环境中金属离子与有机污染物复合污染研究进展
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摘要
金属离子与有机污染物可通过多种方式同时存在于环境中,形成复合污染。由于金属离子与有机污染物的相互作用,二者的物理化学性质、迁移转化规律以及生态毒性效应都发生了变化,给污染物的水处理过程以及污染物的生态毒性评估带来极大的挑战。综述了环境中金属-有机物复合污染的来源、金属离子与有机污染物之间的相互作用、共存对二者去除效率的影响以及复合污染的生态毒性研究,以期为复合污染的防治与处理工艺研究提供参考。
Metal ions and organic pollutants can coexist in the environment in a variety of ways and therefore,generate combined pollution.Because of the interaction between metal ions and organic pollutants,their physicochemical property,transformation,and eco-toxicity would change,which gives rise to great challenge for the water treatment process and ecological toxicity assessment of these pollutants.This paper reviews the sources of combined pollution,the interaction between metal ions and organic pollutants,the influences of coexistence on the removal efficiency of both metal ions and organic pollutants,and the studies on ecological toxicity of combined pollution,which aims to provide a theoretical reference for the prevention and treatment of combined pollution.
Metal ions and organic pollutants can coexist in the environment in a variety of ways and therefore,generate combined pollution.Because of the interaction between metal ions and organic pollutants,their physicochemical property,transformation,and eco-toxicity would change,which gives rise to great challenge for the water treatment process and ecological toxicity assessment of these pollutants.This paper reviews the sources of combined pollution,the interaction between metal ions and organic pollutants,the influences of coexistence on the removal efficiency of both metal ions and organic pollutants,and the studies on ecological toxicity of combined pollution,which aims to provide a theoretical reference for the prevention and treatment of combined pollution.
引文
[1]王晓岚,钱娇娟,刘沁雨,等.农药-重金属铅复合污染生态毒理效应研究进展[J].安徽农业科学,2018,46(6):21-25.WANG X L,QIAN J J,LIU Q Y,et al.Research progress on ecotoxicological effects of compound pollution of pesticides and heavy metals[J].Journal of Anhui Agricultural Sciences,2018,46(6):21-25.(in Chinese)
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[34]SUN Y Y,YUE Q Y,GAO B Y,et al.Adsorption and cosorption of ciprofloxacin and Ni(II)on activated carbon-mechanism study[J].Journal of the Taiwan Institute of Chemical Engineers,2014,45(2):681-688.
[35]TANG X M,ZHENG H L,TENG H K,et al.Chemical coagulation process for the removal of heavy metals from water:A review[J].Desalination&Water Treatment,2016,57(4):1733-1748.
[36]HANKINS N P,LU N,HILAL N.Enhanced removal of heavy metal ions bound to humic acid by polyelectrolyte flocculation[J].Separation&Purification Technology,2006,51(1):48-56.
[37]刘友亮,曹长春,宁诗婷,等.混凝工艺去除重金属-腐殖酸有效性研究[J].工业安全与环保,2015(4):52-54.LIU Y L,CAO C C,NING S T,et al.Research on the effects of coagulation process on the removal of humic acid and heavy metal[J].Industrial Safety and Environmental Protection,2015(4):52-54.(in Chinese)
[38]陈鑫.拟除虫菊酯类农药与重金属的复合毒性对高毒沉积物毒性评价的影响及机制研究[D].广州:中国科学院研究生院(广州地球化学研究所),2016.CHEN X.Mechanism of joint toxicity of pyrethroid insecticides and metals in toxicity evaluation for highly toxic sediments[D].Guangzhou Institute of Geochemistry,Chinese Academy of Sciences,Guangzhou,2016.(in Chinese)
[39]TANG B H,ZHU L Y,ZHOU Q X.Joint effects of Penta-BDE and heavy metals on Daphnia magna survival,its antioxidant enzyme activities and lipid peroxidation[J].Frontiers of Environmental Science&Engineering in China,2011,5(1):99-110.
[40]GAO M L,ZHOU Q,SONG W H,et al.Combined effects of oxytetracycline and Pb on earthworm Eisenia fetida[J].Environmental Toxicology&Pharmacology,2014,37(2):689-696.
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[2]EZE F I,AJALI U,UKOHA P O.Synthesis,physicochemical properties,and antimicrobial studies of iron(III)complexes of ciprofloxacin,cloxacillin,and amoxicillin[J].International Journal of Medicinal Chemistry,2014(39):735602.
[3]方小满,施雯,李非里,等.溶解性有机质对水中重金属生物有效性的影响研究[J].环境科技,2016,29(2):59-63.FANG X M,SHI W,LI F L,et al.A review for effect of dissolved organic matter on the bioavailability of heavy metals in aquatic environment[J].Environmental Science and Technology,2016,29(2):59-63.(in Chinese)
[4]WANG H,YAO H,SUN P Z,et al.Transformation of tetracycline antibiotics and Fe(II)and Fe(III)species induced by their complexation[J].Environmental Science&Technology,2016,50(1):145-153.
