Carbon footprint of global rice production and consumption

IF 9.7 1区 环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL Journal of Cleaner Production Pub Date : 2024-09-02 DOI:10.1016/j.jclepro.2024.143560
Ahmed I. Abdo , Mengzhen Tian , Zhaoji Shi , Daolin Sun , Mohamed K. Abdel-Fattah , Jiaen Zhang , Hui Wei , Mohamed A. Abdeen
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Abstract

Rice paddies are not only sources of staple food for half of the global population but also account for nearly half of the anthropogenic greenhouse gas emissions (GHGs) of croplands. Carbon footprint (CF) is a key tool for identifying and weighting sources of the GHGs along the food supply chain, promoting the efforts to curb these emissions within the targets of the climatic change protocol of the Paris Agreement. We introduced a comprehensive global quantification of rice CF, including direct and indirect emissions and sinks of the GHGs of inputs production, packaging, transportation, and application, soil and plant systems, farm operations, and uses of the produced biomass until the end of life. Globally, the rice CF was 2430 kg CO2eq. Mg−1 grain in 2020, of which 46% and 42% were sourced from the Gate and Grave stages, respectively, after excluding 3265 kg CO2eq. Mg−1 grain, that is the assimilated C in plant biomass. Net GHGs emissions of soil, biomass mulching and burning, and farm operations accounted for 20, 17, and 63%, respectively of the Gate stage CF. Meanwhile, food consumption contributed to the Grave stage CF by 92%. The rice CF ranged between 14 and 4854 kg CO2eq. Mg−1 grain among countries, wherein, for example, the rice CF values in Indonesia, India, Vietnam, and Russia represented 9, 50, 97, and 122% of the global average. Southeast, South, and East Asia were the major contributors (35, 34 and 18%, respectively) to the atmospheric CO2 load (2.4 Pg CO2eq.) of global rice production and consumption. This CO2 load will increase to 3.1 Pg CO2eq. in 2100, driven by a 32% growth in rice consumption. Here, we suggested an optimistic strategy (green energy use, hybridization, improving use efficiency of the inputs, and reducing food losses) to reduce the CO2 load by 60%.

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全球大米生产和消费的碳足迹
稻田不仅是全球一半人口的主食来源,也占耕地人为温室气体排放量(GHGs)的近一半。碳足迹(CF)是识别和权衡粮食供应链上温室气体来源的重要工具,有助于在《巴黎协定》气候变化议定书的目标范围内遏制这些排放。我们在全球范围内全面量化了大米 CF,包括投入品生产、包装、运输和应用、土壤和植物系统、农场运营以及所生产生物质的使用(直至生命周期结束)过程中温室气体的直接和间接排放及吸收汇。在全球范围内,2020 年水稻的二氧化碳当量为 2430 千克 CO2eq.Mg-1 谷物,其中 46% 和 42% 分别来自谷门和谷仓阶段,不包括 3265 千克 CO2eq.毫克-1 谷物中的同化碳。土壤、生物质覆盖和焚烧以及农场运营的温室气体净排放量分别占闸门阶段CF的20%、17%和63%。与此同时,食物消耗占坟墓阶段碳吸收总量的 92%。各国水稻的 CF 值介于 14 至 4854 千克 CO2eq.例如,印度尼西亚、印度、越南和俄罗斯的大米 CF 值分别为全球平均值的 9%、50%、97%和 122%。东南亚、南亚和东亚是全球大米生产和消费所产生的大气二氧化碳负荷(2.4 Pg CO2eq.)的主要贡献者(分别为 35%、34% 和 18%)。到 2100 年,这一二氧化碳负荷将增加到 3.1 Pg CO2eq.,大米消费量将增长 32%。在此,我们提出了一个乐观的战略(绿色能源利用、杂交、提高投入品的利用效率、减少粮食损失),以减少 60% 的二氧化碳负荷。
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来源期刊
Journal of Cleaner Production
Journal of Cleaner Production 环境科学-工程:环境
CiteScore
20.40
自引率
9.00%
发文量
4720
审稿时长
111 days
期刊介绍: The Journal of Cleaner Production is an international, transdisciplinary journal that addresses and discusses theoretical and practical Cleaner Production, Environmental, and Sustainability issues. It aims to help societies become more sustainable by focusing on the concept of 'Cleaner Production', which aims at preventing waste production and increasing efficiencies in energy, water, resources, and human capital use. The journal serves as a platform for corporations, governments, education institutions, regions, and societies to engage in discussions and research related to Cleaner Production, environmental, and sustainability practices.
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