土壤环境污染化学与化学修复研究最新进展

周启星

土壤环境污染化学与化学修复研究最新进展

周启星

1.
中国科学院沈阳应用生态研究所, 中国科学院陆地生态过程重点实验室, 沈阳, 110016;
2.
南开大学环境科学与工程学院, 天津, 370001
基金项目:
国家杰出青年科学基金资助项目(20225722)

NEW RESEARCHING PROGRESSES IN POLLUTION CHEMISTRY OF SOIL ENVIRONMENT AND CHEMICAL REMEDIATION

ZHOU Qi-xing

1.
Key Laboratory of Terrestrial Ecological Process, Institute of Applied Ecology, Chinese Academy of Sciences, Shenyang, 110016, China;
2.
College of Environmental Science and Engineering, Nankai University, Tianjin, 300071, China
Fund Project:

摘要: 概述了不同历史时期重点涉及的土壤污染物以及近年来出现的4大类新型污染物,论述了土壤环境中化学污染物的动态与归趋以及相关科学问题及今后的研究重点,介绍了在评价土壤环境中污染物(特别是有机污染物)生物有效性的方法体系方面取得的重要进展,分析了污染土壤化学修复各种方法的化学原理以及为降低成本而实施的工艺强化和技术创新方面的最新突破.
- 土壤环境化学 /
- 化学修复 /
- 生物有效性
Abstract: Chemical pollutants which were mainly involved in soil environment at various historical stages of research on soil-environmental chemistry and 4 varieties of new-type soil pollutants emerging in recent years were summarized.Dynamics and fate of chemical pollutants in soil environment and their relevant scientific problems concerned and focal points of future research were expounded.Some important advances in methodological systems to evaluate bioavailability of pollutants(particularly organic pollutants) in soil environment were presented.Chemical principles of contaminated soil remediation techniques and their technical intensification aimed at cost reduction and new breakthrough in the technological innovation were assayed.
- soil-environmental chemistry /
- chemical remediation /
- bioavailability

[1]

