Journal of Henan Agricultural Sciences ›› 2024, Vol. 53 ›› Issue (3): 1-16.DOI: 10.15933/j.cnki.1004-3268.2024.03.001
• Reviews • Previous Articles Next Articles
ZHANG Hongwei1,CUI Bingjian2,LIU Chuncheng2
Received:
2023-11-25
Published:
2024-03-15
Online:
2024-04-18
张红伟1,崔丙健2,刘春成2
通讯作者:
刘春成(1986-),男,安徽界首人,助理研究员,博士,主要从事非常规水资源安全利用研究。E-mail:liuchuncheng986@sohu.com
作者简介:
张红伟(1984-),男,河北沧州人,工程师,本科,主要从事水文测验与水文情报预报工作。E-mail:zhw2891@163.com
基金资助:
CLC Number:
ZHANG Hongwei, CUI Bingjian, LIU Chuncheng. Advance in Biological Pollutants in Agricultural Irrigation with Reclaimed Water[J]. Journal of Henan Agricultural Sciences, 2024, 53(3): 1-16.
张红伟, 崔丙健, 刘春成. 再生水农业灌溉中生物污染物研究进展[J]. 河南农业科学, 2024, 53(3): 1-16.
Add to citation manager EndNote|Ris|BibTeX
URL: https://www.hnnykx.org.cn/EN/10.15933/j.cnki.1004-3268.2024.03.001
[1]HARDY D,CUBILLO F,HAN M,et al.Alternative water resources:A review of concepts,solutions and experiences[R].London,UK:International Water Association(IWA),Alternative Water Resources Cluster,2015. [2]高传昌,刘兴.城市非常规水资源的应用研究进展[J].灌溉排水学报,2007,26(S1):68‐70. GAO C C,LIU X.Research progress on application of urban unconventional water resources[J].Journal of Irrigation and Drainage,2007,26(S1):68‐70. [3]胡洪营,吴乾元,黄晶晶,等.再生水水质安全评价与保障原理[M].北京:科学出版社,2011. HU H Y,WU Q Y,HUANG J J,et al.The principle of safety evaluation and guarantee of recycled water quality[M].Beijing:Science Press,2011.
[4]国家质量监督检验检疫总局,中国国家标准化管理委员会.污水排入城镇下水道水质标准:GB/T 31962—2015[S].北京:中国标准出版社,2016.
[5]中华人民共和国建设部. 室外排水设计规范:GB 50014—2006[S].北京:中国计划出版社,2012.
[6]国家环境保护总局.污水综合排放标准:GB 8978—1996[S].北京:中国标准出版社,1998.
[7]曲久辉,赵进才,任南琪,等.城市污水再生与循环利用的关键基础科学问题[J].中国基础科学,2017,19(1):6‐12.
[8]刘晓君,陈诗祺,付汉良. 再生水回用公众参与意愿两阶段影响因素分析[J].中国环境管理,2022,14(3):97‐104.
[9]胡洪营,杜烨,吴乾元,等.系统工程视野下的再生水饮用回用安全保障体系构建[J].环境科学研究,2018,31(7):1163‐1173.
[10]国家质量监督检验检疫总局. 城市污水再生利用分类:GB/T 18919—2002[S].北京:中国标准出版社,2003. [11]US EPA.Guidelines for water reuse[R].Washington,DC:Environmental Protection Agency,2012.
[12]中华人民共和国住房和城乡建设部. 住房城乡建设部关于印发城镇污水再生利用技术指南(试行)的通知[EB/OL](. 2013‐01‐01)[2023‐10‐25].https://www.gov.cn/zwgk/2013‐01/10/content_2309062.htm. [14]WHO. Potable reuse:Guidance for producing safe drinking‐water[M].Geneva,Switzerland:WHO,2017.
[15]SOLLER J A,SCHOEN M E,BARTRAND T,et al.Estimated human health risks from exposure to recreational waters impacted by human and non‐human sources of faecal contamination[J].Water Research,2010,44(16):4674‐4691. [16]陈卓,崔琦,曹可凡,等.污水再生利用微生物控制标准及其制定方法探讨[J].环境科学,2021,42(5):2558‐2564.
