Potential for biochar carbon sequestration from crop residues: A global spatially explicit assessment

IF 5.9 3区 工程技术 Q1 AGRONOMY
Shivesh Kishore Karan, Dominic Woolf, Elias Sebastian Azzi, Cecilia Sundberg, Stephen A. Wood
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引用次数: 0

Abstract

Global warming necessitates urgent action to reduce carbon dioxide (CO2) emissions and remove CO2 from the atmosphere. Biochar, a type of carbonized biomass which can be produced from crop residues (CRs), offers a promising solution for carbon dioxide removal (CDR) when it is used to sequester photosynthetically fixed carbon that would otherwise have been returned to atmospheric CO2 through respiration or combustion. However, high‐resolution spatially explicit maps of CR resources and their capacity for climate change mitigation through biochar production are currently lacking, with previous global studies relying on coarse (mostly country scale) aggregated statistics. By developing a comprehensive high spatial resolution global dataset of CR production, we show that, globally, CRs generate around 2.4 Pg C annually. If 100% of these residues were utilized, the maximum theoretical technical potential for biochar production from CRs amounts to 1.0 Pg C year−1 (3.7 Pg CO2e year−1). The permanence of biochar differs across regions, with the fraction of initial carbon that remains after 100 years ranging from 60% in warm climates to nearly 100% in cryosols. Assuming that biochar is sequestered in soils close to point of production, approximately 0.72 Pg C year−1 (2.6 Pg CO2e year−1) of the technical potential would remain sequestered after 100 years. However, when considering limitations on sustainable residue harvesting and competing livestock usage, the global biochar production potential decreases to 0.51 Pg C year−1 (1.9 Pg CO2e year−1), with 0.36 Pg C year−1 (1.3 Pg CO2e year−1) remaining sequestered after a century. Twelve countries have the technical potential to sequester over one fifth of their current emissions as biochar from CRs, with Bhutan (68%) and India (53%) having the largest ratios. The high‐resolution maps of CR production and biochar sequestration potential provided here will provide valuable insights and support decision‐making related to biochar production and investment in biochar production capacity.

Abstract Image

作物残茬生物炭固碳潜力:全球空间明确评估
全球变暖需要采取紧急行动,减少二氧化碳(CO2)排放并从大气中清除二氧化碳。生物炭是一种可以从作物残茬(CRs)中产生的碳化生物质,它为二氧化碳去除(CDR)提供了一个很有前途的解决方案,当它被用来隔离光合作用固定的碳时,这些碳本来会通过呼吸或燃烧返回到大气中的二氧化碳中。然而,目前缺乏CR资源及其通过生物炭生产减缓气候变化能力的高分辨率空间明确地图,以前的全球研究依赖于粗略的(主要是国家规模的)汇总统计。通过开发一个全面的高空间分辨率全球CR生产数据集,我们发现,全球CR每年产生约2.4 Pg C。如果100%利用这些残留物,从CRs生产生物炭的最大理论技术潜力为每年1.0 Pg C(每年3.7 Pg CO2e)。生物炭的持久性因地区而异,100年后保留的初始碳比例从温暖气候下的60%到冰冻气候下的近100%不等。假设生物炭被封存在靠近生产点的土壤中,大约0.72 Pg C - 1年(2.6 Pg CO2e - 1年)的技术潜力在100年后仍将被封存。然而,当考虑到对可持续残留物收获和竞争性牲畜利用的限制时,全球生物炭生产潜力下降到0.51 Pg C /年(1.9 Pg CO2e /年),一个世纪后剩余0.36 Pg C /年(1.3 Pg CO2e /年)。12个国家有技术潜力将其目前排放量的五分之一以上作为生物炭从cr中分离出来,其中不丹(68%)和印度(53%)的比例最大。这里提供的CR生产和生物炭封存潜力的高分辨率地图将提供有价值的见解,并支持与生物炭生产和生物炭生产能力投资相关的决策。
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来源期刊
Global Change Biology Bioenergy
Global Change Biology Bioenergy AGRONOMY-ENERGY & FUELS
CiteScore
10.30
自引率
7.10%
发文量
96
审稿时长
1.5 months
期刊介绍: GCB Bioenergy is an international journal publishing original research papers, review articles and commentaries that promote understanding of the interface between biological and environmental sciences and the production of fuels directly from plants, algae and waste. The scope of the journal extends to areas outside of biology to policy forum, socioeconomic analyses, technoeconomic analyses and systems analysis. Papers do not need a global change component for consideration for publication, it is viewed as implicit that most bioenergy will be beneficial in avoiding at least a part of the fossil fuel energy that would otherwise be used. Key areas covered by the journal: Bioenergy feedstock and bio-oil production: energy crops and algae their management,, genomics, genetic improvements, planting, harvesting, storage, transportation, integrated logistics, production modeling, composition and its modification, pests, diseases and weeds of feedstocks. Manuscripts concerning alternative energy based on biological mimicry are also encouraged (e.g. artificial photosynthesis). Biological Residues/Co-products: from agricultural production, forestry and plantations (stover, sugar, bio-plastics, etc.), algae processing industries, and municipal sources (MSW). Bioenergy and the Environment: ecosystem services, carbon mitigation, land use change, life cycle assessment, energy and greenhouse gas balances, water use, water quality, assessment of sustainability, and biodiversity issues. Bioenergy Socioeconomics: examining the economic viability or social acceptability of crops, crops systems and their processing, including genetically modified organisms [GMOs], health impacts of bioenergy systems. Bioenergy Policy: legislative developments affecting biofuels and bioenergy. Bioenergy Systems Analysis: examining biological developments in a whole systems context.
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