Dept. of Animal and Veterinary Sciences, Aarhus University, Denmark; SimHerd A/S, Denmark.
Växa Sverige, Uppsala, Sweden.
Animal. 2024 Feb;18(2):101051. doi: 10.1016/j.animal.2023.101051. Epub 2023 Dec 12.
Sustainable dairy and beef production provides environmental, economic, and social values that can potentially be maximized by optimizing herd management strategies. The length of a dairy cow's life is affected by, and affects, all three pillars of sustainability. Longevity in dairy cows is multifactorial and strongly dependent on herd management. Despite genetic improvements, the average time of culling for Swedish cows has barely changed and is currently at 2.6 lactations. This culling rate requires a high number of replacement heifers, generating high rearing costs for farmers. This study evaluated different herd management strategies to improve cow longevity and assessed the effects on enteric methane (CH) emissions from the herd and the profitability of milk production and beef production from the dairy cows and their offspring. The base scenario, an average Swedish Holstein herd of 100 cows, was compared with seven scenarios simulated using a stochastic herd simulation model (SimHerd). Two of these scenarios involved improved health and survival of cows in the herd, three involved improved reproduction, one considered the consequences of keeping all surplus heifers in the herd, and one considered maximizing the use of X-sorted dairy semen and inseminating the rest of the herd with unsorted beef semen, to avoid surplus replacement heifers. Improved fertility had the greatest effect in increasing the productive life per cow, to 3.8 years compared with 2.8 in the base scenario, allowed for more use of beef semen, reduced the number of replacement heifers, and generated the highest herd profit (€98 per cow-year higher than base scenario). Keeping all surplus heifers instead of producing beef × dairy cross calves decreased the number of productive years by 0.8 and reduced profit by €22 per cow-year. The profit was highly associated with costs related to replacement heifers. The highest beef output (3 369 kg per year more than base scenario) was achieved by keeping all heifers and culling a high share of dairy cows, but this scenario also generated much higher enteric CH emissions (+1 257 kg per year). Improving health, survival, or fertility reduced enteric CH emissions by 90-255 kg per year, while total yearly beef production ranged from 59 kg less to 556 kg more than in the base scenario. Reducing the number of replacement heifers needed by improving cow reproductive performance is thus key to increasing cow longevity and profitability, while reducing enteric CH emissions from the herd without compromising milk and meat production.
可持续的奶牛和肉牛生产提供了环境、经济和社会价值,通过优化畜群管理策略,这些价值有可能实现最大化。奶牛的寿命受到三个可持续性支柱的影响,同时也影响着这三个支柱。奶牛的长寿是多因素的,并且强烈依赖于畜群管理。尽管遗传得到了改善,但瑞典奶牛的平均淘汰时间几乎没有变化,目前为 2.6 个泌乳期。这种淘汰率需要大量的后备牛,这给农民带来了高昂的饲养成本。本研究评估了不同的畜群管理策略,以提高奶牛的寿命,并评估了对畜群肠道甲烷 (CH) 排放和牛奶生产以及奶牛及其后代牛肉生产的盈利能力的影响。基础方案是一个 100 头荷斯坦奶牛的平均瑞典牛群,与使用随机牛群模拟模型 (SimHerd) 模拟的七个方案进行了比较。其中两个方案涉及提高牛群中奶牛的健康和存活率,三个方案涉及提高繁殖力,一个方案考虑了将所有多余后备牛留在牛群中的后果,一个方案考虑了最大限度地利用 X 型奶用精液,并使用未分类的牛肉精液对其余牛群进行配种,以避免多余的后备牛。与基础方案中 2.8 年相比,提高繁殖力对增加每头奶牛的生产寿命有最大的影响,可增加 3.8 年的使用牛肉精液的机会,减少后备牛的数量,并产生最高的牛群利润(比基础方案高出 98 欧元/头年)。保留所有多余的后备牛而不是生产奶牛×肉牛杂交牛犊,会使生产年限减少 0.8 年,每头奶牛的利润减少 22 欧元。利润与后备牛相关的成本高度相关。通过保留所有后备牛并淘汰大量奶牛,可以获得最高的牛肉产量(比基础方案多 369 公斤/年),但这种方案也会产生更高的肠道 CH 排放量(每年增加 1257 公斤)。通过提高健康、生存或繁殖能力,每年可减少 90-255 公斤的肠道 CH 排放量,而每年的总牛肉产量比基础方案减少 59 公斤到增加 556 公斤不等。通过提高奶牛繁殖性能减少所需的后备牛数量,是提高奶牛寿命和盈利能力的关键,同时减少畜群的肠道 CH 排放,而不影响牛奶和肉类生产。