[17]史亮亮,陆韻,陈梦豪,等.病原微生物基准对再生水检测的指导意义[J].环境工程,2021,39(3):22‐28.
[18]胡洪营,黄晶晶,孙艳,等.水质研究方法[M].北京:科学出版社,2015. [19]STELLACCI P,LIBERTI L,NOTARNICOLA M,et al.Hygienic sustainability of site location of wastewater treatment plants[J].Desalination,2010,253(1/2/3):51‐56. [20]HAMILTON K A,HAMILTON M T,JOHNSON W,et al.Health risks from exposure to Legionella in reclaimed water aerosols:Toilet flushing,spray irrigation,and cooling towers[J].Water Research,2018,134:261‐279. [21]YANG T,HAN Y P,LIU J X,et al.Aerosols from a wastewater treatment plant using oxidation ditch process:Characteristics,source apportionment,and exposure risks[J].Environmental Pollution,2019,250:627‐638. [22]LI D,ZENG S Y,GU A Z,et al.Inactivation,reactivation and regrowth of indigenous bacteria in reclaimed water after chlorine disinfection of a municipal wastewater treatment plant[J].Journal of Environmental Sciences,2013,25(7):1319‐1325. [23]FRACCHIA L,PIETRONAVE S,RINALDI M,et al.Site‐related airborne biological hazard and seasonal variations in two wastewater treatment plants[J].Water Research,2006,40(10):1985‐1994. [24]KRISTENSEN J M,NIERYCHLO M,ALBERTSEN M,et al.Bacteria from the genus Arcobacter are abundant in effluent from wastewater treatment plants[J].Applied and Environmental Microbiology,2020,86(9):e0304419. [25]KESARI K K,SONI R,JAMAL Q M S,et al.Wastewater treatment and reuse:A review of its applications and health implications[J].Water,Air,& Soil Pollution,2021,232(5):208. [26]FERNANDEZ‐CASSI X,SILVERA C,CERVEROARAGÓ S,et al.Evaluation of the microbiological quality of reclaimed water produced from a lagooning system[J].Environmental Science and Pollution Research,2016,23(16):16816‐16833. [27]CAICEDO C,ROSENWINKEL K H,EXNER M,et al.Legionella occurrence in municipal and industrial wastewater treatment plants and risks of reclaimed wastewater reuse:Review[J].Water Research,2019,149:21‐34. [28]TOZE S. Reuse of effluent water:Benefits and risks[J].Agricultural Water Management,2006,80(1/2/3):147‐159. [29]ZHANG T,XIE X,HU H Y,et al.Improvement of detection method of Cryptosporidium and Giardia in reclaimed water[J].Frontiers of Environmental Science & Engineering in China,2008,2(3):380‐384.
[30]白晓慧,曾莉,朱斌,等.上海某污水厂出水及其排放水体中隐孢子虫和贾第鞭毛虫的分析检测[J].中国卫生检验杂志,2006,16(1):4‐5. [31]GENNACCARO A L,MCLAUGHLIN M R,QUINTERO‐BETANCOURT W, et al.Infectious Cryptosporidium parvum oocysts in final reclaimed effluent[J].Applied and Environmental Microbiology,2003,69(8):4983‐4984. [32]AHMAD R A,LEE E,TAN I T L,et al.Occurrence of Giardia cysts and Cryptosporidium oocysts in raw and treated water from two water treatment plants in Selangor,Malaysia[J].Water Research,1997,31(12):3132‐3136. [33]AGULLÓ‐BARCELÓ M,OLIVA F,LUCENA F.Alternative indicators for monitoring Cryptosporidium oocysts in reclaimed water[J].Environmental Science and Pollution Research,2013,20(7):4448‐4454. [34]RYU H,ALUM A,MENA K D,et al.Assessment of the risk of infection by Cryptosporidium and Giardia in non‐potable reclaimed water[J].Water Science and Technology,2007,55(1/2):283‐290. [35]SÁNCHEZ C,LÓPEZ M C,GALEANO L A,et al.Molecular detection and genotyping of pathogenic protozoan parasites in raw and treated water samples from southwest Colombia[J].Parasites & Vectors,2018,11(1):563. [36]HAN M Y,XIAO S M,AN W,et al.Co‐infection risk assessment of Giardia and Cryptosporidium with HIV considering synergistic effects and age sensitivity using disability‐adjusted life years[J].Water Research,2020,175:115698. [37]XIAO D,LYU Z F,CHEN S H,et al.Tracking Cryptosporidium in urban wastewater treatment plants in a cold region:Occurrence,species and infectivity[J].Frontiers of Environmental Science & Engineering,2022,16(9):112. [38]RAVINDRAN V B,KHALLAF B,SURAPANENI A,et al.Detection of helminth Ova in wastewater using recombinase polymerase amplification coupled to lateral flow strips[J].Water,2020,12(3):691. [39]MAHVI A H,KIA E B.Helminth eggs in raw and treated wastewater in the Islamic Republic of Iran[J].Eastern Mediterranean Health Journal,2006,12(1/2):137‐143.
