我国污染土壤生物修复技术研究现状及发展展望
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摘要
以文献统计的方式对2006~2015年国内学者在中国知网和Web of science中发表的相关文献进行统计分析,综述了我国污染土壤生物修复技术的10年研究进展。结果显示:近10年我国土壤生物修复技术的研究热度不断上升,主要研究对象为重金属污染土壤和有机物污染土壤,总体分为机理研究和试验研究,且后者居多。在此基础上,本文简要介绍了当前主要研究的植物修复技术、微生物修复技术、动物修复技术、生物材料修复技术、生物组合修复技术及物理、化学、生物联合修复技术6种生物修复技术的原理、优缺点及研究现状等内容,并指出了未来生物修复技术在修复原理、针对性、经济性、风险、强化措施、应用范围等方面的发展方向。
Related articles in CNKI and Web of science from 2006 to 2015 are researched and analyzed by using the statistics method,and the research progress of soil bioremediation technology of China in this decade are summarized. The result shows that the research enthusiasm of soil bioremediation technology is constantly rising; heavy metal polluted soil and organic pollutants soil are the main research objects; the overall studies can be divided into theoretical research and experimental research and the latter occupies the most. Based on this,the principle,advantages and disadvantages,and research status of bioremediation technology are briefly introduced at six current main research aspects,including phytoremediation,microbial remediation,fauna remediation,biological materials remediation,biological combined remediation,and the remediation combined by physical,chemical and biological technology. Development directions on repair principle,pertinence,economic,risk,strengthen measures,application area of bioremediation technology are put forward.
Related articles in CNKI and Web of science from 2006 to 2015 are researched and analyzed by using the statistics method,and the research progress of soil bioremediation technology of China in this decade are summarized. The result shows that the research enthusiasm of soil bioremediation technology is constantly rising; heavy metal polluted soil and organic pollutants soil are the main research objects; the overall studies can be divided into theoretical research and experimental research and the latter occupies the most. Based on this,the principle,advantages and disadvantages,and research status of bioremediation technology are briefly introduced at six current main research aspects,including phytoremediation,microbial remediation,fauna remediation,biological materials remediation,biological combined remediation,and the remediation combined by physical,chemical and biological technology. Development directions on repair principle,pertinence,economic,risk,strengthen measures,application area of bioremediation technology are put forward.
引文
[1]WANG Xiaoyu.Characteristic and environmental risk assessment of heavy metals in farmland soil of based on speciation analysis[J].Informatics and Management Science,2013,204:213-220.
[2]刘志培,刘双江.我国污染土壤生物修复技术的发展及现状[J].生物工程学报,2015,31(6):901-916.
[3]侯晓龙,常青山,刘国锋,等.Pb超富集植物金丝草(Pogonatherum crinitum)、柳叶箬(Lsache globosa)[J].环境工程学报,2012,6(3):989-994.
[4]刘周莉,何兴元,陈玮.忍冬——一种新发现的镉超富集植物[J].生态环境学报,2013,22(4):666-670.
[5]李硕,刘云国,李永丽,等.水葱对镉的超富集作用及其用于植物修复的潜力(英文)[J].广西植物,2007,27(2):180-185.
[6]ZHANG Xingfeng,XIA Hanping,LI Zhian,et al.Potential of four forage grasses in remediation of Cd and Zn contaminated soils[J].Bioresource Technology,2010,101(6):2063-2066.
[7]ZHANG Fujin,ZHANG Xinxin,HOU Dekun,et al.Potentialities of maize on the removal of organochlorine pesticides from contaminated soils[J].Agricultural Science&Technology,2014,15(12):2127-2134,2191.
[8]王奋飞.将蜈蚣草植物螯合肽合成酶基因(Pv PCS1)转入拟南芥中的研究[D].南昌:南昌大学,2007.
[9]CHEN Yunan,CHI Wenchang,TRINH N N,et al.Transcriptome profiling and physiological studies reveal a major role for aromatic amino acids in mercury stress tolerance in rice seedings[J].PLo S One,2014,9(5):1-11.
[10]肖维林.砷超富集植物蜈蚣草产后处置及其资源化研究[D].南昌:南昌大学,2007.
[11]杨建广,杨建英,彭长宏,等.从超富集植物Berkheya coddii中回收镍[J].中国有色金属学报,2009,19(4):754-759.
