Journal of Jilin University(Earth Science Edition) ›› 2016, Vol. 46 ›› Issue (4): 1176-1190.doi: 10.13278/j.cnki.jjuese.201604204

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Transport and Fate of Estrogens in Soil and Groundwater: A Critical Review

Yang Yuesuo1,2, Zhang Ge1, Song Xiaoming2, Wen Yujuan2, Zhang Wenqing1   

  1. 1. Key Laboratory of Groundwater Resources and Environment of Ministry of Education, Jilin University, Changchun 130021, China;
    2. Key Laboratory of Eco-Restoration of Regional Contaminated of Environment Ministry of Education, Shenyang University, Shenyang 110044, China
  • Received:2016-07-01 Published:2016-07-26
  • Supported by:

    Supported by National Natural Science Foundation of China (41472237, 41272255), Shenyang Sci-Tech Program (F14-133-900, F15-113-900) and Liaoning Province Innovation Team (LT2015017)

Abstract:

Environmental endocrine disrupting chemicals have become a global concerned environmental problem, whose distribution, transport and fate of estrogens in groundwater and soils closely relate to human and ecological health. Based on the summary of properties, classification, analytical methods and other aspects of environmental estrogens, it reveals the variety of hazards and risks to organisms and wider environment. Their migration and transformation processes in groundwater and soil environment were characterized then, and understanding of their control and remediation techniques and methods were further reviewed, to provide guidance for reducing the ecological and environmental risks of estrogens. Based upon the significance of the estrogen study, further potential research areas and prospects were highlighted in this field.

Key words: environmental contamination, estrogens, groundwater, transport and fate

CLC Number: 

  • P641

[1] 袁琳. 环境雌激素影响男性生殖缺陷的研究进展[J]. 国外医学(泌尿系统分册), 2005, 25(2): 216-219. Yuan Lin. Research Progress of Environmental Estrogens on Male Reproductive Defects[J]. Foreign Medical Sciences (Urology and Nephrology), 2005, 25(2): 216-219.

[2] 张照韩. 城市水体中雌激素的去除机制及复合污染效应研究[D]. 哈尔滨:哈尔滨工业大学, 2010. Zhang Zhaohan. Removal Mechanisms and Combined Pollution Effect of Estrogens in Urban Water Body[D]. Harbin: Harbin Institute of Technology,2010.

[3] 刘姝芳, 李艳霞, 张雪莲, 等. 东北三省畜禽养殖类固醇激素排放及其潜在污染风险[J]. 环境科学, 2013, 34(18): 3180-3187. Liu Shufang, Li Yanxia, Zhang Xuelian, et al. Excretion of Manure-Borne Steroid Hormones and Their Potential Risk in the Three Northeast Provinces of China[J]. Environmental Science, 2013, 34(18): 3180-3187.

[4] Zuo Y, Zhang K, Deng Y. Occurrence and Photochemical Degradation of 17α-Ethinylestradiol in Acushnet River Estuary[J]. Chemosphere, 2006, 63(9): 1583-1590.

[5] 朱毅, 田怀军, 舒为群, 等. 长江、嘉陵江(重庆段)源水有机物提取物的类雌激素活性评价[J]. 环境污染与防治, 2003, 25(2): 65-67. Zhu Yi, Tian Huaijun, Shu Weiqun, et al. Evaluation of Estrogenic Activity of Organic Extracts from Source Water of Yangtze River and Jialing River in Chongqing Section[J]. Environmental Pollution & Control, 2003, 25(2): 65-67.

[6] Lei B, Huang S, Zhou Y, et al. Levels of Six Estrogens in Water and Sediment from Three Rivers in Tianjin Area, China[J]. Chemosphere, 2009, 76(1): 36-42.

[7] 李剑, 徐飞, 李少旦, 等. 环境雌激素研究进展[J]. 现代预防医学, 2006, 33(8): 1355-1359. Li Jian, Xu Fei, Li Shaodan, et al. Research Progress of Environmental Estrogens[J]. Modern Preventive Medicine, 2006, 33(8): 1355-1359.

[8] 宋文婷, 陆光华. 指示水生生态系统环境雌激素暴露的多种生物标志物的选择[J]. 生态环境, 2008, 17(1): 434-438. Song Wenting, Lu Guanghua. Selection of Multiple Biomarkers for Indicating Exposure of Environmental Estrogens in Aquatic Ecosystems[J]. Ecology and Environment, 2008, 17(1): 434-438.