[40]柳兰洲,何宁.城市生活污水处理与回用过程病毒的传播及防控[J].水处理技术,2021,47(11):31‐35.
[41]HARWOOD V J,LEVINE A D,SCOTT T M,et al.Validity of the indicator organism paradigm for pathogen reduction in reclaimed water and public health protection[J].Applied and EnvironmentalMicrobiology,2005,71(6):3163‐3170. [42]BAILEY E S,PRICE M,CASANOVA L M,et al.E.coli CB390:An alternative E. coli host for simultaneous detection of somatic and F+ coliphage viruses in reclaimed and other waters[J].Journal of Virological Methods,2017,250:25‐28. [43]丁笑寒.城市污水再生水中典型病毒与药物的风险评价[D].青岛:青岛理工大学,2021.
[44]张崇芹,董晓婉,王然,等.不同回用途径下再生水中病毒健康风险评价[J].环境科学与技术,2022,45 (1):137‐144.
[45]何星海,马世豪,李安定.再生水利用中肠道病毒的健康风险[J].中国给水排水,2005,21(3):88‐90. [46]PRADO T,DE CASTRO BRUNI A,BARBOSA M R F,et al.Noroviruses in raw sewage,secondary effluents and reclaimed water produced by sand‐anthracite filters and membrane bioreactor/reverse osmosis system[J].Science of the Total Environment,2019,646:427‐437. [47]GREAVES J,FISCHER R J,SHAFFER M,et al.Sodium hypochlorite disinfection of SARS‐CoV‐2 spiked in water and municipal wastewater[J].Science of the Total Environment,2022,807:150766. [48]刘邓平,李彦澄,李江,等.贵州农村污水典型抗生素污染水平及生态风险[J].环境科学与技术,2020,43 (2):162‐169. LIU D P,LI Y C,LI J,et al.Pollution level and ecological risk of typical antibiotics in the rural wastewater of Guizhou[J].Environmental Science & Technology,2020,43(2):162‐169.
[49]王建凤.再生水中喹诺酮抗生素检测技术、迁移规律及去除机理研究[D].北京:北京化工大学,2020. [50]PRUDEN A,PEI R T,STORTEBOOM H,et al.Antibiotic resistance genes as emerging contaminants:Studies in northern Colorado[J].Environmental Science & Technology,2006,40(23):7445‐7450. [51]HUANG J J,HU H Y,WU Y H,et al.Effect of chlorination and ultraviolet disinfection on tetA‐mediated tetracycline resistance of Escherichia coli[J].Chemosphere,2013,90(8):2247‐2253. [52]YANG Y,JI Y Q,GAO Y Z,et al.Antibiotics and antimycotics in waste water treatment plants:Concentrations,removal efficiency,spatial and temporal variations,prediction,and ecological risk assessment[J].Environmental Research,2022,215:114135. [53]GAO P,HE S,HUANG S L,et al.Impacts of coexisting antibiotics,antibacterial residues,and heavy metals on the occurrence of erythromycin resistance genes in urban wastewater[J].Applied Microbiology and Biotechnology,2015,99(9):3971‐3980. [54]FAHRENFELD N,MA Y J,O’BRIEN M,et al.Reclaimed water as a reservoir of antibiotic resistance genes:Distribution system and irrigation implications[J].Frontiers in Microbiology,2013,4:130. [55]PANG Y C,XI J Y,LI G Q,et al.Prevalence of antibiotic‐resistant bacteria in a lake for the storage of reclaimed water before and after usage as cooling water[J].Environmental Science Processes & Impacts,2015,17(6):1182‐1189.