[12]邓自祥.超富集植物收获物“水热液化”脱除重金属及生物油转化研究[D].长沙:中南大学,2014.
[13]贾伟涛,吕素莲,冯娟娟,等.利用能源植物治理土壤重金属污染[J].中国生物工程杂志,2015,35(1):88-95.
[14]潘雨齐,黄仁志,雷鸣,等.经济作物修复重金属污染土壤的研究现状与应用前景[J].中国麻业科学,2015,37(1):35-39.
[15]周建利,邵乐,朱凰榕,等.间套种及化学强化修复重金属污染酸性土壤——长期田间试验[J].土壤学报,2014,51(5):1056-1065.
[16]贾永霞,张春梅,方继宇,等.细叶百日草对镉的生长响应及富集特征研究[J].核农学报,2015,29(8):1577-1582.
[17]李翠兰,邵泽强,王玉军,等.几种花卉植物对铅富集特征的研究[J].水土保持学报,2010,24(4):127-130,134.
[18]胡婷,谷洁,甄丽莎,等.石油污染土壤中苯酚降解菌ad049的鉴定及降解特性[J].生态学报,2014,34(5):1140-1148.
[19]CHAI Liyuan,HUANG Shunhong,YANG Zhihui,et al.Cr(VI)remediation by indigenous bacteria in soils contaminated by chromium-containing slag[J].Journal of Hazardous Materials,2009,167(1-3):516-522.
[20]ZHANG Jun.ZHOU Wuxian.LIU Bingbing,et al.Anaerobic arsenite oxidation by an autotrophic arsenite-oxidizing bacterium from an arsenic-contaminated paddy soil[J].Environment Science Technology,2015,49(10):5956-5964.
[21]付瑞敏,康治华,彭瑞强,等.高效石油烃降解菌CQ6的分离鉴定及He-Ne激光诱变[J].江苏农业科学,2015,43(7):404-407.
[22]谢云.高效石油烷烃降解菌及原油降解基因工程菌构建研究[D].西安:西北大学,2014.
[23]张军,肖潇,王敦球,等.一株嗜酸氧化亚铁硫杆菌的分离及沥滤效果研究[J].环境污染与防治,2014,36(3):1-7,13.
[24]和苗苗,俞一统,华玉妹,等.生物淋滤法对污泥中Zn Cu的去除效果及污泥养分损失研究[J].农业环境科学学报,2006,25(5):1359-1364.
[25]原武斌.污泥生物淋滤过程中Cd及Pb形态变化研究[J].山西建筑,2011,37(31):110-111.
[26]谭险夷.丝状菌对生物淋滤去除底泥中重金属的促进作用[D].长沙:湖南大学,2011.
[27]李洁.黑曲霉(Aspergillus niger)的分离鉴定及其在重金属污染土壤异养生物淋滤处理中的作用[D].青岛:中国海洋大学,2012.
[28]方迪,周立祥.温度对制革污泥的生物淋滤除铬效果的影响[J].环境科学,2006,27(7):1455-1458.
[29]任婉侠,李培军,李晓军.黑曲霉产酸淋滤去除污染土壤中的重金属[J].中国环境科学,2008,28(8):736-741.
[30]崔雨琪,方迪,毕文龙,等.一株黑曲霉的分离鉴定及其对土壤重金属的生物浸出效果[J].应用与环境生物学报,2014,20(3):420-425.
[31]吴涛,依艳丽,谢文军,等.产生物表面活性剂耐盐菌的筛选鉴定及其对石油污染盐渍化土壤的修复作用[J].环境科学学报,2013,33(12):3359-3367.
[32]杨卓,李术娜,李博文,等.接种微生物对土壤中Cd、Pb、Zn生物有效性的影响[J].土壤学报,2009,46(4):670-675.
[33]YI H,DAVID E C.Biostimulation of PAH degradation with plants containing high concentrations of linoleic acid[J].Environment Science Technology,2007,41(12):4382-4388.
[34]周笑白.植物—丛枝菌根真菌修复多环芳烃污染土壤[D].大连:大连理工大学,2011.
[35]王发园,林先贵.丛枝菌根在植物修复重金属污染土壤中的作用[J].生态学报,2007,27(2):793-801.
[36]CHII Ching Tseng,JUI Yann Wang,LEI Yang.Accumulation of copper,lead,and zinc by in situ plants inoculated with AM fungi in multicontaminated soil[J].Communications in Soil Science and Plant Analysis,2009,40(21-22):3367-3386.
