最大累积率识别中国地表水中邻苯二甲酸酯类关键污染物和复合污染生态风险
Identification the key pollutants of phthalic acid esters in surface water of China and ecological risk of mixture based on maximum cumulative ratio
-
摘要: 邻苯二甲酸酯类物质(phthalic acid esters,PAEs)环境存在量大,研究表明其能对水生生物造成寿命减少、发育不良、细胞受损等负效应.因此,为保护水生生物,我国地表水中PAEs的生态风险需要科学评估.本文利用了风险商法(risk quotient,RQ)、最大累积率法(maximum cumulative ratio,MCR)、联合概率曲线法(joint probability curve,JPC)结合毒性当量的概念构建了三层级生态风险评价体系,借此评估了我国地表水中PAEs的分布情况与生态风险.结果显示,我国地表水中共检出19种PAEs,浓度范围为ND—5616.80 μg·L-1.邻苯二甲酸二(2-乙基)己酯(di(2-ethylhexyl)phthalate,DEHP)和邻苯二甲酸二丁酯(dibutyl phthalate,DBP)环境存在量最高,且DEHP为PAEs风险的主要贡献者.以DEHP为参照物,JPC的结果显示我国PAEs对5%生物造成急性影响的概率为6.25%—24.02%,造成慢性影响的概率为8.05%—27.79%.PAEs对我国水生生态系统,尤其是西北、东北、中部及华东地区存在较高的生态风险.Abstract: Phthalic acid esters (PAEs) were detected generally in surface water. PAEs was reported to induce toxic effects on aquatic organisms such as life span reduction, dysplasia and cell damage. It is necessary to assess the ecological risk of PAEs posed to aquatic organisms in surface water of China. In this study, the three tiers ecological risk assessment system was established based on risk quotient, maximum cumulative ratio (MCR), joint probability curve (JPC) and the concept of toxic equivalence to evaluate the distribution and ecological risks of PAEs. In China, 19 PAEs were detected in surface water. The concentration of them ranged from ND to 5616.80 μg·L-1. The environmental concentrations of di(2-ethylhexyl) phthalate (DEHP) and dibutyl phthalate were greater than others. DEHP were the main contributors to the risk posed by PAEs. According to the results of JPC, the probability that 5% of species will be acutely affected ranged from 6.25% to 24.02%, while that 5% of species will be chronically affected ranged from 8.05% to 27.79% with DEHP as reference. In summary, PAEs posed high ecological risk to aquatic ecosystem, especially in northwest, northeast, central and east China.
-
Key words:
- phthalic acid esters /
- hierarchical risk assessment /
- surface water /
- mixed pollutants
-
-
[1] KATSIKANTAMI I,SIFAKIS S,TZATZARAKIS M N,et al. A global assessment of phthalates burden and related links to health effects[J]. Environment International, 2016, 97:212-236. [2] NET S,DELMONT A,SEMPERE R,et al. Reliable quantification of phthalates in environmental matrices (air, water, sludge, sediment and soil):A review[J]. Science of the Total Environment, 2015, 515/516:162-180. [3] GU S,ZHENG H,XU Q,et al. Comparative toxicity of the plasticizer dibutyl phthalate to two freshwater algae[J]. Aquatic Toxicology, 2017, 191:122. [4] SOPHEAK N,RICHARD S,ANNE D,et al. Occurrence, fate, behavior and ecotoxicological state of phthalates in different environmental matrices[J]. Environmental Science & Technology, 2015, 49(7):4019-4035. [5] ZHANG L,LIU J,LIU H,et al. The occurrence and ecological risk assessment of phthalate esters (PAEs) in urban aquatic environments of China[J]. Asian Journal of Ecotoxicology, 2016, 24(5):1-18. [6] PEIJNENBURG W J G M,JAAP S. Occurrence of phthalate esters in the environment of The Netherlands[J]. Ecotoxicol Environ Saf, 2006, 63(2):204-215. [7] TEIL M J,BLANCHARD M,CHEVREUIL M. Atmospheric fate of phthalate esters in an urban area (Paris-France)[J]. Science of the Total Environment, 2006, 354(2):212-223. [8] 贺涛,白小舰,陈隽,等. 饮用水源地塑化剂类污染物环境健康风险评估[J]. 中国环境科学, 2013, 33(s1):26-31. HE T, BAI X J, CHEN J, et al. Environmental health risk assessment of plasticizer contaminants in drinking water source[J]. China Environmental Science, 2013, 33(s1):26-31(in Chinese).