[56]张衍,陈吕军,谢辉,等.两座污水处理系统中细胞态和游离态抗生素抗性基因的丰度特征[J].环境科学,2017,38(9):3823‐3830.
[57]马业萍.再生水入渗过程抗生素及抗性基因的分布及关联性分析[D].北京:清华大学,2015.
[58]卢汉清,张铮,郑琳,等.污水厂再生水中耐氯大肠杆菌筛查及细菌耐药性分析[J].中国给水排水,2022,38(3):43‐49.
[59]陈惠鑫,佟娟,陈奕童,等.再生水补给型城市景观水体中抗生素抗性基因的污染特征:以圆明园为例[J].环境科学学报,2019,39(12):4057‐4063. [60]ZHANG N,LIU X,LIU R,et al.Influence of reclaimed water discharge on the dissemination and relationships of sulfonamide,sulfonamide resistance genes along the Chaobai River,Beijing[J].Frontiers of Environmental Science & Engineering,2019,13(1):8. [61]PROIA L,ANZIL A,BORREGO C,et al.Occurrence and persistence of carbapenemases genes in hospital and wastewater treatment plants and propagation in the receiving river[J].Journal of Hazardous Materials,2018,358:33‐43. [62]WANG R M,JI M,ZHAI H Y,et al.Occurrence of antibiotics and antibiotic resistance genes in WWTP effluent‐receiving water bodies and reclaimed wastewater treatment plants[J].Science of the Total Environment,2021,796:148919. [63]BOUKI C,VENIERI D,DIAMADOPOULOS E.Detection and fate of antibiotic resistant bacteria in wastewater treatment plants:A review [J].Ecotoxicology and Environmental Safety,2013,91:1‐9. [64]ZHANG D W,PENG Y,CHAN C L,et al.Metagenomic survey reveals more diverse and abundant antibiotic resistance genes in municipal wastewater than hospital wastewater[J].Frontiers in Microbiology,2021,12:712843. [65]BANCHON C. Airborne bacteria from wastewater treatment and their antibiotic resistance:A meta‐analysis[J].Journal of Ecological Engineering,2021,22(10):205‐214. [66]BOLLMANN U E,TANG C,ERIKSSON E,et al.Biocides in urban wastewater treatment plant influent at dry and wet weather:Concentrations,mass flows and possible sources[J].Water Research,2014,60:64‐74. [67]KUPPER T,PLAGELLAT C,BRÄNDLI R C,et al.Fate and removal of polycyclic musks,UV filters and biocides during wastewater treatment[J].Water Research,2006,40(14):2603‐2612. [68]PLAGELLAT C,KUPPER T,DE ALENCASTRO L F,et al.Biocides in sewage sludge:Quantitative determination in some Swiss wastewater treatment plants[J].Bulletin of Environmental Contamination and Toxicology,2004,73(5):794‐801. [69]KAHLE M,BUERGE I J,HAUSER A,et al.Azole fungicides:Occurrence and fate in wastewater and surface waters[J].Environmental Science &Technology,2008,42(19):7193‐7200. [70]SINGER H,JAUS S,HANKE I,et al.Determination of biocides and pesticides by on‐line solid phase extraction coupled with mass spectrometry and their behaviour in wastewater and surface water[J].Environmental Pollution,2010,158(10):3054‐3064.
[71]季思彤.再生水中杀菌剂对SS316L表面生物膜活性及其电化学腐蚀行为影响的研究[D].北京:北京交通 [72]YUN H,LIANG B,KONG D Y,et al.Fate,risk and removal of triclocarban:A critical review[J].Journal of Hazardous Materials,2020,387:121944.