[37]祖艳群,卢鑫,湛方栋,等.丛枝菌根真菌在土壤重金属污染植物修复中的作用及机理研究进展[J].植物生理学报,2015,51(10):1538-1548.
[38]向昌国,杨世俊,聂琴.土壤动物对土壤环境的生物指示作用[J].中国农学通报,2007,23(4):364-367.
[39]颜增光,何巧力,李发生.蚯蚓生态毒理试验在土壤污染风险评价中的应用[J].环境科学研究,2007,20(1):134-142.
[40]李志强,王彬彬,聂俊华.铜污染对蚯蚓体重的影响与其铜富集特征[J].生态学报,2009,29(3):1408-1414.
[41]WU Gang,KANG Huibiao,ZHANG Xiaoyang,et al.A critical review on the bio-removal of hazardous heavy metals from contaminated soils:Issues,progress,eco-environmental concerns and opportunities[J].Journal of Hazardous Materials,2010,173(1-3):1-8.
[42]白建峰,秦华,王景伟,等.蚯蚓和发酵牛粪促进南瓜苗修复PAHs污染农田土壤[J].农业工程学报,2012,28(10):208-213.
[43]马淑敏,孙振钧,王冲.蚯蚓-甜高粱复合系统对土壤镉污染的修复作用及机理初探[J].农业环境科学学报,2008,27(1):133-138.
[44]刘魏魏,尹睿,林先贵,等.生物表面活性剂强化微生物修复多环芳烃污染土壤的初探[J].土壤学报,2010,47(6):1118-1125.
[45]石福贵,郝秀珍,周东美,等.鼠李糖脂与EDDS强化黑麦草修复重金属复合污染土壤[J].农业环境科学学报,2009,28(9):1818-1823.
[46]朱清清,邵超英,张琢,等.生物表面活性剂皂角苷增效去除土壤中重金属的研究[J].环境科学学报,2010,30(12):2491-2498.
[47]卫泽斌,陈晓红,吴启堂,等.可生物降解螯合剂GLDA诱导东南景天修复重金属污染土壤的研究[J].环境科学,2015,36(5):1864-1869.
[48]刘晓娜,赵中秋,陈志霞,等.螯合剂、菌根联合植物修复重金属污染土壤研究进展[J].环境科学与技术,2011,34(12H):127-133.
[49]沈莉萍,宗良纲,蒋培,等.螯合剂和泥炭对苎麻吸收土壤镉的影响[J].环境科学,2009,30(9):2767-2772.
[50]张婷.植物激素协同螯合剂强化植物修复土壤重金属污染[D].厦门:集美大学,2012.
[51]韩梅,籍国东,倪晋仁.无机盐强化烷基多苷清洗石油污染土壤的机理[J].物理化学学报,2009,25(10):2026-2033.
[52]刘霞,王建涛,张萌,等.螯合剂和生物表面活性剂对Cu、Pb污染塿土的淋洗修复[J].环境科学,2013,34(4):1590-1597.
[53]唐浩,王敏,刘钊钊,等.APCAs在重金属污染土壤修复中的应用综述[J].上海交通大学学报(农业科学版),2013,31(2):44-52.
[54]曹英兰,陈丽娜,张金丽,等.牡蛎壳粉对酸性土壤的修复及其对镉的钝化作用研究[J].环境科学与技术,2016,39(1):178-182.
[55]HAO Xiaowei,HUANG Yizong,CUI Yanshan.Effect of bone char addition on the fractionation and bio-accessibility of Pb and Zn in combined contaminated soi1[J].Acta Ecologica Sinica,2010,30(2):118-122.
[56]孙红文.生物炭与环境[M].北京:化学工业出版社,2013:1-3.
[57]高瑞丽,朱俊,汤帆,等.水稻秸秆生物炭对镉、铅复合污染土壤中重金属形态转化的短期影响[J].环境科学学报,2016,36(1):251-256.
[58]刘旻慧,王震宇,陈蕾,等.花生壳及中药渣混合生物炭对铅污染土壤的修复研究[J].中国海洋大学学报(自然科学版),2016,46(1):101-107.
[59]王章鸿,郭海艳,沈飞,等.蚯蚓粪便制备生物炭及其对罗丹明B吸附的研究[J].环境科学学报,2015,35(10):3170-3177.
