养猪和养鸡业的全链集约化可降低排放,带来经济和粮食生产效益

IF 23.6 Q1 FOOD SCIENCE & TECHNOLOGY Nature food Pub Date : 2024-10-29 DOI:10.1038/s43016-024-01067-x
Luxi Cheng, Xiuming Zhang, Chen Wang, Ouping Deng, Baojing Gu
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摘要

强化单胃家畜管理可以节约饲料投入,减轻与畜牧生产相关的一些环境和气候挑战。在这项研究中,我们利用来自 166 个国家的数据,模拟了猪和鸡集约化对环境、气候和经济的影响。我们发现,全链集约化可使氮和温室气体年排放量分别减少 49% (4.6 千兆克)和 68%(554 千兆克二氧化碳当量)。这些变化可使饲料生产中的氮肥投入减少 5.0 千兆克,从而带来 930 亿美元的整体效益。集约化管理下的作物-牲畜综合优化可腾出 2,700 万公顷耕地,为 3.1 亿人提供额外的粮食。明智地促进集约化可以减轻与粮食安全、环境和气候变化有关的全球压力。
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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Whole-chain intensification of pig and chicken farming could lower emissions with economic and food production benefits
Intensified monogastric livestock management could conserve feed inputs and mitigate some of the environmental and climate challenges associated with animal production. In this study, we used data from 166 countries to model the environmental, climate and economic impacts of pig and chicken intensification. We found that whole-chain intensification could reduce annual nitrogen and greenhouse gas emissions by 49% (4.6 Tg) and 68% (554 Tg CO2-equivalent), respectively. These changes translate to 5.0 Tg lower nitrogen fertilizer input for feed production, resulting in an overall benefit of US$93 billion. Integrated crop–livestock optimization under intensive management could release 27 Mha of cropland and provide additional food for 310 million people. A judicious promotion of intensification could alleviate global pressures related to food security, environment and climate change. A scenario analysis demonstrates that integrated crop–livestock optimization combined with intensive monogastric livestock production could reduce greenhouse gas emissions and redirect cropland use from feed to food production.
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来源期刊
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Inequality in agricultural greenhouse gas emissions intensity has risen in rural China from 1993 to 2020 Monogastric intensification benefits for emission reductions and food security Whole-chain intensification of pig and chicken farming could lower emissions with economic and food production benefits Promising prospects of nanomaterials in crop safety Adaptive solutions for potassium limitation
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