[9] 孙小红, 李婕, 葛安靖. 环境雌激素的生殖和发育毒性研究进展[J]. 中国优生与遗传杂志, 2013, 21(4): 1-2. Sun Xiaohong, Li Jie, Ge Anjing. Progress in Research on Reproductive and Developmental Toxicity of Environmental Estrogens[J]. Chinese Journal of Birth Health & Heredity, 2013, 21(4): 1-2.

[10] 刘敏, 岳波, 尹平河, 等. 猪粪中典型类固醇雌激素的固相萃取/GC-MS检测[J]. 环境科学研究, 2011, 24(7): 763-768. Liu Min, Yue Bo, Yin Pinghe, et al. Analysis of Typical Steroid Estrogens in Pig Manure by Solid Phase Extraction GC-MS[J]. Research of Environmental Sciences, 2011, 24(7): 763-768.

[11] Hanselman T A, Graetz D A, Wilkie A C, et al. Determination of Steroidal Estrogens in Flushed Dairy Manure Wastewater by Gas Chromatography-Mass Spectrometry[J]. Journal of Environmental Quality, 2006, 35(3): 695-700.

[12] Almeida C, Nogueira J M F. Determination of Steroid Sex Hormones in Water and Urine Matrices by Stir Bar Sorptive Extraction and Liquid Chromatography with Diode Array Detection[J]. Journal of Pharmaceutical and Biomedical Analysis, 2006, 41(4): 1303-1311.

[13] Caupos E, Mazellier P, Croue J P. Photodegradation of Estrone Enhanced by Dissolved Organic Matter Under Simulated Sunlight[J]. Water Research, 2011, 45(11): 3341-3350.

[14] Liu B, Liu X. Direct Photolysis of Estrogens in A-queous Solutions[J]. Science of the Total Environment, 2004, 320(2): 269-274.

[15] 刘先利, 刘彬, 吴峰, 等. 环境雌激素及其降解途径[J]. 环境科学与技术, 2003, 26(4): 3-5. Liu Xianli, Liu Bin, Wu Feng, et al. Environmental Estrogens: Their Problems and Degradation Pathway[J]. Environmental Science and Technology, 2003, 26(4): 3-5.

[16] Arnon S, Dahan O, Elhanany S, et al. Transport of Testosterone and Estrogen from Dairy-Farm Waste Lagoons to Groundwater[J]. Environmental Science & Technology, 2008, 42(15): 5521-5526.

[17] Wicks C, Kelley C, Peterson E. Estrogen in a Karstic Aquifer[J]. Ground Water, 2004, 42(3): 384-389.

[18] Kjær J, Olsen P, Bach K, et al. Leaching of Estrogenic Hormones from Manure-Treated Structured Soils[J]. Environmental Science & Technology, 2007, 41(11): 3911-3917.

[19] Shore L S, Shemesh M. Naturally Produced Steroid Hormones and Their Release into the Environment[J]. Pure and Applied Chemistry, 2003, 75(11/12): 1859-1871.

[20] 杨俊. 17β-雌二醇的生物降解模式及高效降解菌的降解特性研究[D]. 杭州:浙江工业大学, 2010. Yang Jun. Study on 17β-Estradiol Biodegradation Patterns and Characterization by High-Efficiency Microbial Strains[D]. Hangzhou: Zhejiang University of Technology, 2010.

[21] Bonin J L, Simpson M J. Sorption of Steroid Estrogens to Soil and Soil Constituents in Single-and Multi-Sorbate Systems[J]. Environmental Toxicology and Chemistry, 2007, 26(12): 2604-2610.

[22] Lima D L D, Schneider R J, Esteves V I. Sorption Behavior of EE2 on Soils Subjected to Different Long-Term Organic Amendments[J]. Science of the Total Environment, 2012, 423: 120-124.

[23] Lai K M, Scrimshaw M D, Lester J N. Biotransformation and Bioconcentration of Steroid Estrogens by Chlorella Vulgaris[J]. Applied and Environmental Microbiology, 2002, 68(2): 859-864.

[24] Noppe H, Verslycke T, De Wulf E, et al. Occurrence of Estrogens in the Scheldt Estuary: A2-Year Survey[J]. Ecotoxicology and Environmental Safety, 2007, 66(1): 1-8.

[25] Kuster M, de Alda M J L, Barceló D. Analysis and Distribution of Estrogens and Progestogens in Sewage Sludge, Soils and Sediments[J]. TrAC Trends in Analytical Chemistry, 2004, 23(10): 790-798.

