A review of the environmental behavior and effects of black carbon in soils and sediments

土壤水分 环境化学 环境科学 总有机碳 有机质 表土 沉积物 背景(考古学) 温室气体 土壤有机质 土壤肥力 污染 化学 土壤科学 生态学 地质学 海洋学 有机化学 古生物学 生物
作者
汪青 WANG Qing
出处
期刊:Acta Ecologica Sinica [Elsevier BV]
卷期号:32 (1): 293-310 被引量:3
标识
DOI:10.5846/stxb201011091604
摘要

土壤和沉积物是全球黑碳排放的主要归宿,土壤和沉积物中黑碳具有复杂的环境行为和环境效应。分析了黑碳的概念,指出应以环境意义为出发点去理解黑碳概念的丰富内涵;描述了黑碳形成过程及其对黑碳理化性质的影响,以及基于此的黑碳分类;总结了黑碳来源辨析的若干种常用方法;讨论了黑碳在土壤/沉积物与其他环境介质之间的迁移循环过程,以及在土壤和沉积物内部的迁移行为;探讨了土壤和沉积物中黑碳的降解行为与稳定性,及其与地-气碳氮温室气体通量、土壤稳定碳库的关系,以及在土壤碳循环模型中的作用;综述了土壤和沉积物中黑碳对有机物、重金属和营养盐的吸附行为及主要机制;提出了今后研究的主要方向,以供相关研究者参考。;Soils and sediments are major global sinks of black carbon (BC). BC in soils and sediments has complex environmental behaviors and effects. Because of its ability to resist decomposition, BC captures and sequesters carbon from the bio-atmospheric cycle, which, in the long term, reduces greenhouse gas emissions and thus mitigates the greenhouse effect. Meanwhile, resistant BC adds organic matter to soils, thus enhancing soil fertility. Because of its high adsorption capacity, BC adsorbs organic pollutants, heavy metals, and nutrients thus decreasing pollution risks and further enhancing soil fertility. Based on analysis of the concept of BC, it is concluded that BC should be studied in the context of its environmental effects. Variation in the formation of BC leads to its varied properties and classification. Several frequently used methods for identifying sources of BC are summarized. Δ14C and stratigraphic analysis can be used to identify BC sources (biomass, fossil fuel or rock); δ13C analysis can distinguish between C3 and C4 plant sources, and fresh water and ocean organisms; particle size analysis can identify local and exotic sources; while analysis of the ratio of polycyclic aromatic hydrocarbon (PAH) isomers, the ratio of BC to total organic carbon, the ratio of benzene polycarboxylic acids, and morphological properties can identify biomass and fossil fuel sources. Transfers of BC between soils/sediments and other pools as well as those within soil and sediment pools are discussed. Global BC reserves in pools and the fluxes between pools are estimated, and it is noted that dissolved BC eroded from soils and transferred by rivers is an important part of the BC global cycle. Decomposition and stability of BC in soils and sediments are discussed in relation to fluxes of greenhouse gases between the land surface and atmosphere, the stable carbon pool in soils, and carbon cycle models in soil. Especially, coupled mineralization between BC and native or added labile organic carbon in soil is introduced, and adsorption and related mechanisms of organic matter, heavy metal and nutrient retention by BC in soils and sediments are also summarized. Three adsorption mechanisms of PAHs by BC are described: adsorption on surfaces, capture in micropores, and occlusion inside the BC structure. Correlations between BC and PAH concentrations should not be simply explained as a result of adsorption, since environmental adsorption of PAHs by BC is affected by complex factors. Finally, some future directions in BC research are recommended. More fundamental surveys of BC concentrations and its distribution in different kinds of soils/sediments in different areas are needed. More studies should concentrate on key processes related to the stability of BC in soils/sediments such as coupled mineralization between BC and labile organic carbon, losses of particulate and dissolved soil BC, and transformations between BC and other forms of stable carbon in soil. More studies are also needed on BC's specific surface area, porosity, functional groups, and surface morphology, and their roles in the environmental behavior of BC, with a change from concentration measurements or correlation analysis to mechanistic analysis. More application studies should focus on the possibility of applying manufactured BC as part of agricultural management.

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