[5]QIN X P,LIU F,WANG G C,et al.Adsorption of levofloxacin onto goethite:effects of pH,calcium and phosphate[J].Colloids&Surfaces B:Biointerfaces,2014,116(14):591-596.
[6]WEI X X,CHEN J W,XIE Q,et al.Photochemical behavior of antibiotics impacted by complexation effects of concomitant metals:a case for ciprofloxacin and Cu(II)[J].Environmental Science:Processes&Impacts,2015,17(7):1220-1227.
[7]CHATTOPADHYAY M K.Use of antibiotics as feed additives:a burning question[J].Frontiers in Microbiology,2014,5:334.
[8]DAWOOD M A O,KOSHIO S,ESTEBAN M.Beneficial roles of feed additives as immunostimulants in aquaculture:A review[J].Reviews in Aquaculture,2018(10):950-974.
[9]陈军平,杨艳丽,吴志强,等.江西省畜禽养殖废水及环境中抗生素残留现状调查[J].安徽农业科学,2015,43(31):224-227,230.CHEN J P,YANG Y L,WU Z Q,et al.Pollution of antibiotics in livestock wastewater and the environmental water in Jiangxi Province[J].Journal of Anhui Agricultural Sciences,2015,43(31):224-227,230.(in Chinese)
[10]许馨月.北京郊区小规模养猪场废水污染调查及处理研究[D].北京:北京林业大学,2016.XU X Y.Pollution investigation and treatment of swine wastewater from small scale pig farms in Beijing suburbs[D].Beijing:Beijing Forestry University,2016.(in Chinese)
[11]QIAN M R,WU H Z,WANG J M,et al.Occurrence of trace elements and antibiotics in manure-based fertilizers from the Zhejiang Province of China[J].Science of the Total Environment,2016,559:174-181.
[12]潘霞,陈励科,卜元卿,等.畜禽有机肥对典型蔬果地土壤剖面重金属与抗生素分布的影响[J].生态与农村环境学报,2012,28(5):518-525.PAN X,CHEN L K,BU Y Q,et al.Effects of livestock manure on distribution of heavy metals and antibiotics in soil profiles of typical vegetable fields and orchards[J].Journal of Ecology and Rural Environment,2012,28(5):518-525.(in Chinese)
[13]区家敏,冯小琼,刘郁葱,等.珠江三角洲机动车挥发性有机物排放化学成分谱研究[J].环境科学学报,2014,34(4):826-834.QU J M,FENG X Q,LIU Y C,et al.Source characteristics of VOCs emissions from vehicular exhaust in the Pearl River Delta region[J].Acta Scientiae Circumstantiae,2014,34(4):826-834.(in Chinese)
[14]王伯光,杨嘉慧,周炎,等.广州市机动车尾气中金属元素的排放特征[J].中国环境科学,2008,28(5):389-394.WANG B G,YANG J H,ZHOU Y,et al.The emission characteristics of metal elements in urban motor vehicles exhaust of Guangzhou City[J].China Environmental Science,2008,28(5):389-394.(in Chinese)
[15]WERNER J J,ARNOLD W A,MCNEILL K.Water hardness as a photochemical parameter:tetracycline photolysis as a function of calcium concentration,magnesium concentration,and pH[J].Environmental Science&Technology,2006,40(23):7236-7241.
[16]XIE H P,LIU T,HOU Z M,et al.Using electrochemical process to mineralize CO2and separate Ca2+/Mg2+ions from hard water to produce high valueadded carbonates[J].Environmental Earth Sciences,2015,73(11):6881-6890.
[17]黄翔峰,熊永娇,彭开铭,等.金属离子络合对抗生素去除特性的影响研究进展[J].环境化学,2016,35(1):133-140.HUANG X F,XIONG Y Y,PENG K M,et al.The progress of antibiotics removal performance under the complexion effect of metal ions[J].Environmental Chemistry,2016,35(1):133-140.(in Chinese)
[18]WANG H,YAO H,SUN P Z,et al.Oxidation of tetracycline antibiotics induced by Fe(III)ions without light irradiation[J].Chemosphere,2015,119(2):1255-1261.
[19]汪晨.水中典型药物与重金属的络合行为[D].南京:东南大学,2016.WANG C.Complexation behavior of typical pharmaceutical antibiotics and heavy metals in water[D].Nanjing:Southeast University,2016.(in Chinese)
[20]吴维昌,冯洪清,吴开治.标准电极电位数据手册[M].北京:科学出版社,1991.WU W C,FENG H Q,WU K Z.Standard electrode potential data manual[M].Beijing:Science Press,1991.(in Chinese)
[21]BRILLAULT J,TEWES F,COUET W,et al.In vitro biopharmaceutical evaluation of ciprofloxacin/metal cation complexes for pulmonary administration[J].European Journal of Pharmaceutical Sciences,2017,97:92-98.
[22]PULICHARLA R,HEGDE K,BRAR S K,et al.Tetracyclines metal complexation:Significance and fate of mutual existence in the environment[J].Environmental Pollution,2017,221:1-14.
[23]SHI Z Q,WANG P,PENG L F,et al.Kinetics of heavy metal dissociation from natural organic matter:roles of the carboxylic and phenolic sites[J].Environmental Science&Technology,2016,50(19):10476-10484.
