| 仇荣亮,仇浩,雷梅,等.矿山及周边地区多金属污染土壤修复研究进展[J].农业环境科学学报, 2009, 28(6):1085-1091. QIU R L, QIU H, LEI M, et al. Advances in research on remediation of multi-metal contaminated soil in mine and surrounding area[J]. Journal of agro-environment science, 2009, 28(6):1085-1091. |
| 苏耀明,陈志良,雷国建,等.多金属矿区土壤重金属垂向污染特征及风险评估[J].生态环境学报, 2016, 25(1):130-134. SU Y M, CHEN Z L, LEI G J, et al. Vertical pollution characteristic and ecological risk assessment of heavy metal of soil profiles in polymetallic ore mine[J]. Ecology and environmental sciences, 2016, 25(1):130-134. |
| 宋伟,陈百明,刘琳.中国耕地土壤重金属污染概况[J].水土保持研究, 2013, 20(2):293-298. SONG W, CHEN B M, LIU L. Soil heavy metal pollution of cultivated land in China[J]. Research of soil and water conservation, 2013, 20(2):293-298. |
| 赵其国,骆永明.论我国土壤保护宏观战略[J].中国科学院院刊, 2015, 30(4):452-458. ZHAO Q G, LUO Y M. The macro strategy of soil protection in China[J]. Bulletin of Chinese Academy of Sciences, 2015, 30(4):452-458. |
| DE SCHAMPHELAERE K A C, JANSSEN C R. A biotic ligand model predicting acute copper toxicity for Daphnia magna:the effects of calcium, magnesium, sodium, potassium, and pH[J]. Environmental science&technology, 2002, 36(1):48-54. |
| European Chemicals Bureau. Technical guidance document in support of Commission Directive 93/67/EEC on risk assessment for new notified substances Commission Regulation (EC) No. 1488/94 on risk assessment for existing substances and Directive 98/8/EC of the European Parliament and of the Council concerning the placing of biocidal products on the market[S]. Helsinki, Finland:European Chemicals Bureau, 2003:247-319. |
| QIU H. Quantitative modelling of the response of earthworms to metals[D]. Leiden:Leiden University, 2014:12-14. |
| PEIJNENBURG W J, POSTHUMA L, EIJSACKERS H J, et al. A conceptual framework for implementation of bioavailability of metals for environmental management purposes[J]. Ecotoxicology and environmental safety, 1997, 37(2):163-172. |
| LANNO R, WELLS J, CONDER J, et al. The bioavailability of chemicals in soil for earthworms[J]. Ecotoxicology and environmental safety, 2004, 57(1):39-47. |
| ALLEN H, MCGRATH S, MCLAUGHLIN M, et al. Bioavailability of metals in terrestrial ecosystems:importance of partitioning for bioavailability to invertebrates, microbes, and plants[M]. CABI Digital Library, 2001:176[2024-10-31] . https://www.cabdirect.org/cabdirect/abstract/20023040195 |
| QI Y B, HUANG B, DARILEK J L. Effect of drying on heavy metal fraction distribution in rice paddy soil[J]. PLoS One, 2014, 9(5):e97327. |
| LV H Q, CHEN W X, ZHU Y M, et al. Efficiency and risks of selenite combined with different water conditions in reducing uptake of arsenic and cadmium in paddy rice[J]. Environmental pollution, 2020, 262:114283. |
| DAS S, CHOU M L, JEAN J S, et al. Water management impacts on arsenic behavior and rhizosphere bacterial communities and activities in a rice agro-ecosystem[J]. Science of the total environment, 2016, 542:642-652. |
| GONZÁLEZ-ALCARAZ M N, TSITSIOU E, WIELDRAAIJER R, et al. Effects of climate change on the toxicity of soils polluted by metal mine wastes to Enchytraeus crypticus[J]. Environmental toxicology and chemistry, 2015, 34(2):346-354. |
| VIJVER M G, VAN GESTEL C A M, LANNO R P, et al. Internal metal sequestration and its ecotoxicological relevance:a review[J]. Environmental science&technology, 2004, 38(18):4705-4712. |