[26] Stumpe B, Marschner B. Factors Controlling the Biodegradation of 17β-Estradiol, Estrone and 17α-Ethinylestradiol in Different Natural Soils[J]. Che-mosphere, 2009, 74(4): 556-562.

[27] Xuan R, Blassengale A A, Wang Q. Degradation of Estrogenic Hormones in a Silt Loam Soil[J]. Journal of Agricultural and Food Chemistry, 2008, 56(19): 9152-9158.

[28] Lee J H, Zhou J L, Kim S D. Effects of Biodegradation and Sorption by Humic Acid on the Estrogenicity of 17β-Estradiol[J]. Chemosphere, 2011, 85(8): 1383-1389.

[29] 马晶晶, 许继润. 环境雌激素在环境中的迁移转化研究[J]. 四川环境, 2013, 32(3): 112-116. Ma Jingjing, Xu Jirun. Transport and Transformation of Environmental Estrogens in the Environment[J]. Sichuan Environment, 2013, 32(3): 112-116.

[30] Durán-Álvarez J C, Prado B, Ferroud A, et al. Sorption, Desorption and Displacement of Ibuprofen, Estrone, and 17β Estradiol in Wastewater Irrigated and Rainfed Agricultural Soils[J]. Science of the Total Environment, 2014, 473: 189-198.

[31] Li J, Fu J, Xiang X, et al. Kinetics, Equilibrium, and Mechanisms of Sorption and Desorption of 17α-Ethinyl Estradiol in Two Natural Soils and Their Organic Fractions[J]. Science of the Total Environment, 2013, 452: 404-410.

[32] 张玉玲, 党江艳, 吕颖, 等. 生殖健康类雌激素在地下环境中的迁移能力评价[J]. 科技导报, 2013, 31(22): 31-35. Zhang Yuling, Dang Jiangyan, Lü Ying, et al. Eva-luation of Migration Abilities of Reproductive Health Estrogens in the Subsurface Environment[J]. Science & Technology Review, 2013, 31(22): 31-35.

[33] 张丰松, 李艳霞, 黄泽春, 等. 雌二醇在土壤/沉积物中的吸附特征及猪粪DOM对吸附的影响[J]. 环境科学, 2012, 33(10): 3542-3546. Zhang Fengsong, Li Yanxia, Huang Zechun, et al. Sorption of 17β-Estradiol to Soils and Sediment and Influence of Pig Manure DOM[J]. Environmental Science, 2012, 33(10): 3542-3546.

[34] Li Y, Han W, Yang M, et al. Migration of Natural Estrogens Around a Concentrated Dairy-Feeding Operation[J]. Environmental Monitoring and Assessment, 2012, 184(8): 5035-5041.

[35] 李依韦, 银玲, 薛兰兰. 土壤中异黄酮植物雌激素降解体系的研究[J]. 环境污染与防治, 2012, 34(3): 55-58. Li Yiwei, Yin Ling, Xue Lanlan. Research on the Degradation System of Isoflavonic Phytoestrogen in Soil[J]. Environmental Pollution & Control, 2012, 34(3): 55-58.

[36] 刘建林. 雌激素化合物在土壤中的吸附行为及生物降解的研究[D]. 北京:华北电力大学, 2012. Liu Jianlin. Study on the Adsorption Behaviors and Biodegradation of Estrogen Chemicals in Soil System[D]. Beijing: North China Electric Power University, 2012.

[37] Vulliet E, Cren-Olivé C. Screening of Pharmaceuticals and Hormones at the Regional Scale, in Surface and Groundwaters Intended to Human Consumption[J]. Environmental Pollution, 2011, 159(10): 2929-2934.

[38] Sun K, Gao B, Zhang Z, et al. Sorption of Endocrine Disrupting Chemicals by Condensed Organic Matter in Soils and Sediments[J]. Chemosphere, 2010, 80(7): 709-715.

[39] 赵铖铖. 污水土地处理系统中内分泌干扰物的吸附迁移[D]. 上海:上海交通大学, 2010. Zhao Chengcheng. Transformation of EDCs in Soil WastewaterTreatment System[D]. Shanghai: Shanghai Jiaotong Unviersity, 2010.

[40] Stanford B D, Amoozegar A, Weinberg H S. The Impact of Co-Contaminants and Septic System Effluent Quality on the Transport of Estrogens and Nonylphenols Through Soil[J]. Water Research, 2010, 44(5): 1598-1606.