[73]GAO P,HE S,HUANG S L,et al.Impacts of coexisting antibiotics,antibacterial residues,and heavy metals on [74]MANN B C,BEZUIDENHOUT J J,BEZUIDENHOUT C C.Biocide resistant and antibiotic cross‐resistant potential pathogens from sewage and river water from a wastewater treatment facility in the North‐West,Potchefstroom,South Africa[J].Water Science and Technology,2019,80(3):551‐562. [75]AMSALU A,SAPULA S A,DE BARROS LOPES M,et al.Efflux pump‐driven antibiotic and biocide cross‐resistance in Pseudomonas aeruginosa isolated from different ecological niches:A case study in the development of multidrug resistance in environmental hotspots[J].Microorganisms,2020,8(11):1647. [76]KARAOLIA P,VASILEIADIS S,MICHAEL S G,et al.Shotgun metagenomics assessment of the resistome,mobilome,pathogen dynamics and their ecological control modes in full‐scale urban wastewater treatment plants[J].Journal of Hazardous Materials,2021,418:126387. [77]GRAY H K,ARORA‐WILLIAMS K K,YOUNG C,et al.Contribution of time,taxonomy,and selective antimicrobials to antibiotic and multidrug resistance in wastewater bacteria[J].Environmental Science &Technology,2020,54(24):15946‐15957. [78]COETZEE I,BEZUIDENHOUT C C,BEZUIDENHOUT J J.Triclosan resistant bacteria in sewage effluent and cross‐resistance to antibiotics[J].Water Science and Technology,2017,76(5/6):1500‐1509. [79]VIKRAM A,LIPUS D,BIBBY K. Produced water exposure alters bacterial response to biocides[J].Environmental Science & Technology,2014,48(21):13001‐13009. [80]NAMAKI KHELJAN M,TEYMORPOUR R,PEERI DOGHAHEH H, et al.Antimicrobial biocides susceptibility and tolerance‐associated genes in Enterococcus faecalis and Enterococcus faecium isolates collected from human and environmental sources[J].Current Microbiology,2022,79(6):170. [81]ÖSTMAN M,LINDBERG R H,FICK J,et al.Screening of biocides,metals and antibiotics in Swedish sewage sludge and wastewater[J].Water Research,2017,115:318‐328. [82]KARMAKAR S,ABRAHAM T J,KUMAR S,et al.Triclosan exposure induces varying extent of reversible antimicrobial resistance in Aeromonas hydrophila and Edwardsiella tarda[J].Ecotoxicology and Environmental Safety,2019,180:309‐316. [83]VAITOMAA J,RANTALA A,HALINEN K,et al.Quantitative real‐time PCR for determination of microcystin synthetase E copy numbers for microcystis and anabaena in lakes[J].Applied and Environmental Microbiology,2003,69(12):7289‐7297. [84]NAMIKOSHI M,RINEHART K L,SAKAI R,et al.Identification of 12 hepatotoxins from a Homer Lake bloom of the cyanobacteria Microcystis aeruginosa,Microcystis viridis,and Microcystis wesenbergii:Nine new microcystins[J].The Journal of Organic Chemistry,1992,57(3):866‐872. [85]ROMANIS C S,PEARSON L A,NEILAN B A.Cyanobacterial blooms in wastewater treatment facilities: Significance and emerging monitoring strategies[J].Journal of Microbiological Methods,2021,180:106123. [86]VASCONCELOS V M,PEREIRA E. Cyanobacteria diversity and toxicity in a wastewater treatment plant(Portugal)[J].Water Research,2001,35(5) :1354‐1357.
[87]魏桢,贾海峰,姜其贵,等.再生水补水河道中流速对浮游藻类生长影响的模拟实验[J].环境工程学报,2017,11(12):6540‐6546. [89]JOO J C,AHN C H,LEE S,et al.Algal growth potential of Microcystis aeruginosa from reclaimed water[J].Water Environment Research,2016,88(1):54‐62.
[90]周律,李春丽,吴薇薇,等.以再生水为补水的景观水体水华爆发特征调查和药剂应急控藻效果评价[J].环境工程学报,2012,6(12):4429‐4435.
[91]倪雪琳,吴光学,管运涛,等.景观用再生水氮磷条件下两种典型水华藻类的生长及竞争规律[J].环境工程,2013,31(S1):240‐244. [92]AO D,CHEN R,WANG X C,et al.On the risks from sediment and overlying water by replenishing urban landscape ponds with reclaimed wastewater[J].Environmental Pollution,2018,236:488‐497.
[93]许洪斌,王文东,王楠,等.再生水补水景观湖浮游藻类群落结构特征及与环境因子的关系[J].环境工程学报,2016,10(11):6416‐6424.
