Application of C and N isotopes to the study of biochar biogeochemical behavior in soil: A review

IF 10.8 1区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Qianwei Feng , Bing Wang , Andrew R. Zimmerman , Pan Wu , Xinqing Lee , Miao Chen , Jian Zhang
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引用次数: 0

Abstract

Biochar, the solid product of biomass pyrolysis, has been widely used to mitigate global climate change by storing carbon (C) and regulating the transformation of nitrogen (N) in soil. While the effects of biochar on soil C and N cycles, such as mineralization and plant uptake, have been extensively reported, most studies of these types have employed measurement of the changes in total C and N in soil following biochar addition. However, this does not allow for the determination of the sources of C and N in soil that are utilized or transformed. Isotope technology has great potential in evaluating the effects of biochar on the biogeochemical behavior of soil C and N because it can distinguish added biochar C and N from native C and N and other sources of organic matter and determine the transformation or loss rate of each source. However, at present, most studies on this aspect are scattered and the conclusions are inconsistent. Therefore, a systematic review of studies using the C and N isotopes in biochar research is needed. In this paper, the advantages and disadvantages of the application of C and N isotopes to biochar research are summarized, and the findings of these studies as related to the effects of biochar on soil C and N cycles were reviewed, including biochar and native C persistence, CO2 and N2O emissions, and plant N uptake. Finally, some recommendations for future directions on C and N isotopes in the field of biochar research are made. This review could lay a theoretical foundation and encourage the application of C and N isotope technology to the field of biochar research.

Abstract Image

应用碳和氮同位素研究土壤中的生物炭生物地球化学行为:综述
生物炭是生物质热解的固体产物,通过储存碳(C)和调节土壤中氮(N)的转化,已被广泛用于减缓全球气候变化。虽然生物炭对土壤碳和氮循环(如矿化和植物吸收)的影响已被广泛报道,但大多数此类研究都采用了测量添加生物炭后土壤中总碳和总氮变化的方法。然而,这并不能确定土壤中被利用或转化的碳和氮的来源。同位素技术在评估生物炭对土壤 C 和 N 的生物地球化学行为的影响方面具有巨大潜力,因为它可以将添加的生物炭 C 和 N 与本地 C 和 N 以及其他来源的有机物质区分开来,并确定每个来源的转化或损失率。然而,目前这方面的研究大多比较零散,结论也不一致。因此,需要对生物炭研究中使用 C 和 N 同位素的研究进行系统综述。本文总结了在生物炭研究中应用 C 和 N 同位素的优缺点,并综述了这些研究中与生物炭对土壤 C 和 N 循环的影响有关的结论,包括生物炭和原生 C 的持久性、CO2 和 N2O 的排放以及植物对 N 的吸收。最后,就生物炭研究领域中 C 和 N 同位素的未来发展方向提出了一些建议。本综述可为生物炭研究领域应用 C 和 N 同位素技术奠定理论基础并起到鼓励作用。
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来源期刊
Earth-Science Reviews
Earth-Science Reviews 地学-地球科学综合
CiteScore
21.70
自引率
5.80%
发文量
294
审稿时长
15.1 weeks
期刊介绍: Covering a much wider field than the usual specialist journals, Earth Science Reviews publishes review articles dealing with all aspects of Earth Sciences, and is an important vehicle for allowing readers to see their particular interest related to the Earth Sciences as a whole.
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