[41] Karnjanapiboonwong A, Morse A N, Maul J D, et al. Sorption of Estrogens, Triclosan, and Caffeine in a Sandy Loam and a Silt Loam Soil[J]. Journal of Soils and Sediments, 2010, 10(7): 1300-1307.

[42] Lucas S D, Jones D L. Urine Enhances the Leaching and Persistence of Estrogens in Soils[J]. Soil Biology and Biochemistry, 2009, 41(2): 236-242.

[43] Barber L B, Keefe S H, LeBlanc D R, et al. Fate of Sulfamethoxazole, 4-Nonylphenol, and 17β-Estra-diol in Groundwater Contaminated by Wastewater Treatment Plant Effluent[J]. Environmental Science & Technology, 2009, 43(13): 4843-4850.

[44] 魏瑞成, 李金寒, 何龙翔, 等. 雌激素胁迫对萝卜种子萌芽和幼苗生长及其累积效应的影响[J]. 草业学报, 2013, 22(5): 190-197. Wei Ruicheng, Li Jinhan, He Longxiang, et al. Effects of Etrogen Stress on Seed Germination, Seeding Growth and Accumulation in Radish[J]. Prata-culturae Sinica, 2013, 22(5): 190-197.

[45] 孟水平, 段新芳, 赵昭霞. 环境激素危害与我国木材保护环境安全对策[J]. 世界林业研究, 2006, 19(2): 47-50. Meng Shuiping, Duan Xinfang, Zhao Zhaoxia. Mea-sures of Environment Security of Wood Preservation in China by Reducing Harmfulness of Environmental Endocrine Disruptors[J]. World Forestry Research, 2006, 19(2): 47-50.

[46] 刘先利, 刘彬, 邓南圣. 环境内分泌干扰物研究进展[J]. 上海环境科学, 2003, 22(1): 57-63. Liu Xianli, Liu Bin, Deng Nansheng. Study Progress of Environmental Endocrine Disruptors[J]. Shanghai Environmental Sciences, 2003, 22(1): 57-63.

[47] 邱东茹, 吴振斌, 贺锋. 内分泌扰乱化学品对动物的影响和作用机制[J]. 环境科学研究, 2000, 13(6): 52-55. Qiu Dongru, Wu Zhenbin, He Feng. Effects of Endocrine Disrupting Chemicals on Animals and Mechanisms of Action[J]. Research of Environmental Sciences, 2000, 13(6): 52-55.

[48] 邱东茹, 吴振斌. 内分泌扰乱化学品活性筛选和测试方法[J]. 环境科学研究, 2001, 14(1): 57-58. Qiu Dongru, Wu Zhenbin. Advance in Screening and Testing Methods of Endocrine Disrupting Chemicals[J]. Research of Environmental Sciences, 2001, 14(1): 57-58.

[49] 桂军红, 陆付耳. 双酚A对雄性大鼠生殖系统的影响[J]. 中国公共卫生, 2005, 21(6): 696-698. Gui Junhong, Lu Fuer. Effect of Bisphenola on Reproductive System of Puberty Male Rats[J]. China Public Health, 2005, 21(6): 696-698.

[50] 张浩, 梁英, 增祥贵, 等. 甲醇和汽油汽车尾气对A549细胞株细胞毒性及增殖和凋亡功能的影响[J]. 现代预防医学, 2005, 32(7): 721-723. Zhang Hao, Liang Ying, Zeng Xianggui, et al. The Study of Proliferation and Apoptosis of A549 Cells on Exposure to both Gasoline and Methanol Exhaust[J]. Modern Preventive Medicine, 2005, 32(7): 721-723.

[51] 王一梅, 王洋, 唐非. 环境雌激素的研究现状:环境雌激素对生物体的影响[J]. 公共卫生与预防医学, 2009, 20(1): 60-62. Wang Yimei, Wang Yang, Tang Fei. Current Status of Environmental Estrogens: Effects of Environmental Estrogens on Living Organisms[J]. Journal of Public Health and Preventive Medicine, 2009, 20(1): 60-62.

[52] Angus R A, Stanko J, Jenkins R L, et al. Effects of 17α-Ethynylestradiol on Sexual Development of Male Western Mosquitofish (Gambusia Affinis)[J]. Comparative Biochemistry and Physiology Part C: Toxicology & Pharmacology, 2005, 140(3): 330-339.