| GAO Y F, FENG J F, HAN F, et al. Application of biotic ligand and toxicokinetic-toxicodynamic modeling to predict the accumulation and toxicity of metal mixtures to zebrafish larvae[J]. Environmental pollution, 2016, 213:16-29. |
| TAN Q G, ZHOU W T, WANG W X. Modeling the toxicokinetics of multiple metals in the oyster Crassostrea hongkongensis in a dynamic estuarine environment[J]. Environmental science&technology, 2018, 52(2):484-492. |
| Organization for Economic Co-operation and Development (OECD). Test No. 220:guidelines for testing of chemicals-Enchytraeid reproduction test[S]. Paris:OECD, 2004:1-16. |
| PEIJNENBURG W, CAPRI E, KULA C, et al. Evaluation of exposure metrics for effect assessment of soil invertebrates[J]. Critical reviews in environmental science and technology, 2012, 42(17):1862-1893. |
| ALTENBURGER R, SCHOLZ S, SCHMITT-JANSEN M, et al. Mixture toxicity revisited from a toxicogenomic perspective[J]. Environmental science&technology, 2012, 46(5):2508-2522. |
| VAN GESTEL C A M. Soil ecotoxicology:state of the art and future directions[J]. ZooKeys, 2012(176):275-296. |
| STADNICKA-MICHALAK J, TANNEBERGER K, SCHIRMER K, et al. Measured and modeled toxicokinetics in cultured fish cells and application to in vitro-in vivo toxicity extrapolation[J]. PLoS One, 2014, 9(3):e92303. |
| PEIJNENBURG W. Chapter 9 fate of contaminants in soil[J]. Developments in soil science, 1998, 29:245-280. |
| QADAH D, BERVOETS L, BLUST R. Effect of incubation time of three single extraction procedures on trace element extraction from sediment and soil[J]. Environmental monitoring and assessment, 2023, 195(2):342. |
| 曹磊,张琦. DTPA和CaCl2浸提方法下土壤中重金属提取效率比较研究[J].江苏科技信息, 2022, 39(27):70-74. CAO L, ZHANG Q. Comparative study on extraction efficiency of heavy metals in soil by DTPA and CaCl2 extraction methods[J]. Jiangsu science&technology information, 2022, 39(27):70-74. |
| NEMATI K, ABU BAKAR N K, ABAS M R, et al. Speciation of heavy metals by modified BCR sequential extraction procedure in different depths of sediments from Sungai Buloh, Selangor, Malaysia[J]. Journal of hazardous materials, 2011, 192(1):402-410. |
| DAVIDSON C M, DUNCAN A L, LITTLEJOHN D, et al. A critical evaluation of the three-stage BCR sequential extraction procedure to assess the potential mobility and toxicity of heavy metals in industrially-contaminated land[J]. Analytica chimica acta, 1998, 363(1):45-55. |
| RAURET G, LÓPEZ-SÁNCHEZ J F, SAHUQUILLO A, et al. Application of a modified BCR sequential extraction (three-step) procedure for the determination of extractable trace metal contents in a sewage sludge amended soil reference material (CRM 483), complemented by a three-year stability study of acetic acid and EDTA extractable metal content[J]. Journal of environmental monitoring, 2000, 2(3):228-233. |
| BRUN L A, MAILLET J, RICHARTE J, et al. Relationships between extractable copper, soil properties and copper uptake by wild plants in vineyard soils[J]. Environmental pollution, 1998, 102(2/3):151-161. |
| MEERS E, SAMSON R, TACK F M G, et al. Phytoavailability assessment of heavy metals in soils by single extractions and accumulation by Phaseolus vulgaris[J]. Environmental and experimental botany, 2007, 60(3):385-396. |
| 敬佩,李光德,刘坤,等.蚯蚓诱导对土壤中铅镉形态的影响[J].水土保持学报, 2009, 23(3):65-68 , 96. JING P, LI G D, LIU K, et al. Effect of earthworm on bio-availability of Pb and Cd in soil[J]. Journal of soil and water conservation, 2009, 23(3):65-68, 96. |