[60]YANG Quan,TU Shuxin,WANG Guijing,et al.Effectiveness of applying arsenate reducing bacteria to enhance arsenic removal from polluted soils by Pteris Vittata L[J].International Journal of Phytoremediation.2012,14(1):89-99.
[61]XU Yang,SUN Guangdong,JIN Jianghua,et al.Successful bioremediation of an aged and heavily contaminated soil using a microbial/plant combination strategy[J].Journal of Hazardous Material,2014,264:430-438.
[62]周际海,袁颖红,朱志保,等.土壤有机污染物生物修复技术研究进展[J].生态环境学报,2015,24(2):343-351.
[63]卓胜,苏嘉欣,黎华寿,等.黑麦草-菌根-蚯蚓对多氯联苯污染土壤的联合修复效应[J].环境科学学报,2011,31(1):150-157.
[64]牛秋雅,曾光明,牛一乐,等.臭氧预氧化-堆肥去除污染土壤中菲实验研究[J].环境科学学报,2009,29(11):2352-2358.
[65]赵庆节.土壤电动修复中匀强电场对土壤细菌群落的影响[J].安徽农业科学,2011,39(19):11551-11554.
[2]刘志培,刘双江.我国污染土壤生物修复技术的发展及现状[J].生物工程学报,2015,31(6):901-916.
[3]侯晓龙,常青山,刘国锋,等.Pb超富集植物金丝草(Pogonatherum crinitum)、柳叶箬(Lsache globosa)[J].环境工程学报,2012,6(3):989-994.
[4]刘周莉,何兴元,陈玮.忍冬——一种新发现的镉超富集植物[J].生态环境学报,2013,22(4):666-670.
[5]李硕,刘云国,李永丽,等.水葱对镉的超富集作用及其用于植物修复的潜力(英文)[J].广西植物,2007,27(2):180-185.
[6]ZHANG Xingfeng,XIA Hanping,LI Zhian,et al.Potential of four forage grasses in remediation of Cd and Zn contaminated soils[J].Bioresource Technology,2010,101(6):2063-2066.
[7]ZHANG Fujin,ZHANG Xinxin,HOU Dekun,et al.Potentialities of maize on the removal of organochlorine pesticides from contaminated soils[J].Agricultural Science&Technology,2014,15(12):2127-2134,2191.
[8]王奋飞.将蜈蚣草植物螯合肽合成酶基因(Pv PCS1)转入拟南芥中的研究[D].南昌:南昌大学,2007.
[9]CHEN Yunan,CHI Wenchang,TRINH N N,et al.Transcriptome profiling and physiological studies reveal a major role for aromatic amino acids in mercury stress tolerance in rice seedings[J].PLo S One,2014,9(5):1-11.
[10]肖维林.砷超富集植物蜈蚣草产后处置及其资源化研究[D].南昌:南昌大学,2007.
[11]杨建广,杨建英,彭长宏,等.从超富集植物Berkheya coddii中回收镍[J].中国有色金属学报,2009,19(4):754-759.
[12]邓自祥.超富集植物收获物“水热液化”脱除重金属及生物油转化研究[D].长沙:中南大学,2014.
[13]贾伟涛,吕素莲,冯娟娟,等.利用能源植物治理土壤重金属污染[J].中国生物工程杂志,2015,35(1):88-95.
[14]潘雨齐,黄仁志,雷鸣,等.经济作物修复重金属污染土壤的研究现状与应用前景[J].中国麻业科学,2015,37(1):35-39.
[15]周建利,邵乐,朱凰榕,等.间套种及化学强化修复重金属污染酸性土壤——长期田间试验[J].土壤学报,2014,51(5):1056-1065.
[16]贾永霞,张春梅,方继宇,等.细叶百日草对镉的生长响应及富集特征研究[J].核农学报,2015,29(8):1577-1582.
[17]李翠兰,邵泽强,王玉军,等.几种花卉植物对铅富集特征的研究[J].水土保持学报,2010,24(4):127-130,134.
[18]胡婷,谷洁,甄丽莎,等.石油污染土壤中苯酚降解菌ad049的鉴定及降解特性[J].生态学报,2014,34(5):1140-1148.