[94]李娜,杨建,常江,等.不同工艺再生水补给对景观湖水质变化的影响[J].环境工程学报,2012,6(4):1276‐1280.
[95]范婧,周北海,张鸿涛,等.再生水补充景观水体中藻类的生长比较[J].环境科学研究,2012,25(5):573‐578. [96]CHEN R,AO D,JI J Y,et al.Insight into the risk of replenishing urban landscape ponds with reclaimed wastewater[J].Journal of Hazardous Materials,2017,324:573‐582. [97]WU S C,JI X Y,LI X,et al.Mutual impacts and interactions of antibiotic resistance genes,microcystin synthetase genes,graphene oxide,and Microcystis aeruginosa in synthetic wastewater[J].Environmental Science and Pollution Research,2022,29(3) :3994‐4007. [98]HUMPAGE A R,FROSCIO S M,LAU H M,et al.Evaluation of the Abraxis Strip Test for Microcystins™for use with wastewater effluent and reservoir water[J]. Water Research,2012,46(5):1556‐1565. [99]WWAP(United Nations World Water Assessment Programme).Wastewater:The Untapped Resource[R].Paris:UNESCO,2017. [100]Federal Provincial Territorial Committee on Drinking Water. Guidance on waterborne bacterial pathogens—2012 health canada consultation document[R].Ottawa,Ontario:Health Canada,2013. [101]SHUVAL H,FATTAL B. Control of pathogenic microorganisms in wastewater recycling and reuse in agriculture[M].Amsterdam:Elsevier,2003:241‐262. [102]CHHIPI‐SHRESTHA G,HEWAGE K,SADIQ R.Microbial quality of reclaimed water for urban reuses:Probabilistic risk‐based investigation and recommendations[J].Science of the Total Environment,2017,576:738‐751. [103]NIKAIDO M,TONANI K A A,JULIÃO F C,et al.Analysis of bacteria,parasites,and heavy metals in lettuce(Lactuca sativa)and rocket salad(Eruca sativa L.)irrigated with treated effluent from a biological wastewater treatment plant[J].Biological Trace Element Research,2010,134(3):342‐351. [104]CARLANDER A,SCHÖNNING C,STENSTRÖM T A.Energy forest irrigated with wastewater:A comparative microbial risk assessment[J].Journal of Water and Health,2009,7(3):413‐433. [105]HARDER R,HEIMERSSON S,SVANSTRÖM M,et al.Including pathogen risk in life cycle assessment of wastewater management. 1. Estimating the burden of disease associated with pathogens[J].Environmental Science & Technology,2014,48(16):9438‐9445. [106]WEIDHAAS J,OLSEN M,MCLEAN J E,et al.Microbial and chemical risk from reclaimed water use for residential irrigation[J].Water Reuse,2022,12 (3):289‐303. [107]RUSIÑOL M,HUNDESA A,CÁRDENAS‐YOUNGS Y,et al.Microbiological contamination of conventional and reclaimed irrigation water: Evaluation and management measures[J].Science of the Total Environment,2020,710:136298. [108]LÓPEZ‐GÁLVEZ F,TRUCHADO P,SÁNCHEZ G,et al.Occurrence of enteric viruses in reclaimed and surface irrigation water: Relationship with microbiological and physicochemical indicators[J].Journal of Applied Microbiology,2016,121(4):1180‐1188. [109]GONZALES‐GUSTAVSON E,RUSIÑOL M,MEDEMA G,et al.Quantitative risk assessment of norovirus and adenovirus for the use of reclaimed water to irrigate lettuce in Catalonia[J].Water Research,2019,153:91‐99. [110]WHO guidelines for the safe use of wastewater,excreta and greywater:Wastewater use in agriculture[M].Switzerland:WHO Press,2006. [111]ZHU K H,REN H W,LU Y. Potential biorisks of Cryptosporidium spp. and Giardia spp. from reclaimed water and countermeasures[J].Current Pollution Reports,2022,8(4):456‐476. [112]TAL A.Rethinking the sustainability of Israel’s irrigation practices in the drylands[J].Water Research,2016,90:387‐394. [113]JOLIS D,PITT P,HIRANO R.Risk assessment for Cryptosporidium parvum in reclaimed water[J].Water Research,1999,33(13):3051‐3055. [114]ORLOFSKY E,BERNSTEIN N,SACKS M,et al.Comparable levels of microbial contamination in soil and on tomato crops after drip irrigation with treated wastewater or potable water[J].Agriculture,Ecosystems & Environment,2016,215:140‐150. [115]GUPTA N,KHAN D K,SANTRA S C.Prevalence of intestinal helminth eggs on vegetables grown in wastewater‐irrigated areas of Titagarh,West Bengal,India[J].Food Control,2009,20(10):942‐945. [116]BECERRA‐CASTRO C,LOPES A R,VAZ‐MOREIRA I, et al.Wastewater reuse in irrigation:A microbiological