叶常明,王春霞,金龙珠,21世纪的环境化学.北京:科学出版社,2004
[2] Naylor R,Steinfeld H,Falcon W et al.,Agriculture:Losing the Links between Livestock and Land.Science,2005,310:1621-1622
[3] Bent A,Reconnecting Farms and Ecosystems--If It Pays.Science,2002,298:1340-1341
[4] 唐永銮,刘育民,环境学导论.北京:高等教育出版社,1987,178-180
[5] 何增耀,叶兆杰,吴方正等,农业环境科学概论.上海:上海科学技术出版社,1991
[6] 周启星,孔繁翔,朱琳,生态毒理学.北京:科学出版社,2004
[7] Pizzigallo M D R,Napola A,Spagnuolo M et al.,Mechanochemical Removal of Organo-Chlorinated Compounds by Inorganic Components of Soil.Chemosphere,2004,55(11):1485-1492
[8] Barceló D,Petrovic M,Seeking Solutions to Problems Caused by MTBE Contamination.TrAC Trends in Analytical Chemistry,2005,24(4):275-277
[9] Grimalt J O,Van Drooge B L,Ribes A et al.,Polycyclic Aromatic Hydrocarbon Composition in Soils and Sediments of High Altitude Lakes.Environmental Pollution,2004,131(1):13-24
[10] Tsai W T,An Overview of Environmental Hazards and Exposure Risk of Hydrofluorocarbons (HFCs).Chemosphere,2005,61(11):1539-1547
[11] Lee W,Batchelor B,Abiotic Reductive Dechlorination of Chlorinated Ethylenes by Soil.Chemosphere,2004,55(5):705-713
[12] Lewis T A,Newcombe D A,Crawford R L,Bioremediation of Soils Contaminated with Explosives.Journal of Environmental Management,2004,70(4):291-307
[13] Camean A,Moreno I,Verdejo T et al.,Pyrolytic Behaviour of Microcystins and Microcystin-Spiked Algal Blooms.Journal of Analytical and Applied Pyrolysis,2005,74(1-2):19-25
[14] Hendrickx B,Junca H,Vosahlova J et al.,Alternative Primer Sets for PCR Detection of Genotypes Involved in Bacterial Aerobic BTEX Degradation:Distribution of the Genes in BTEX Degrading Isolates and in Subsurface Soils of a BTEX Contaminated Industrial Site.Journal of Microbiological Methods,2006,64(2):250-265
[15] Kong W D,Zhu Y G,Fu B J et al.,The Veterinary Antibiotic Oxytetracycline and Cu Influence Functional Diversity of the Soil Microbial Community.Environmental Pollution,In Press,Corrected Proof,Available online 18 January 2006
[16] Vaclavik E,Halling-Sorensen B,Ingerslev F,Evaluation of Manometric Respiration Tests to Assess the Effects of Veterinary Antibiotics in Soil.Chemosphere,2004,56(7):667-676
[17] Darnerud P O,Eriksen G S,Polybrominated Diphenyl Ethers:Occurrence,Dietary Exposure,and Toxicology.Environ.Health Persp.,2001,109:49-68
[18] Kalantzi O I,Martin F L,Different Levels of Polybrominated Diphenyl Ethers (PBDEs) and Chlorinated Compounds in Breast Milk from Two U.K.Regions.Environ.Health Persp.,2004,112(10):1085-1091
[19] 孙福红,周启星,多溴二苯醚的环境暴露与生态毒理研究进展.应用生态学报,2005,16(2):379-384
[20] Sj(o)din A,Jones R S,Focant J F et al.,Retrospective Time-Trend Study of Polybrominated Diphenyl Ether and Polybrominated and Polychlorinated Biphenyl Levels in Human Serum from the United States.Environ Health Perspect.,2004,112(6):654-658
[21] Fuentes S,Colomina M T,Rodriguez J et al.,Interactions in Developmental Toxicology:Concurrent Exposure to Perfluorooctane Sulfonate (PFOS) and Stress in Pregnant Mice.Toxicology Letters,In Press,Corrected Proof,Available online 27 December 2005
[22] Caschili S,Delogu F,Concas A et al.,Mechanically Induced Self-Propagating Reactions:Analysis of Reactive Substrates and Degradation of Aromatic Sulfonic Pollutants.Chemosphere,in Press,Corrected Proof,Available Online 28 November 2005
[23] Bacsi A,Dharajiya N,Choudhury B K et al.,Effect of Pollen-Mediated Oxidative Stress on Immediate Hypersensitivity Reactions and Late-Phase Inflammation in Allergic Conjunctivitis.Journal of Allergy and Clinical Immunology,2005,116(4):836-843
[24] 孙铁珩,周启星,李培军,污染生态学.北京:科学出版社,2001
[25] Boivin A,Amellal S,Schiavon M et al.,2,4-Dichlorophenoxyacetic Acid (2,4-D) Sorption and Degradation Dynamics in Three Agricultural Soils.Environmental Pollution,2005,138(1):92-99
[26] Alvarez-Puebla R A,Valenzuela-Calahorro C,Garrido J J,Modeling the Adsorption and Precipitation Processes of Cu(II) on Humin.Journal of Colloid and Interface Science,2004,277(1):55-61
[27] Clemente R,Escolar,Bernal M P,Heavy Metals Fractionation and Organic Matter Mineralisation in Contaminated Calcareous Soil Amended with Organic Materials.Bioresource Technology,In Press,Corrected Proof,Available online 11 October 2005
[28] Reid B J,Jones K C,Semple K T,Bioavailability of Persistent Organic Pollutants in Soils and Sediments--A Perspective on Mechanisms,Consequences and Assessment.Environmental Pollution,2000,108(1):103-112
[29] Mustafa G,Kookana R S,Singh B,Desorption of Cadmium from Goethite:Effects of pH,Temperature and Aging.Chemosphere,In Press,Corrected Proof,Available online 5 December 2005
[30] Tessier A,Campbell P G C,Bisson M,Sequential Extraction Procedure for the Speciation of Particulate Trace Metals.Analytical Chemistry,1979,51(7):844-851
[31] 郭观林,周启星,污染黑土中重金属的形态分布与生物活性研究.环境化学,2005,24(4):383-388
[32] Ehlers G A C,Loibner,Linking Organic Pollutant (Bio)Availiability with Geosorbent Properties and Biomimetic Methodology:A Review of Geosorbent Characterisation and (Bio)Availability Prediction.Environmental Pollution,in Press,Corrected Proof,Available online 19 October 2005
[33] Kelsey J W,Kottler B D,Alexander M,Selective Chemical Extract to Predict Bioavailability of Soil-Aged Organic Chemicals.Environmental Science and Technology,1997,31:214-217
[34] US EPA,Framework for Ecological Risk Assessment,EPA/630/R92/001:Risk Assessment Forum,US Environmental Protection Agency,Washington,DC,1992
[35] Erickson D C,Loehr R C,Neuhauser E F,PAH Loss During Bioremediation of Manufactured Gas Plant Soils.Water Research,1993,27:911-919
[36] Tang J,Carroquino M J,Robertson B K et al.,Combined Effect of Sequestration and Bioremediation in Reducing the Bioavailability of Polycyclic Aromatic Hydrocarbons in Soil.Environmental Science and Technology,1998,32:2711-2714
[37] Morrison D E,Robertson B K,Alexander M,Bioavailability to Earthworms of Aged DDT,DDE,DDD,and Dieldrin in Soil.Environmental Science and Technology,2000,34:709-713
[38] Kelsey J W,Alexander M,Declining Bioavailability and Inappropriate Estimation of Risk of Persistent Compounds.Environmental Toxicology and Chemistry,1997,16:582-585
[39] Robertson B K,Alexander M,Sequestration of DDT and Dieldrin in Soil:Disappearance of Acute Toxicity but not the Compounds.Environmental Science and Technology,1998,32:1034-1038
[40] Reid B J,Jones K C,Semple K T,Bioavailability of Persistent Organic Pollutants in Soils and Sediments a Perspective on Mechanisms,Consequences and Assessment.Environmental Pollution,2000,108:103-112
[41] Tang J,Roberston K B,Alexander M,Chemical-Extraction Methods to Estimate Bioavailability of DDT,DDE and DDD in Soil.Environmental Science and Technology,1999,33:4346-4351
[42] Tang J,Alexander M,Mild Extractability and Bioavailability of Polycyclic Aromatic Hydrocarbons in Soil.Environmental Toxicology and Chemistry,1999,18:2711-2714
[43] Wahle H,Kǒrdel W,Development of Analytical Methods for the Assessment of Ecotoxicological Relevant Soil Contamination.Part A.Development and Improvement of Soil Extraction Methods for the Determination of the Bioavailable Parts of Contaminants.Chemosphere,1997,35:223-237
[44] Chung N,Alexander M,Difference in Sequestration and Bioavailability of Organic Compounds Aged in Dissimilar Soils.Environmental Science and Technology,1998,32:855-860
[45] Young T M,Weber W J,A Distributed Reactivity Model for Sorption by Soils and Sediments.7.Enthalpy and Polarity Effects on Desorption under Supercritical Fluid Conditions.Environmental Science and Technology,1997,31:1692-1696
[46] Nilsson T,Bφwadt S,Bj rklund E,Development of A Simple SFE Method for the Determination of Desorption Behavior of PCBs in Two Swedish Sediments.Chemosphere,2002,46:469-476
[47] Hawthorne S B,Miller D J,Evidence for Very Tight Sequestration of BTEX Compounds in Manufactured Gas Plant Soils Based on Selective Supercritical Fluid Extraction and Soil Water Partitioning.Environmental Science and Technology,2003,37:3587-3594
[48] Szolar O H J,Rost H,Hirmann D et al.,Sequential Supercritical Fluid Extraction (SFFE) for Estimating the Availability of High Molecular Weight Polycyclic Aromatic Hydrocarbons in Historically Polluted Soil.Journal of Environmental Quality,2004,33:80-88
[49] Tao S,Guo L Q,Wang W X et al.,Use of Sequential ASE Extraction to Evaluate the Bioavailability of DDT and its Metabolites to Wheat Roots in Soils with Various Organic Carbon Contents.Science of the Total Environment,2004,320:1-9
[50] Van der Wal L,Jager T,Fleuren R H L J et al.,Solid-Phase Microextraction to Predict Bioavailability and Accumulation of Organic Micropollutants in Terrestrial Organisms and Exposure to A Field-Contaminated Soil Environmental Science and Technology,2004,38:4842-4848
[51] 周启星,宋玉芳等,污染土壤修复原理与方法.北京:科学出版社,2004,688
[52] Wu L H,Luo Y M,Xing X R et al.,EDTA-Enhanced Phytoremediation of Heavy Metal Contaminated Soil with Indian Mustard and Associated Potential Leaching Risk.Agriculture,Ecosystems & Environment,2004,102