| 彭程.氧化铜纳米颗粒在土壤-水稻系统中的形态转化机制研究[D].杭州:浙江大学, 2016:58-76. |
| ZHOU W P, HUI D F, SHEN W J. Effects of soil moisture on the temperature sensitivity of soil heterotrophic respiration:a laboratory incubation study[J]. PLoS One, 2014, 9(3):e92531. |
| MANNING D A C, RENFORTH P. Passive sequestration of atmospheric CO2 through coupled plant-mineral reactions in urban soils[J]. Environmental science&technology, 2013, 47(1):135-141. |
| TÜZEN M. Determination of trace metals in the River Yeşilırmak sediments in Tokat, Turkey using sequential extraction procedure[J]. Microchemical journal, 2003, 74(1):105-110. |
| ZHANG W F, LIU X P, CHENG H F, et al. Heavy metal pollution in sediments of a typical mariculture zone in South China[J]. Marine pollution bulletin, 2012, 64(4):712-720. |
| XU D Y, GAO B, GAO L, et al. Characteristics of cadmium remobilization in tributary sediments in Three Gorges Reservoir using chemical sequential extraction and DGT technology[J]. Environmental pollution, 2016, 218:1094-1101. |
| RAURET G, LÓPEZ-SÁNCHEZ J F, SAHUQUILLO A, et al. Improvement of the BCR three step sequential extraction procedure prior to the certification of new sediment and soil reference materials[J]. Journal of environmental monitoring, 1999, 1(1):57-61. |
| SOLIMAN N F, EL ZOKM G M, OKBAH M A. Risk assessment and chemical fractionation of selected elements in surface sediments from Lake Qarun, Egypt using modified BCR technique[J]. Chemosphere, 2018, 191:262-271. |
| 姚静,赵晓光,温娜,等.含水率对水稻土中重金属Cr形态的影响[J].节水灌溉, 2021(10):65-70. YAO J, ZHAO X G, WEN N, et al. Effect of water content on the form of heavy metal Cr in paddy soil[J]. Water saving irrigation, 2021 (10):65-70. |
| 郑顺安,郑向群,张铁亮,等.水分条件对紫色土中铅形态转化的影响[J].环境化学, 2011, 30(12):2080-2085. ZHENG S A, ZHENG X Q, ZHANG T L, et al. Effect of moisture regime on the fractionation of lead in purple soil[J]. Environmental chemistry, 2011, 30(12):2080-2085. |
| ZHANG L L, VAN GESTEL C A M, LI Z A. Toxicokinetics of metals in the soil invertebrate Enchytraeus crypticus exposed to field-contaminated soils from a mining area[J]. Environmental pollution, 2022, 300:118874. |
| GONZÁLEZ-ALCARAZ M N, LOUREIRO S, VAN GESTEL C A M. Toxicokinetics of Zn and Cd in the earthworm Eisenia andrei exposed to metal-contaminated soils under different combinations of air temperature and soil moisture content[J]. Chemosphere, 2018, 197:26-32. |
| BEYLICH A, ACHAZI R. Influence of low soil moisture on enchytraeids[J]. Newsletter on Enchytraeidae, 1999, 6:49-58 |
| GONZÁLEZ-ALCARAZ M N, VAN GESTEL C A M. Metal/metalloid (As, Cd and Zn) bioaccumulation in the earthworm Eisenia andrei under different scenarios of climate change[J]. Environmental pollution, 2016, 215:178-186. |
| GONZÁLEZ-ALCARAZ M N, VAN GESTEL C A M. Climate change effects on enchytraeid performance in metal-polluted soils explained from changes in metal bioavailability and bioaccumulation[J]. Environmental research, 2015, 142:177-184. |
| MARALDO K, SCHMIDT I K, BEIER C, et al. Can field populations of the enchytraeid, Cognettia sphagnetorum, adapt to increased drought stress?[J]. Soil biology and biochemistry, 2008, 40(7):1765-1771. |
| CROMMENTUIJN T, DOODEMAN C J A M, DOORNEKAMP A, et al. Lethal body concentrations and accumulation patterns determine time-dependent toxicity of cadmium in soil arthropods[J]. Environmental toxicology and chemistry, 1994, 13(11):1781-1789. |