[53] Feng Y, Zhang Z, Gao P, et al. Adsorption Behavior of EE2(17α-Ethinylestradiol) onto the Inactivated Sewage Sludge: Kinetics, Thermodynamics and Influence Factors[J]. Journal of Hazardous Materials, 2010, 175(1): 970-976.

[54] 朱丽岩, 齐亚超, 刘光兴. 海洋环境中内分泌干扰物对无脊椎动物的影响[J]. 环境科学研究, 2004, 17(5): 27-31. Zhu Liyan, Qi Yachao, Liu Guangxing. Effects of Endocrine Disrupting Chemicals on Invertebrates in the Marine Environment[J]. Research of Environmental Sciences, 2004, 17(5): 27-31.

[55] 彭里. 畜禽养殖环境污染及治理研究进展[J]. 中国生态农业学报, 2006, 14(2): 19-22. Peng Li. Research Progress in Pollution Caused by Raising Poultry and Its Controlling Countermeasures[J]. Chinese Journal of Eco-Agriculture, 2006, 14(2): 19-22.

[56] 朱孔颖. 畜禽养殖业污染状况及管理对策[J]. 干旱环境监测, 2004, 18(1): 46-47. Zhu Kongying. Pollution Status and Management Countermeasure in Livestock Breeding Trade[J]. Arid Environmental Monitoring, 2004, 18(1): 46-47.

[57] Matějíek D, Houserová P, Kubáň V. Combined Isolation and Purification Procedures Prior to the High-Performance Liquid Chromatographic-Ion-Trap Tandem Mass Spectrometric Determination of Estrogens and Their Conjugates in River Sediments[J]. Journal of Chromatography A, 2007, 1171(1): 80-89.

[58] Vílchez J L, Zafra A, González-Casado A, et al. Determination of Trace Amounts of Bisphenol F, Bisphenol A and Their Diglycidyl Ethers in Wastewater by Gas Chromatography-Mass Spectrometry[J]. Analytica Chimica Acta, 2001, 431(1): 31-40.

[59] Hutchins S R, White M V, Hudson F M, et al. Analysis of Lagoon Samples from Different Concentra-ted Animal Feeding Operations for Estrogens and Estrogen Conjugates[J]. Environmental Science & Technology, 2007, 41(3): 738-744.

[60] Nieto A, Borrull F, Pocurull E, et al. Determination of Natural and Synthetic Estrogens and Their Conjugates in Sewage Sludge by Pressurized Liquid Extraction and Liquid Chromatography-Tandem Mass Spectrometry[J]. Journal of Chromatography A, 2008, 1213(2): 224-230.

[61] Johnson A C, Belfroid A, Di Corcia A. Estimating Steroid Oestrogen Inputs into Activated Sludge Treatment Works and Observations on Their Remo-val from the Effluent[J]. Science of the Total Environment, 2000, 256(2): 163-173.

[62] Jiang T, Zhao L, Chu B, et al. Molecularly Imprinted Solid-Phase Extraction for the Selective Determination of 17β-Estradiol in Fishery Samples with High Performance Liquid Chromatography[J]. Talanta, 2009, 78(2): 442-447.

[63] Wang L, Cai Y Q, He B, et al. Determination of Estrogens in Water by HPLC-UV Using Cloud Point Extraction[J]. Talanta, 2006, 70(1): 47-51.

[64] 严珍珍. 环境雌激素类物质生物学检测方法的建立及应用[D]. 杭州:浙江理工大学, 2012. Yan Zhenzhen. The Estabilshment and Application of Biological Detection Method for Environmental Estrogens[D]. Hangzhou: Zhejiang Science Technology University, 2012.

[65] 岳强. 环境雌激素降解及检测研究[D]. 保定: 河北大学, 2006. Yue Qiang. Degradation and Determination of Environmental Estrogens[D]. Baoding: Hebei University, 2006.

[66] 王莎莎, 谭文婷, 邓国宏. 环境雌激素生物学检测方法研究进展[J]. 中国公共卫生, 2011, 27(1): 120-122. Wang Shasah, Tan Wenting, Deng Guohong. Research Progress on Biological Detection Methods of Environmental Estrogens[J]. Chinese Journal of Public Health, 2011, 27(1): 120-122.

[67] 董亮, 封跃鹏, 彭鸿俊. 环境样品中PCBs的测定[J]. 中国环境检测, 2002, 18(1): 352-358. Dong Liang, Feng Yuepeng, Peng Hongjun. Analysis of PCBs in Environmental Samples[J]. Environmental Monitoring in China, 2002, 18(1): 352-358.