perspective on implications in soil fertility and human and environmental health[J].Environment International,2015,75:117‐135. [117]HONG C X,MOORMAN G W.Plant pathogens in irrigation water:Challenges and opportunities[J].Critical Reviews in Plant Sciences,2005,24(3):189‐208. [118]WANG F H,QIAO M,LV Z E,et al.Impact of reclaimed water irrigation on antibiotic resistance in public parks,Beijing,China[J].Environmental Pollution,2014,184:247‐253. [119]CAREY S A,GOLDSTEIN R E,GIBBS S G,et al.Occurrence of vancomycin‐resistant and‐susceptible Enterococcus spp.in reclaimed water used for spray irrigation[J].Environmental Research,2016,147:350‐355. [120]HONG P Y,JULIAN T,PYPE M L,et al.Reusing treated wastewater:Consideration of the safety aspects associated with antibiotic‐resistant bacteria and antibiotic resistance genes[J].Water,2018,10(3):244. [121]KINNEY C A,FURLONG E T,WERNER S L,et al.Presence and distribution of wastewater‐derived pharmaceuticals in soil irrigated with reclaimed water[J].Environmental Toxicology and Chemistry,2006,25 (2):317‐326. [122]GROSSBERGER A,HADAR Y,BORCH T,et al.Biodegradability of pharmaceutical compounds in agricultural soils irrigated with treated wastewater[J].Environmental Pollution,2014,185:168‐177. [123]CHRISTOU A,AGÜERA A,BAYONA J M,et al.The potential implications of reclaimed wastewater reuse for irrigation on the agricultural environment:The knowns and unknowns of the fate of antibiotics and antibiotic resistant bacteria and resistance genes—A review[J].Water Research,2017,123:448‐467. [124]BERENDONK T U,MANAIA C M,MERLIN C,et al.Tackling antibiotic resistance:The environmental framework[J].Nature Reviews Microbiology,2015,13:310‐317. [125]NEGREANU Y,PASTERNAK Z,JURKEVITCH E,et al.Impact of treated wastewater irrigation on antibiotic resistance in agricultural soils[J].Environmental Science & Technology,2012,46(9):4800‐4808. [126]WU X Q,CONKLE J L,ERNST F,et al.Treated wastewater irrigation:Uptake of pharmaceutical and personal care products by common vegetables under field conditions[J].Environmental Science & Technology,2014,48(19):11286‐11293. [127]MALCHI T,MAOR Y,TADMOR G,et al.Irrigation of root vegetables with treated wastewater:Evaluating uptake of pharmaceuticals and the associated human health risks[J].Environmental Science & Technology,2014,48(16):9325‐9333. [128]RIEMENSCHNEIDER C,AL‐RAGGAD M,MOEDER M,et al.Pharmaceuticals,their metabolites,and other polar pollutants in field‐grown vegetables irrigated with treated municipal wastewater[J].Journal of Agricultural and Food Chemistry,2016,64(29):5784‐5792. [129]CHRISTOU A,KARAOLIA P,HAPESHI E,et al.Long‐term wastewater irrigation of vegetables in real agricultural systems:Concentration of pharmaceuticals in soil,uptake and bioaccumulation in tomato fruits and human health risk assessment[J].Water Research,2017,109:24‐34. [130]FRANKLIN A M,WILLIAMS C F,ANDREWS D M,et al.Uptake of three antibiotics and an antiepileptic drug by wheat crops spray irrigated with wastewater treatment plant effluent[J].Journal of Environmental Quality,2016,45(2):546‐554. [131]YE M,SUN M M,FENG Y F,et al.Effect of biochar amendment on the control of soil sulfonamides,antibiotic‐resistant bacteria,and gene enrichment in lettuce tissues[J].Journal of Hazardous Materials,2016,309:219‐227. [132]ZHANG Y P,SALLACH J B,HODGES L,et al.Effects of soil texture and drought stress on the uptake of antibiotics and the internalization of Salmonella in lettuce following wastewater irrigation[J].Environmental Pollution,2016,208:523‐531. [133]CAMACHO‐ARÉVALO R,GARCÍA‐DELGADO C,MAYANS B,et al.Sulfonamides in tomato from commercial greenhouses irrigated with reclaimed wastewater:Uptake,translocation and food safety[J].Agronomy,2021,11(5):1016. [134]CHEN Z F,YING G G,LAI H J,et al.Determination of biocides in different environmental matrices by use of ultra‐high‐performance liquid chromatography‐tandem mass spectrometry[J].Analytical and Bioanalytical Chemistry,2012,404(10):3175‐3188.
