Methane production inventory between 1960–2020 in the Finnish dairy sector and the future mitigation scenarios

IF 1 4区农林科学 Q3 AGRICULTURE, MULTIDISCIPLINARY

Agricultural and Food Science Pub Date : 2022-04-28 DOI:10.23986/afsci.113752

P. Huhtanen, Aleksi Astaptsev, J. Nousiainen

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引用次数: 3

Abstract

Enteric methane (CH4) represents about half of the climatic footprint of milk production in Finland. Methane is generated from the surplus hydrogen produced during the anaerobic feed digestion process in the rumen. Methane intensity per liter of energy corrected milk (g CH4 kg-1 ECM) is a function of the number of cows, milk yield (MY), replacement rate (RR), and the diet composition. This study aimed to model and report the inventory of CH4 from milk production in Finland between 1960 and 2020. Furthermore, we report the potential future scenarios of CH4 mitigation strategies based on the further development in MY and feed efficiency with constant or changing BW of cows. The diet composition of cattle was formulated for 5-year periods according to feed consumption statistics (ProAgria 2021) and the current metabolizable energy (ME) requirements for dairy cattle (Luke 2021a). The CH4 production from cattle was simulated using the formulated diets with the Nordic dairy cow model Karoline. The future CH4 mitigation scenarios of increased MY and improved feed efficiency were simulated using Lypsikki® dairy farm model. During the inventory period, the number of cows (1000) decreased from 1150 to less than 258, and MY increased three-fold. The total milk and CH4 production peaked in 1965 being 3650 and 110 million kg per year and decreased to 2300 and 48 million kg per year in 2020, respectively. Consequently, decreased number of cows and increased MY reduced the total CH4 production by 56%. In addition, CH4 intensity improved by 36% during the inventory period. Of the future scenarios, increased MY and improved feed efficiency had a substantial potential to improve CH4 intensity. In both scenarios maintaining the current BW of cows resulted in higher mitigation potential. We conclude that selecting more efficient animals has a significant CH4 mitigation potential.

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芬兰乳制品部门1960-2020年甲烷产量清单及未来减排情景

在芬兰，肠道甲烷(CH4)约占牛奶生产的气候足迹的一半。甲烷是由瘤胃厌氧饲料消化过程中产生的剩余氢气产生的。每升能量修正奶的甲烷强度(g CH4 kg-1 ECM)是奶牛数量、产奶量、替代率和日粮组成的函数。本研究旨在模拟和报告1960年至2020年芬兰牛奶生产中甲烷的库存。此外，我们报告了在奶牛体重恒定或变化的情况下，基于代谢能和饲料效率的进一步发展，CH4缓解策略的潜在未来情景。根据饲料消费统计(ProAgria 2021)和奶牛当前代谢能(ME)需求(Luke 2021a)，制定5年期牛日粮组成。采用北欧奶牛Karoline模型，模拟了配制饲粮中奶牛CH4的产生量。采用Lypsikki®奶牛场模型，模拟了提高代谢能和提高饲料效率的未来CH4缓解情景。在盘存期间，奶牛数量(1000头)从1150头减少到不足258头，MY增加了3倍。牛奶和甲烷总产量在1965年达到峰值，分别为3650万和1.1亿公斤/年，到2020年分别下降到2300万和4800万公斤/年。因此，减少奶牛数量和增加代谢能可使总CH4产量降低56%。此外，CH4强度在清查期内提高了36%。在未来的情景中，提高代谢能和提高饲料效率对提高CH4强度具有很大的潜力。在这两种情况下，维持奶牛目前的体重会产生更高的缓解潜力。我们的结论是，选择效率更高的动物具有显著的CH4减缓潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Agricultural and Food Science 农林科学-农业综合

CiteScore

2.50

自引率

0.00%

发文量

审稿时长

>36 weeks

期刊介绍： Agricultural and Food Science (AFSci) publishes original research reports on agriculture and food research related to primary production and which have a northern dimension. The fields within the scope of the journal include agricultural economics, agricultural engineering, animal science, environmental science, horticulture, plant and soil science and primary production-related food science. Papers covering both basic and applied research are welcome. AFSci is published by the Scientific Agricultural Society of Finland. AFSci, former The Journal of the Scientific Agricultural Society of Finland, has been published regularly since 1928. Alongside the printed version, online publishing began in 2000. Since the year 2010 Agricultural and Food Science has only been available online as an Open Access journal, provided to the user free of charge. Full texts are available online from 1945 on.