[68] 王一梅, 王洋, 唐非. 环境雌激素的研究现状:二:环境雌激素的测定[J]. 公共卫生与预防医学, 2009, 20(2): 47-49. Wang Yimei, Wang Yang, Tang Fei. Current Status of Research on Environmental Estrogens:Ⅱ:Determination of Environmental Estrogens[J]. Journal of Public Health and Preventive Medicine, 2009, 20(2): 47-49.

[69] 赵晓飞. 污水处理过程中雌激素的测定与去除特性研究[D]. 北京:北京工业大学, 2012. Zhao Xiaofei. Research on Estrogen Determination and Removal During Sewage Treatment Process[D]. Beijing: Beijing University of Technology,2012.

[70] 单晓英, 李百祥. 农药咪鲜安环境雌激素活性的研究[J]. 中国公共卫生, 2005, 21(5): 596-597. Shan Xiaoying, Li Baixiang. Study on the Environmental Estrogenic Activity of the Pesticide Prochloraz[J]. Chinese Journal of Public Health, 2005, 21(5): 596-597.

[71] 贾凌志, 王福玉. 水体中环境雌激素的检测及去除[J]. 中国公共卫生, 2003, 19(11): 1383-1384. Jia Lingzhi, Wang Fuyu. Detection and Removal of Environmental Estrogens in Water[J]. Chinese Journal of Public Health, 2003, 19(11): 1383-1384.

[72] 林建德, 邵坚, 冯成洪, 等. 天然类固醇雌激素源解析、环境行为及其污染控制[J]. 环境科学与技术, 2012, 35(5): 60-64. Lin Jiande, Shao Jian, Feng Chenghong, et al. Source, Environmental Behavior and Pollution Control of Natural Estrogen in Environment[J]. Environmental Science & Technology, 2012, 35(5): 60-64.

[73] Mohammed A, 杨悦锁, 杜新强, 等. 内分泌干扰物的环境危害: 雌激素及其硫酸盐在土壤中的吸附规律[J]. 吉林大学学报 (地球科学版), 2013, 43(2): 573-581. Mohammed A, Yang Yuesuo, Du Xinqiang, et al. Environmental Risk of EDC: Estrone and Its Sulphate Conjugate's Sorption from Mediator Solution in Soils of Nasarawa State of Nigeria[J]. Journal of Jilin University (Earth Science Edition) , 2013, 43(2): 573-581.

[74] 张方方. 天然雌激素降解菌的筛选鉴定及其降解特性研究[D]. 淮南:安徽理工大学, 2012. Zhang Fangfang. Isolation and Identification of Natural Estrogen-Degrading Bacteria and Characteristics Research on Them[D]. Huainan: Anhui University of Science and Technology, 2012.

[75] 靳青. 典型内分泌干扰物在土壤中的吸附特性及吸附模型参数研究[D]. 咸阳:西北农林科技大学, 2012. Jin Qing. Research of Typical Environmental Endocrine Disruptors Adsorption Characteristics and Adsorption Model Parameters in Soil[D]. Xianyang: Northwest A&F University, 2012.

[76] Lee L S, Strock T J, Sarmah A K, et al. Sorption and Dissipation of Testosterone, Estrogens, and Their Primary Transformation Products in Soils and Sediment[J]. Environmental Science & Technology, 2003, 37(18): 4098-4105.

[77] Stumpe B, Marschner B. Dissolved Organic Carbon from Sewage Sludge and Manure Can Affect Estrogen Sorption and Mineralization in Soils[J]. Environmental Pollution, 2010, 158(1): 148-154.

[78] Casey F X M, Larsen G L, Hakk H, et al. Fate and Transport of 17β-Estradiol in Soil-Water Systems[J]. Environmental Science & Technology, 2003, 37(11): 2400-2409.

[79] 杨媛媛, 纪树兰, 秦振平, 等. NF270 截留17α-乙炔基雌二醇过程[J]. 环境科学研究, 2009 (10): 1204-1207. Yang Yuanyuan, Ji Shulan, Qin Zhenping, et al. Rejection of 17α-Ethynylestradiol ( EE2) by NF270 Nanofiltration Membrane[J]. Research of Environmental Sciences, 2009 (10): 1204-1207.