(3):307-318
[53] Hong M,He L,Dale B et al.,Genotoxicity Profiles and Reaction Characteristics of Potassium Polyethylene Glycol Dehalogenation of Wood Preserving Waste.Environmental Science and Technology,1995,29:702-708
[54] Kim J H,Han S J,Kim S S et al.,Effect of Soil Chemical Properties on the Remediation of Phenanthrene-Contaminated Soil by Electrokinetic-Fenton Frocess.Chemosphere,In Press,Corrected Proof,Available online 28 November 2005
[55] Amrate S,Akretche D E,Modeling EDTA Enhanced Electrokinetic Remediation of Lead Contaminated Soils.Chemosphere,2005,60(10):1376-1383
[56] Conte P,Agretto A,Spaccini R et al.,Soil Remediation:Humic Acids as Natural Surfactants in the Washings of Highly Contaminated Soils.Environmental Pollution,2005,135(3):515-522
[57] Caschili S,Delogu F,Concas A et al.,Mechanically Induced Self-Propagating Reactions:Analysis of Reactive Substrates and Degradation of Aromatic Sulfonic Pollutants.Chemosphere,In Press,Corrected Proof,Available online 28 November 2005

点击查看大图

计量

文章访问数: 775
HTML全文浏览数: 775
PDF下载数: 1383
施引文献: 0