[24]ZHANG H Q,XIE H B,CHEN J W,et al.Effects of Cu2+complexation on the structure and hydrolysis of cephradine using density functional theory[J].Environmental Chemistry,2015,34(9):1594-1600.
[25]HUANG T Y,FANG C,QIAN Y J,et al.Insight into Mn(II)-mediated transformation ofβ-lactam antibiotics:The overlooked hydrolysis[J].Chemical Engineering Journal,2017,321:662-668.
[26]CHEN J B,WANG Y,QIAN Y J,et al.Fe(III)-promoted transformation ofβ-lactam antibiotics:Hydrolysis vs oxidation[J].Journal of Hazardous Materials,2017,335:117-124.
[27]CHEN W R,HUANG C H.Transformation of tetracyclines mediated by Mn(II)and Cu(II)ions in the presence of oxygen[J].Environmental Science&Technology,2009,43(2):401-407.
[28]DU H X,LO P K,HU Z M,et al.Lewis acidactivated oxidation of alcohols by permanganate[J].Chemical Communications,2011,47(25):7143-7145.
[29]GU X Y,TAN Y Y,TONG F,et al.Surface complexation modeling of coadsorption of antibiotic ciprofloxacin and Cu(II)and onto goethite surfaces[J].Chemical Engineering Journal,2015,269:113-120.
[30]PUNAMIYA P,SARKAR D,RAKSHIT S,et al.Effect of solution properties,competing ligands,and complexing metal on sorption of tetracyclines on Albased drinking water treatment residuals[J].Environmental Science&Pollution Research,2015,22(10):7508-7518.
[31]WANG Z Y,DUAN L,ZHU D Q,et al.Effects of Cu(II)and Ni(II)ions on adsorption of tetracycline to functionalized carbon nanotubes[J].Journal of Zhejiang University:Science A,2014,15(8):653-661.
[32]CHEN Y,LI H,WANG Z P,et al.Photoproducts of tetracycline and oxytetracycline involving self-sensitized oxidation in aqueous solutions:effects of Ca2+and Mg2+[J].Journal of Environmental Sciences,2011,23(10):1634-1639.
[33]LU M C,CHEN J N,LIN H D.The influence of metal ions on the photocatalytic oxidation of 2-chlorophenol in aqueous titanium dioxide suspensions[J].Journal of Environmental Science&Health:Part B,1999,34(1):17-32.
[34]SUN Y Y,YUE Q Y,GAO B Y,et al.Adsorption and cosorption of ciprofloxacin and Ni(II)on activated carbon-mechanism study[J].Journal of the Taiwan Institute of Chemical Engineers,2014,45(2):681-688.
[35]TANG X M,ZHENG H L,TENG H K,et al.Chemical coagulation process for the removal of heavy metals from water:A review[J].Desalination&Water Treatment,2016,57(4):1733-1748.
[36]HANKINS N P,LU N,HILAL N.Enhanced removal of heavy metal ions bound to humic acid by polyelectrolyte flocculation[J].Separation&Purification Technology,2006,51(1):48-56.
[37]刘友亮,曹长春,宁诗婷,等.混凝工艺去除重金属-腐殖酸有效性研究[J].工业安全与环保,2015(4):52-54.LIU Y L,CAO C C,NING S T,et al.Research on the effects of coagulation process on the removal of humic acid and heavy metal[J].Industrial Safety and Environmental Protection,2015(4):52-54.(in Chinese)
[38]陈鑫.拟除虫菊酯类农药与重金属的复合毒性对高毒沉积物毒性评价的影响及机制研究[D].广州:中国科学院研究生院(广州地球化学研究所),2016.CHEN X.Mechanism of joint toxicity of pyrethroid insecticides and metals in toxicity evaluation for highly toxic sediments[D].Guangzhou Institute of Geochemistry,Chinese Academy of Sciences,Guangzhou,2016.(in Chinese)
[39]TANG B H,ZHU L Y,ZHOU Q X.Joint effects of Penta-BDE and heavy metals on Daphnia magna survival,its antioxidant enzyme activities and lipid peroxidation[J].Frontiers of Environmental Science&Engineering in China,2011,5(1):99-110.
[40]GAO M L,ZHOU Q,SONG W H,et al.Combined effects of oxytetracycline and Pb on earthworm Eisenia fetida[J].Environmental Toxicology&Pharmacology,2014,37(2):689-696.
[41]王琳,潘鲁青,苗晶晶.汞、镉和苯并[α]芘、多氯联苯对栉孔扇贝幼贝单一与联合毒性的研究[J].海洋环境科学,2010,29(4):535-540.WANG L,PAN L Q,MIAO J J.Single and joint toxicity of mercury,cadmium and benzo[α]pyrene,polychlorinated biphenyls1254 for juvenile Chlamys farreri[J].Marine Environmental Science,2010,29(4):535-540.(in Chinese)
[42]PULICHARLA R,DAS R K,BRAR S K,et al.Toxicity of chlortetracycline and its metal complexes to model microorganisms in wastewater sludge[J].Science of the Total Environment,2015,532:669-675.
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