[80] Huber M M, Ternes T A, Von Gunten U. Removal of Estrogenic Activity and Formation of Oxidation Products During Ozonation of 17α-Ethinylestradiol[J]. Environmental Science & Technology, 2004, 38(19): 5177-5186.

[81] Feng X, Ding S, Tu J, et al. Degradation of Estrone in Aqueous Solution by Photo-Fenton System[J]. Science of the Total Environment, 2005, 345(1): 229-237.

[82] 陈勇, 王蕾, 吴峰, 等. 17α-乙炔基雌二醇在铁 (Ⅲ)-草酸盐配合物体系中的光降解[J]. 环境科学研究, 2006, 18(6): 56-58. Chen Yong, Wang Lei, Wu Feng, et al. Photodegradation of 17α-Ethynylestradiol in Water by Fe (III)-Oxalate System[J]. Research of Environmental Sciences, 2006, 18(6): 56-58.

[83] 任海燕, 纪树兰, 崔成武, 等. 甾体雌激素的污染状况与去除途径[J]. 中国给水排水, 2004, 20(12): 24-26. Ren Haiyan, Ji Shulan, Cui Chengwu, et al. Current Status of Pollution from Steroid Estrogen and Removal Approach[J]. China Water & Wastewater, 2004, 12(20): 24-26.

[84] Yoshimoto T, Nagai F, Fujimoto J, et al. Degradation of Estrogens by Rhodococcus Zopfii and Rhodococcus Equi Isolates from Activated Sludge in Wastewater Treatment Plants[J]. Applied and Environmental Microbiology, 2004, 70(9): 5283-5289.

[85] Choudhary M I, Musharraf S G, Ali R A, et al. Microbial Transformation of Antifertility Agents, Norethisterone and 17α-Ethynylestradiol[J]. Zeitschrift für Naturforschung B, 2004, 59(3): 319-323.

[86] 李富生, 何义亮. 17β-雌二醇的生物降解性能研究[J]. 中国给水排水, 2003, 19(6): 9-12. Li Fusheng, He Yiliang. Study on Biodegradation Characteristics of 17β-Estradiol (E2)[J]. China Water & Wastewater, 2003, 19(6): 9-12.

[87] 任海燕, 纪树兰, 崔成武, 等. 17α-乙炔基雌二醇的降解及其共基质代谢特性[J]. 环境科学研究, 2006, 19(4): 61-64. Ren Haiyan, Ji Shulan, Cui Chengwu, et al. Degradation of 17α-Ethinylestradiol and Its Co-Metabolism Characters[J]. Research of Environmental Sciences, 2006, 19(4): 61-64.

[88] 刘敏, 岳波, 尹平河, 等. 畜禽粪便改良土壤中E1和E2自然降解的影响因素[J].环境科学研究 , 2011, 24(10): 1165-1171. Liu Min, Yue Bo, Yin Pinghe, et al. Factors Influencing the Natural Degradation of E1 (Estrone) and E2 (17β-Estradiol) in Soils Amended by Animal Manure[J]. Research of Environmental Sciences, 2011, 24(10): 1165-1171.

[89] 张真, 王欣泽, 李亚红, 等. 土壤净化槽对农村污水中内分泌干扰物的去除效果[J]. 环境科学研究, 2013, 26(2): 173-180. Zhang Zhen, Wang Xinze, Li Yahong, et al. Removal of Endocrine Disrupting Chemicals in Rural Sewage by Soil Trench Systems[J]. Research of Environmental Sciences, 2013, 26(2): 173-180.

[90] 吴唯, 史江红, 陈庆彩, 等. 雌酮, 17β-雌二醇及双酚A在 A2O/MBR中试装置的去除[J]. 农业环境科学学报, 2013, 32(2): 363-368. Wu Wei, Shi Jianghong, Cheng Qingcai, et al. Removal of Estrone, 17β-Estradiol and Bisphenola in a Pilot-Scale A2O/MBR System[J]. Journal of Agro-Environment Science, 2013, 32(2): 363-368.

[91] 吴运惇. 腐植酸对二氧化锰降解环境雌激素的影响研究[J]. 农业与技术, 2012, 32(8): 198,210. Wu Yundun. The Effects of Humic Acid on the Biodegradation of Environmental Estrogen by Manganese Dioxide[J]. Agriculture and Technology, 2012, 32(8): 198,210.