[9] EVANTHIA D K,JEAN-PIERRE B,GIUDICE L C,et al. Endocrine-disrupting chemicals:An endocrine society scientific statement[J]. Endocrine Reviews, 2009, 30(4):293-342. [10] 韩文辉,赵颖,党晋华,等汾河流域邻苯二甲酸酯的分布特征及生态风险评价[J]. 环境化学, 2017, 36(6):1377-1387. HAN W H, ZHAO Y, DANG J H, et al. Distribution and ecological risk evaluation of phthalate esters in Fenhe River Basin[J]. Environmental Chemistry, 2017, 36(6):1377-1387(in Chinese).
[11] SUN G J,LI Y Q. Exposure to DBP induces the toxicity in early development and adverse effects on cardiac development in zebrafish (Danio rerio)[J]. Chemosphere, 2019, 218:76-82. [12] SEYOUM A,PRADHAN A. Effect of phthalates on development, reproduction, fat metabolism and lifespan in Daphnia magna[J]. Science of the Total Environment, 2019, 654:969-977. [13] GU S,ZHENG H,XU Q,et al. Comparative toxicity of the plasticizer dibutyl phthalate to two freshwater algae[J]. Aquatic Toxicology, 2017, 191:122-130. [14] HE W,QIN N,KONG X,et al. Spatio-temporal distributions and the ecological and health risks of phthalate esters (PAEs) in the surface water of a large, shallow Chinese lake[J]. Science of the Total Environment, 2013, 461/462(7):672-680. [15] LIU N,WANG Y,YANG Q,et al. Probabilistic assessment of risks of diethylhexyl phthalate (DEHP) in surface waters of China on reproduction of fish[J]. Environmental Pollution, 2016, 213(213):482-488. [16] SOLOMON K,GIESY J,JONES P. Probabilistic risk assessment of agrochemicals in the environment[J]. Crop Protection, 2000, 19(8-10):649-655. [17] PRICE P S,XIANGLU H. Maximum cumulative ratio (MCR) as a tool for assessing the value of performing a cumulative risk assessment[J]. International Journal of Environmental Research & Public Health, 2011, 8(6):2212-2225. [18] EGINA M,OHE P C, VON DER,MATTHIAS G,et al. Organic chemicals jeopardize the health of freshwater ecosystems on the continental scale[J]. Proc Natl Acad Sci U S A, 2014, 111(26):9549-9554. [19] SLAUGHTER A R,PALMER C G,MULLER W J. An assessment of two-step linear regression and multifactor probit analysis as alternatives to acute to chronic ratios in the estimation of chronic response from acute toxicity data to derive water quality guidelines[J]. Integrated Environmental Assessment & Management, 2010, 3(2):193-202. [20] 朱冰清,高占啟,胡冠九,等. 太湖重点区域水环境中邻苯二甲酸酯的污染水平及生态风险评价[J]. 环境科学, 2018, 39(8):3614-3621. ZHU B Q, GAO Z Q, HU G J, et al. Contamination levels and ecological risk assessment of phthalate esters (PAEs) in the aquatic environment of key areas of Taihu Lake[J]. Environmental Science, 2018, 39(8):3614-3621(in Chinese).
[21] 时瑶,马迎群,秦延文,等大辽河表层水中邻苯二甲酸酯分布特征及环境健康风险评价[J]. 生态毒理学报, 2016, 11(6):197-206. SHI Y, MA Y Q, QIN Y W, et al. Distribution characteristics and environmental health risk assessment of phthalic acid esters in surface water of the Daliao River, China[J]. Asian Journal of Ecotoxicology, 2016, 11(6):197-206(in Chinese).