[135]GODFREY A R,TOWNSEND R,DESBROW C,et al.QuEChERS:A simple extraction for monitoring quaternary ammonium biocide pollution in soils and antimicrobial resistance[J]. Analytical Methods,2020,12(35):4387‐4393. [136]黄南,王文龙,吴乾元,等.城市污水再生处理反渗透产水的水质特征与超高标准处理技术[J].中国环境科学,2022,42(5):2088‐2094. [137]LI S,TAO Y,ZHAN X M,et al.UV‐C irradiation for harmful algal blooms control:A literature review on effectiveness,mechanisms,influencing factors and facilities[J].Science of the Total Environment,2020,723:137986. [138]LI S,DAO G H,TAO Y,et al.The growth suppression effects of UV‐C irradiation on Microcystis aeruginosa and Chlorella vulgaris under solo‐culture and co‐culture conditions in reclaimed water[J].Science of the Total Environment,2020,713:136374. [139]LI S,TAO Y,DAO G H,et al.Synergetic suppression effects upon the combination of UV‐C irradiation and berberine on Microcystis aeruginosa and Scenedesmus obliquus in reclaimed water:Effectiveness and mechanisms J].Science of the Total Environment,2020,744:140937.
[140]黄晶晶,汤芳,席劲瑛,等.再生水中5种抗生素抗性菌的紫外线灭活及复活特性研究[J].环境科学,2014,35(4):1326‐1331.
[141]WANG Y W,GAO J F,DUAN W J,et al.Inactivation of sulfonamide antibiotic resistant bacteria and control [142]LU J,ZHANG Y X,WU J,et al. Fate of antibiotic resistance genes in reclaimed water reuse system with integrated membrane process[J].Journal of Hazardous Materials,2020,382:121025. [143]AHMED S F,MOFIJUR M,NUZHAT S,et al.Recent developments in physical,biological,chemical,and hybrid treatment techniques for removing emerging contaminants from wastewater[J].Journal of Hazardous Materials,2021,416:125912.
[144]BONETTA S,PIGNATA C,GASPARRO E,et al.Impact of wastewater treatment plants on microbiological contamination for evaluating the risks of wastewater reuse[J].Environmental Sciences Europe,2022,34(1):20. [145]梁张岐,李国鸿,黄雅梦,等.城市污水生物处理过程中结合型和游离型胞外抗生素抗性基因的产生特征[J].生态毒理学报,2021,16(5):70‐78.
[147]WANG D P,ZHANG X,YAN C Z.Occurrence and removal of sulfonamides and their acetyl metabolites in a biological aerated filter(BAF) of wastewater treatment plant in Xiamen,South China[J].Environmental Science and Pollution Research,2019,26(32):33363‐33372. |
[1] | LIU Chuncheng, RONG Hao, LI Zhongyang, HU Chao, ZENG Zhi, WU Haiqing, WANG Juan, CUI Bingjian, FAN Xiangyang, LIU Yuan, CUI Erping, GAO Feng. Effect of Magnetized Reclaimed Water on Seedling Growth of Maize and Soil Salinity [J]. Journal of Henan Agricultural Sciences, 2020, 49(12): 24-32. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||