[92] 张照韩, 冯玉杰, 苏惠, 等. AO与AAO工艺去除雌激素效能对比及分析[J]. 环境科学学报, 2011, 31(1): 26-32. Zhang Zhaohan, Feng Yujie, Su Hui, et al. Comparison and Analysis of Estrogen Removal Efficiency in AO and AAO Proceswses[J]. Acta Scientiae Circumstantiae, 2011, 31(1): 26-32.

[93] Song H L, Nakano K, Taniguchi T, et al. Estrogen Removal from Treated Municipal Effluent in Small-Scale Constructed Wetland with Different Depth[J]. Bioresource Technology, 2009, 100(12): 2945-2951.

[94] Hashimoto T, Murakami T. Removal and Degradation Characteristics of Natural and Synthetic Estrogens by Activated Sludge in Batch Experiments[J]. Water Research, 2009, 43(3): 573-582.

[95] 程爱华, 王磊, 王旭东, 等. 纳滤膜去除水中微量类固醇类雌激素[J]. 膜科学与技术, 2008, 28(5): 90-93. Cheng Aihua, Wang Lei, Wang Xudong, et al. Rejection of Trance Steroid Endocrine Disruptors in Water by Nanofiltration Membrane[J]. Membrane Science and Technology, 2008, 28(5): 90-93.

[96] Lin Y, Shi Y, Jiang M, et al. Removal of Phenolic Estrogen Pollutants from Different Sources of Water Using Molecularly Imprinted Polymeric Microspheres[J]. Environmental Pollution, 2008, 153(2): 483-491.

[97] 王宇, 袁涛, 胡江泳. AnSBR 法处理生活污水中典型环境雌激素的研究[J]. 环境科学研究, 2008, 21(2): 145-149. Wang Yu, Yuan Tao, Hu Jiangyong. Treatability Study of the Selected Endocrine Disrupting Chemicals in an Anaerobic Sequencing Batch Reactor[J]. Research of Environmental Sciences, 2008, 21(2): 145-149.

[98] Auriol M, Filali-Meknassi Y, Adams C D, et al. Natural and Synthetic Hormone Removal Using the Horseradish Peroxidase Enzyme: Temperature and pH Effects[J]. Water Research, 2006, 40(15): 2847-2856.

[99] Choi K J, Kim S G, Kim C W, et al. Effects of Activated Carbon Types and Service Life on Removal of Endocrine Disrupting Chemicals: Amitrol, Nonylphenol, and Bisphenol-A[J]. Chemosphere, 2005, 58(11): 1535-1545.

[100] Lee Y, Yoon J, Von Gunten U. Kinetics of the Oxidation of Phenols and Phenolic Endocrine Disruptors During Water Treatment with Ferrate (Fe (VI))[J]. Environmental Science & Technology, 2005, 39(22): 8978-8984.

[101] Essandoh H M K, Tizaoui C, Mohamed M H A, et al. Soil Aquifer Treatment of Artificial Wastewater Under Saturated Conditions[J]. Water Research, 2011, 45(14): 4211-4226.

[102] Cha W, Kim J, Choi H. Evaluation of Steel Slag For Organic and Inorganic Removals in Soil Aquifer Treatment[J]. Water Research, 2006, 40(5): 1034-1042.

[103] Onesios K M, Bouwer E J. Biological Removal of Pharmaceuticals and Personal Care Products During Laboratory Soil Aquifer Treatment Simulation with Different Primary Substrate Concentrations[J]. Water Research, 2012, 46(7): 2365-2375.

[104] 薛爽. 土壤含水层处理技术去除二级出水中溶解性有机物[D]. 哈尔滨: 哈尔滨工业大学, 2008. Xue Shuang. Removals of Dissolved Organic Matter in Secondary Effluents by Soil-Aquifer Treatment Techniques[D]. Harbin:Harbin Institute of Technology, 2008.

[105] Mansell J, Drewes J E. Fate of Steroidal Hormones During Soil-Aquifer Treatment[J]. Groundwater Monitoring & Remediation, 2004, 24(2): 94-101.

[106] Essandoh H M K, Tizaoui C, Mohamed M H A. Removal of Estrone (E1), 17β-Estradiol (E2) and 17α-Ethinylestradiol (EE2) During Soil Aquifer Treatment of a Model Wastewater[J]. Separation Science and Technology, 2012, 47(6): 777-787.

[107] Conroy O, Quanrud D M, Ela W P, et al. Fate of Wastewater Effluent hER-Agonists and hER-Antagonists During Soil Aquifer Treatment[J]. Environmental Science & Technology, 2005, 39(7): 2287-2293.

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