Detection of Biochar Carbon by Fluorescence and Near-Infrared-Based Chemometrics

IF 1.7 4区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS Aquatic Geochemistry Pub Date : 2019-02-14 DOI:10.1007/s10498-018-9347-9
Minori Uchimiya, Alan J. Franzluebbers, Zhongzhen Liu, Marshall C. Lamb, Ronald. B. Sorensen
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引用次数: 3

Abstract

Large-scale biochar field trials have been conducted worldwide to test for “carbon negative strategy” in the event of carbon credit and if other subsidies become enacted in the future. Once amended to the soil, biochar engages in complex organo-mineral interactions, fragmentation, transport, and other aging mechanisms exhibiting interactions with treatments including the irrigation and fertilizer application. As a result, quantitative tracing of biochar carbon relying on the routinely measured soil parameters, e.g., total/particulate organic carbon, poses a significant analytical uncertainty. This study utilized two biochar field trial sites to calibrate for the biochar carbon structure and quantity based on the infrared- and fluorescence-based chemometrics: (1) slow pyrolysis biochar pellets on kaolinitic Greenville fine sandy loam in Georgia and (2) fast pyrolysis biochar powder on Crider silt loam in Kentucky. Partial least squares-based calibration was constructed to predict the amount of solvent (toluene/methanol)-extractable fluorescence fingerprint (290/350?nm excitation and emission peak) attributed to biochar based on the comparison with the authentic standard. Near-infrared-based detection was sensitive to the C–H and C–C bands, as a function of biochar loading and the particulate organic carbon content (<?53 μm) of the bulk soil. Developed chemometrics could be used to validate tarry carbon structures intrinsic to biochar additives, as the impact of biochar additives on soil chemical properties (pH, electric conductivity, and dissolved organic carbon) becomes attenuated over time.

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基于荧光和近红外化学计量学的生物炭碳检测
大规模的生物炭田间试验已经在世界范围内进行,以测试“碳负战略”,以防碳信用和其他补贴在未来颁布。一旦添加到土壤中,生物炭参与复杂的有机-矿物相互作用、破碎、运输和其他老化机制,表现出与灌溉和施肥等处理的相互作用。因此,依靠常规测量的土壤参数(如总有机碳/颗粒有机碳)对生物炭碳进行定量追踪,在分析上存在很大的不确定性。基于红外和荧光化学计量学,本研究利用两个生物炭试验点对生物炭的碳结构和碳量进行了标定:(1)在乔治亚州高岭石Greenville细砂壤土上慢热解生物炭颗粒,(2)在肯塔基州Crider淤泥壤土上快速热解生物炭粉末。建立了基于偏最小二乘法的校准来预测溶剂(甲苯/甲醇)的量-可提取荧光指纹图谱(290/350?通过与真实标准的比较,得出了生物炭的Nm激发和发射峰。基于近红外的检测对C-H和C-C波段敏感,这是生物炭负载和颗粒有机碳含量(<?53 μm)的体积土。随着生物炭添加剂对土壤化学性质(pH值、电导率和溶解有机碳)的影响随着时间的推移而减弱,开发的化学计量学可用于验证生物炭添加剂固有的焦油碳结构。
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来源期刊
Aquatic Geochemistry
Aquatic Geochemistry 地学-地球化学与地球物理
CiteScore
4.30
自引率
0.00%
发文量
6
审稿时长
1 months
期刊介绍: We publish original studies relating to the geochemistry of natural waters and their interactions with rocks and minerals under near Earth-surface conditions. Coverage includes theoretical, experimental, and modeling papers dealing with this subject area, as well as papers presenting observations of natural systems that stress major processes. The journal also presents `letter''-type papers for rapid publication and a limited number of review-type papers on topics of particularly broad interest or current major controversy.
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