[19]CHAI Liyuan,HUANG Shunhong,YANG Zhihui,et al.Cr(VI)remediation by indigenous bacteria in soils contaminated by chromium-containing slag[J].Journal of Hazardous Materials,2009,167(1-3):516-522.
[20]ZHANG Jun.ZHOU Wuxian.LIU Bingbing,et al.Anaerobic arsenite oxidation by an autotrophic arsenite-oxidizing bacterium from an arsenic-contaminated paddy soil[J].Environment Science Technology,2015,49(10):5956-5964.
[21]付瑞敏,康治华,彭瑞强,等.高效石油烃降解菌CQ6的分离鉴定及He-Ne激光诱变[J].江苏农业科学,2015,43(7):404-407.
[22]谢云.高效石油烷烃降解菌及原油降解基因工程菌构建研究[D].西安:西北大学,2014.
[23]张军,肖潇,王敦球,等.一株嗜酸氧化亚铁硫杆菌的分离及沥滤效果研究[J].环境污染与防治,2014,36(3):1-7,13.
[24]和苗苗,俞一统,华玉妹,等.生物淋滤法对污泥中Zn Cu的去除效果及污泥养分损失研究[J].农业环境科学学报,2006,25(5):1359-1364.
[25]原武斌.污泥生物淋滤过程中Cd及Pb形态变化研究[J].山西建筑,2011,37(31):110-111.
[26]谭险夷.丝状菌对生物淋滤去除底泥中重金属的促进作用[D].长沙:湖南大学,2011.
[27]李洁.黑曲霉(Aspergillus niger)的分离鉴定及其在重金属污染土壤异养生物淋滤处理中的作用[D].青岛:中国海洋大学,2012.
[28]方迪,周立祥.温度对制革污泥的生物淋滤除铬效果的影响[J].环境科学,2006,27(7):1455-1458.
[29]任婉侠,李培军,李晓军.黑曲霉产酸淋滤去除污染土壤中的重金属[J].中国环境科学,2008,28(8):736-741.
[30]崔雨琪,方迪,毕文龙,等.一株黑曲霉的分离鉴定及其对土壤重金属的生物浸出效果[J].应用与环境生物学报,2014,20(3):420-425.
[31]吴涛,依艳丽,谢文军,等.产生物表面活性剂耐盐菌的筛选鉴定及其对石油污染盐渍化土壤的修复作用[J].环境科学学报,2013,33(12):3359-3367.
[32]杨卓,李术娜,李博文,等.接种微生物对土壤中Cd、Pb、Zn生物有效性的影响[J].土壤学报,2009,46(4):670-675.
[33]YI H,DAVID E C.Biostimulation of PAH degradation with plants containing high concentrations of linoleic acid[J].Environment Science Technology,2007,41(12):4382-4388.
[34]周笑白.植物—丛枝菌根真菌修复多环芳烃污染土壤[D].大连:大连理工大学,2011.
[35]王发园,林先贵.丛枝菌根在植物修复重金属污染土壤中的作用[J].生态学报,2007,27(2):793-801.
[36]CHII Ching Tseng,JUI Yann Wang,LEI Yang.Accumulation of copper,lead,and zinc by in situ plants inoculated with AM fungi in multicontaminated soil[J].Communications in Soil Science and Plant Analysis,2009,40(21-22):3367-3386.
[37]祖艳群,卢鑫,湛方栋,等.丛枝菌根真菌在土壤重金属污染植物修复中的作用及机理研究进展[J].植物生理学报,2015,51(10):1538-1548.
[38]向昌国,杨世俊,聂琴.土壤动物对土壤环境的生物指示作用[J].中国农学通报,2007,23(4):364-367.
[39]颜增光,何巧力,李发生.蚯蚓生态毒理试验在土壤污染风险评价中的应用[J].环境科学研究,2007,20(1):134-142.
[40]李志强,王彬彬,聂俊华.铜污染对蚯蚓体重的影响与其铜富集特征[J].生态学报,2009,29(3):1408-1414.
[41]WU Gang,KANG Huibiao,ZHANG Xiaoyang,et al.A critical review on the bio-removal of hazardous heavy metals from contaminated soils:Issues,progress,eco-environmental concerns and opportunities[J].Journal of Hazardous Materials,2010,173(1-3):1-8.
[42]白建峰,秦华,王景伟,等.蚯蚓和发酵牛粪促进南瓜苗修复PAHs污染农田土壤[J].农业工程学报,2012,28(10):208-213.
