作为饲喂高饲料日粮的肉牛的CH4抑制剂。
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Evaluation of the red seaweed Mazzaella japonica as a feed additive for beef cattle
Supplementing ruminant diets with macroalgae is gaining interest globally because bromoform-containing seaweeds (e.g., Asparagopsis spp.) have been shown to be highly effective enteric methane (CH4) inhibitors. Some alternative seaweeds decrease in vitro CH4 production, but few have been evaluated in animals. This study examined the effects of including the red seaweed Mazzaella japonica in the diet of beef cattle on dry matter intake (DMI), rumen fermentation, digestibility, nitrogen (N) utilization, and enteric CH4 production. Six ruminally cannulated, mature beef heifers (824 ± 47.1 kg) were used in a double 3 × 3 Latin square with 35-d periods. The basal diet consisted of 52% barley silage, 44% barley straw, and 4% vitamin and mineral supplement [dry matter (DM) basis]. The treatments were (DM basis): 0% (control), 1%, and 2% M. japonica. The DMI increased quadratically (P = 0.025) with the inclusion of M. japonica, such that the DMI of heifers consuming 1% was greater (P < 0.05) than that of control heifers. The apparent total-tract digestibility of DM decreased linearly (P = 0.002) with the inclusion of M. japonica, but there were no treatment differences in the digestibility of organic matter, crude protein (CP), neutral detergent fiber, or starch. The level of M. japonica linearly (P < 0.001) increased the N intake of the heifers. Fecal N excretion linearly increased (P = 0.020) with M. japonica, but there were no differences in total urinary N excretion, N fractions (allantoin, uric acid), total purine derivatives, microbial purine derivatives absorbed, microbial N flow, or retained N. There were no treatment effects on rumen pH or total volatile fatty acids (VFAs); however, adding M. japonica to the diet quadratically (P = 0.023) decreased the proportion of acetate, whereas 1% inclusion decreased the acetate proportion. Methane production (g/day) decreased quadratically (P = 0.037), such that the heifers receiving 2% M. japonica produced 9.2% less CH4 than control animals; however, CH4 yield (g/kg DMI) did not differ among treatments. We conclude that supplementing a forage-based diet with up to 2% M. japonica failed to lower the enteric CH4 yield of beef heifers. M. japonica can be used in diets to help meet the CP requirements of cattle, but inclusion rates may be limited by high inorganic matter proportions. When comprising up to 2% of the diet, M. japonica cannot be recommended as a CH4 inhibitor for beef cattle fed on high-forage diets.
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