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无机沉淀对土壤有机质吸附疏水有机污染物的影响
Effect of Inorganic Ion Precipitation on Hydrophobic Organic Pollutant Adsorption by Non-extracted Soil Organic Matters

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文摘 土壤有机质对疏水性有机污染物的吸附解吸是影响其在土壤中迁移、转化和归趋的重要因素之一。老化是有机污染物和土壤等介质长时间相互作用的结果,它影响着污染物的生物有效性。已有的老化研究注重有机污染物被土壤等介质吸附隔离的机制,很少考虑土壤等吸附剂自身演化对有机污染物吸附的影响。本文通过无机沉淀处理方法来模拟自然环境过程吸附剂自身的演化对土壤有机质吸附能力的影响,从而证明吸附剂自身的变化也是影响老化效应的一个重要因素。结果表明,不同无机沉淀包裹和填充的碱提土样品比原始碱提土样品具有更小的吸附能力,同时无机沉淀处理后的样品的吸附性能随着无机沉淀离子浓度增加而降低。这可能是无机沉淀覆盖碱提土样品的内外表面积和填充碱提土样品的微孔所引起的,同时也可能是无机沉淀占据了吸附有机污染物的高能点位所致。
其他语种文摘 Hydrophobic organic pollutant adsorption by non-extracted soil organic matters was an important factors which affected the migration, transformation and fate of hydrophobic organic pollutants in soil. Aging was the results of organic pollutants interaction with soil for a long time, which influenced bioavailability of organic pollutant. Prior studies on aging of hydrophobic organic pollutants paid more attention to the mechanism of adsorption sequestration, but the variation of adsorbent themselves was rarely considered under natural condition. The research results show that alkali extract soil by different precipitate packaged and filled has smaller adsorption ability than original samples, and meanwhile the adsorption property decrease with increasing ion concentration of inorganic precipitate. The reason may be that the inner and outer surface areas of alkali extract soil are covered and the microspores are filled with inorganic precipitate; or the high energy sites to adsorb organic pollutant are occupied by inorganic precipitate.
来源 地球与环境 ,2016,44(5):572-580 【核心库】
DOI 10.14050/j.cnki.1672-9250.2016.05.013
关键词 疏水性有机污染物 ; 老化效应 ; 无机沉淀 ; 不可提取态有机质 ; 自然环境过程
地址

中国科学院地球化学研究所, 环境地球化学国家重点实验室, 贵阳, 550081

语种 中文
文献类型 研究性论文
ISSN 1672-9250
学科 农作物;环境污染及其防治
基金 国家自然科学基金项目
文献收藏号 CSCD:5814133

参考文献 共 32 共2页

1.  Wang C. The significant role of inorganic matters in preservation and stability of soil organic carbon in the Baoji and Luochuan loess/paleosol profiles, Central China. Catena,2013,109:186-194 被引 3    
2.  Lou L. The sorption of pentachlorophenol by aged sediment supplemented with black carbon produced from rice straw and fly ash. Bioresource Technology,2012,112:61-66 被引 6    
3.  Yang Y. Impact of soil organic matter on the distribution of polycyclic aromatic hydrocarbons(PAHs)in soils. Environmental Pollution,2010,158(6):2170-2174 被引 21    
4.  Pan B. Effect of physical forms of soil organic matter on phenanthrene sorption. Chemosphere,2007,68(7):1262-1269 被引 18    
5.  Cornelissen G. Extensive sorption of organic compounds to black carbon, coal, and kerogen in sediments and soils: Mechanisms and consequences for distribution, bioaccumulation, and biodegradation. Environmental Science & Technology,2005,39(18):6881-6895 被引 119    
6.  Luthy R G. Sequestration of hydrophobic organic contaminants by geosorbents. Environmental Science & Technology,1997,31(12):3341-3347 被引 73    
7.  Schwarzenbach R P. The challenge of micropollutants in aquatic systems. Science,2006,313(5790):1072-1077 被引 115    
8.  Louchart X. Aging effects on the availability of herbicides to runoff transfer. Environmental Science & technology,2007,41(4):1137-1144 被引 5    
9.  Chung N. Effect of soil properties on bioavailability and extractability of phenanthrene and atrazine sequestered in soil. Chemosphere,2002,48(1):109-115 被引 24    
10.  Alexander M. Aging, bioavailability, and overestimation of risk from environmental pollutants. Environmental Science & Technology,2000,34(20):4259-4265 被引 105    
11.  Lu X. Bioavailability and assimilation of sediment-associated benzo [a] pyrene by Ilyodrilus templetoni(oligochaeta). Environmental Toxicology and Chemistry,2004,23(1):57-64 被引 2    
12.  Lu X. Bioavailability of desorption-resistant phenanthrene to the oligochaete Ilyodrilus templetoni. Environmental Toxicology and Chemistry,2003,22(1):153-160 被引 3    
13.  Bouchard D. Sorption nonequilibrium during solute transport. Journal of contaminant hydrology,1988,2(3):209-223 被引 2    
14.  Steinberg S M. Persistence of 1, 2-dibromoethane in soils: Entrapment in intraparticle micropores. Environmental Science & Technology,1987,21(12):1201-1208 被引 24    
15.  Xing B. Competitive sorption between atrazine and other organic compounds in soils and model sorbents. Environmental Science & Technology,1996,30(8):2432-2440 被引 49    
16.  Lu Y. Demonstration of the "conditioning effect" in soil organic matter in support of a pore deformation mechanism for sorption hysteresis. Environmental Science & Technology,2002,36(21):4553-4561 被引 12    
17.  Kan A. Irreversible sorption of neutral hydrocarbons to sediments: Experimental observations and model predictions. Environmental Science & Technology,1998,32(7):892-902 被引 2    
18.  Gevao B. Bound pesticide residues in soils: A review. Environmental Pollution,2000,108(1):3-14 被引 72    
19.  Zhao Q. Effects of aging and freeze-thawing on extractability of pyrene in soil. Chemosphere,2009,76(4):447-452 被引 8    
20.  Song J. Black carbon and kerogen in soils and sediments. 1. Quantification and characterization. Environmental Science & Technology,2002,36(18):3960-3967 被引 19    
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