[43]马淑敏,孙振钧,王冲.蚯蚓-甜高粱复合系统对土壤镉污染的修复作用及机理初探[J].农业环境科学学报,2008,27(1):133-138.
[44]刘魏魏,尹睿,林先贵,等.生物表面活性剂强化微生物修复多环芳烃污染土壤的初探[J].土壤学报,2010,47(6):1118-1125.
[45]石福贵,郝秀珍,周东美,等.鼠李糖脂与EDDS强化黑麦草修复重金属复合污染土壤[J].农业环境科学学报,2009,28(9):1818-1823.
[46]朱清清,邵超英,张琢,等.生物表面活性剂皂角苷增效去除土壤中重金属的研究[J].环境科学学报,2010,30(12):2491-2498.
[47]卫泽斌,陈晓红,吴启堂,等.可生物降解螯合剂GLDA诱导东南景天修复重金属污染土壤的研究[J].环境科学,2015,36(5):1864-1869.
[48]刘晓娜,赵中秋,陈志霞,等.螯合剂、菌根联合植物修复重金属污染土壤研究进展[J].环境科学与技术,2011,34(12H):127-133.
[49]沈莉萍,宗良纲,蒋培,等.螯合剂和泥炭对苎麻吸收土壤镉的影响[J].环境科学,2009,30(9):2767-2772.
[50]张婷.植物激素协同螯合剂强化植物修复土壤重金属污染[D].厦门:集美大学,2012.
[51]韩梅,籍国东,倪晋仁.无机盐强化烷基多苷清洗石油污染土壤的机理[J].物理化学学报,2009,25(10):2026-2033.
[52]刘霞,王建涛,张萌,等.螯合剂和生物表面活性剂对Cu、Pb污染塿土的淋洗修复[J].环境科学,2013,34(4):1590-1597.
[53]唐浩,王敏,刘钊钊,等.APCAs在重金属污染土壤修复中的应用综述[J].上海交通大学学报(农业科学版),2013,31(2):44-52.
[54]曹英兰,陈丽娜,张金丽,等.牡蛎壳粉对酸性土壤的修复及其对镉的钝化作用研究[J].环境科学与技术,2016,39(1):178-182.
[55]HAO Xiaowei,HUANG Yizong,CUI Yanshan.Effect of bone char addition on the fractionation and bio-accessibility of Pb and Zn in combined contaminated soi1[J].Acta Ecologica Sinica,2010,30(2):118-122.
[56]孙红文.生物炭与环境[M].北京:化学工业出版社,2013:1-3.
[57]高瑞丽,朱俊,汤帆,等.水稻秸秆生物炭对镉、铅复合污染土壤中重金属形态转化的短期影响[J].环境科学学报,2016,36(1):251-256.
[58]刘旻慧,王震宇,陈蕾,等.花生壳及中药渣混合生物炭对铅污染土壤的修复研究[J].中国海洋大学学报(自然科学版),2016,46(1):101-107.
[59]王章鸿,郭海艳,沈飞,等.蚯蚓粪便制备生物炭及其对罗丹明B吸附的研究[J].环境科学学报,2015,35(10):3170-3177.
[60]YANG Quan,TU Shuxin,WANG Guijing,et al.Effectiveness of applying arsenate reducing bacteria to enhance arsenic removal from polluted soils by Pteris Vittata L[J].International Journal of Phytoremediation.2012,14(1):89-99.
[61]XU Yang,SUN Guangdong,JIN Jianghua,et al.Successful bioremediation of an aged and heavily contaminated soil using a microbial/plant combination strategy[J].Journal of Hazardous Material,2014,264:430-438.
[62]周际海,袁颖红,朱志保,等.土壤有机污染物生物修复技术研究进展[J].生态环境学报,2015,24(2):343-351.
[63]卓胜,苏嘉欣,黎华寿,等.黑麦草-菌根-蚯蚓对多氯联苯污染土壤的联合修复效应[J].环境科学学报,2011,31(1):150-157.
[64]牛秋雅,曾光明,牛一乐,等.臭氧预氧化-堆肥去除污染土壤中菲实验研究[J].环境科学学报,2009,29(11):2352-2358.
[65]赵庆节.土壤电动修复中匀强电场对土壤细菌群落的影响[J].安徽农业科学,2011,39(19):11551-11554.