globalchange  > 气候变化与战略
CSCD记录号: CSCD:5419781
论文题名:
生物质炭生物与非生物氧化特性研究进展
其他题名: Research progress in the biotic and abiotic oxidation of biochar
作者: 伍孟雄; 杨敏; 孙雪; 吴伟祥
刊名: 生态学报
ISSN: 1000-0933
出版年: 2015
卷: 35, 期:9, 页码:1589-1604
语种: 中文
中文关键词: 生物质炭 ; 土壤生态系统 ; 生物氧化 ; 非生物氧化
英文关键词: biochar ; soil ; biotic oxidation ; abiotic oxidation
WOS学科分类: BIOLOGY
WOS研究方向: Life Sciences & Biomedicine - Other Topics
中文摘要: 生物质炭是由植物生物质热解炭化产生的一类高度芳香化难熔性固态物质。生物质热解炭化还田能否成为人类应对全球气候变化的重要途径直接取决于其在土壤生态系统中的稳定性。生物质炭稳定性的研究对科学计算和评估土壤生态系统生物质炭输入的碳固持与减排作用具有重要现实意义。重点概述了土壤生态系统生物质炭生物与非生物氧化特性、影响因素及其机理研究进展,并对生物质炭在土壤环境中的稳定性预测模型研究进行了分析。在此基础上,今后需针对不同类型旱地土壤生态系统和不同类型稻田土壤生态系统生物质炭稳定性及其机理开展研究,并进一步开展土壤生态系统生物质炭稳定性预测模型研究。
英文摘要: Biomass-derived black carbon, also cited as biochar, refers to the highly aromatic infused solid material produced by plant biomass pyrolysis and carbonization under oxygen-limited conditions. Biochar represents a large portion of the global carbon that may have served as a carbon sink over geological time scales. However, whether biochar can become one of the important materials for human being to tackle with future climate change is mainly depended on its biological and chemical stability in soil ecosystem. Therefore,it is of great importance to clarify the biotic and abiotic stability of biochar in soil ecosystem so that the role biochar may have played in past climate change or how it can be used to mitigate future climate change could be better understood. Results of the studies will be essential for scientific assessment and valuation of biochar's role in carbon sequestration and emission mitigation in soil ecosystem. Although biochar has generally been regarded as biologically and chemically recalcitrant, many studies have shown its oxidation in the environment. In this review, biotic and abiotic oxidation characteristics of biochar in soil ecosystem have been summarized. Abiotic oxidation of biochar, which has been observed to form O-containing functional groups on the surface, mainly occurs by chemical oxidation, photo-oxidation and inorganic cracking. In contrast, biotic oxidation of biochar takes place through two processes, namely that microbes utilized biochar directly as a carbon source or indirectly through co-metabolism. In addition, effects of biochar properties and environmental conditions on the biochar stability have also been discussed. Raw materials,pyrolysis processes and pyrolysis conditions,which control the physiochemical characteristics of biochar,play a significant role in its stability. On the other hand, while incorporating into soil, it has been discovered that stability of biochar could be significantly influenced by soil conditions, such as soil pH, water regimes and soil aggregate etc. Recent studies also indicated that climate conditions might have great impacts on the biochar stability. Therefore,attention needs to be paid about the combined influences of climate and soil conditions on the biotic and abiotic stability of biochar in the future. Up to now, modeling is the best method in predicting long-term stability of biochar. Recent studies have shown that degradation model of biochar could be established based on its easily obtainable characteristics. Characteristics of biochar, such as volatile matter,0: C molar ratio,the initial proportion of nonaromatic C,degree of aromatic C condensation and a new recalcitrance index, the R_(50), which all reveal physiochemical structure differences between biochars, could be considered as appropriate screening tools for the stability of biochar. On the other hand, in order to predict biochar decomposition in soil ecosystem,experimentally based degradation rate models,such as the first order dynamic model and double-exponential model,are commonly utilized. Nevertheless,some disadvantages of the models have been found due to short-term experiment and take few soil properties into account. Therefore, long-term field experiments must be conducted in order to develop a more accurate scientific model for predicting the biochar stability in soil ecosystem. Meanwhile, simulation experiment with different types of soil and crop plantation patterns are urgently needed to precisely model the long-term stability of biochar in various agricultural ecosystems.
资源类型: 期刊论文
标识符: http://119.78.100.158/handle/2HF3EXSE/149796
Appears in Collections:气候变化与战略

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作者单位: 浙江大学环境与资源学院环境保护研究所, 杭州, 浙江 310058, 中国

Recommended Citation:
伍孟雄,杨敏,孙雪,等. 生物质炭生物与非生物氧化特性研究进展[J]. 生态学报,2015-01-01,35(9):1589-1604
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