[22] 陆继龙,郝立波,王春珍,等. 第二松花江中下游水体邻苯二甲酸酯分布特征[J]. 环境科学与技术, 2007, 30(12):35-37. LU J L, HAO L B, WANG C Z, et al. Distribution characteristics of phthalate esters in the middle and lower reaches of the Second Songhua River[J]. Environmental Science and Technology, 2007, 30(12):35-37(in Chinese).
[23] 魏薇,谢莹,王建刚,等. 邻苯二甲酸酯在松花江吉林段水体中的分布规律[J]. 中国环境监测, 2011, 27(5):60-64. WEI W, XIE Y, WANG J G, et al. Distribution law of PAEs in the water body of Songhua River Jilin Section[J]. Environmental Monitoring in China, 2011, 27(5):60-64(in Chinese).
[24] WEN Z,HUANG X,GAO D,et al. Phthalate esters in surface water of Songhua River watershed associated with land use types, Northeast China[J]. Environmental Science & Pollution Research, 2018, 25(8):1-11. [25] GAO D,LI Z,WEN Z,et al. Occurrence and fate of phthalate esters in full-scale domestic wastewater treatment plants and their impact on receiving waters along the Songhua River in China[J]. Chemosphere, 2014, 95(1):24-32. [26] ZHENG X,YAN Z,LIU P,et al. Derivation of aquatic life criteria for four phthalate esters and their ecological risk assessment in Liao River[J]. Chemosphere, 2019, 220:802-810. [27] LI B,HU X,LIU R,et al. Occurrence and distribution of phthalic acid esters and phenols in Hun River Watersheds[J]. Environmental Earth Sciences, 2015, 73(9):5095-5106. [28] 隋苗苗. 邻苯二甲酸酯类物质在北运河及潮白河中污染水平的研究[D].大连:大连理工大学, 2008. SUI M M. Research on pollution level of phthalate esters in North Canal and Chaobai River[D]. Dalian:Dalian University of Technology, 2008(in Chinese). [29] 曹莹. 北京公园水环境中邻苯二甲酸酯的分析检测及污染研究[D].北京:北京工业大学, 2008. CAO Y. Determination and investigation of the pollution of phthalate acid esters in the water of Beijing parks[D]. Beijing:Beijing University of Technology, 2008(in Chinese). [30] CHI J. Phthalate acid esters in Potamogeton crispus L. from Haihe River, China[J]. Chemosphere, 2009, 77(1):48-52. [31] ZHENG X,ZHANG B T,TENG Y. Distribution of phthalate acid esters in lakes of Beijing and its relationship with anthropogenic activities[J]. Science of the Total Environment, 2014, 476/477:107-113. [32] KONG L,KADOKAMI K,WANG S,et al. Monitoring of 1300 organic micro-pollutants in surface waters from Tianjin, North China[J]. Chemosphere, 2015, 122:125-130. [33] TANG J,AN T,XIONG J,et al. The evolution of pollution profile and health risk assessment for three groups SVOCs pollutants along with Beijiang River, China[J]. Environmental Geochemistry & Health, 2017, 39(Part A):1-13. [34] 沙玉娟,夏星辉,肖翔群. 黄河中下游水体中邻苯二甲酸酯的分布特征[J]. 中国环境科学, 2006, 26(1):120-124. SHA Y J, XIA X H, XIAO X Q. Distribution characters of phthalic acid ester in the waters middle and lower reaches of the Yellow River[J]. China Environmental Science, 2006, 26(1):120-124(in Chinese).
[35] 焦琳. 渭河流域水体中外源性环境激素的污染调查及分析[D].西安:西安科技大学, 2010. JIAO L. Study on determination of exogenous environment endocrine disruptors in Weihe river basin[D]. Xi'an:Xi'an University of Science and Technology, 2010(in Chinese). [36] XIAO F G,LEI W,XU D W,et al. Occurrence and environmental risk assessment of PAEs in Weihe River near Xi'an City, China[J]. Water Science & Technology, 2013, 67(5):948-958. [37] 林莉,董磊,李青云,等. 三峡库区水体和底泥中多环芳烃和邻苯二甲酸酯类分布和来源[J]. 湖泊科学, 2018, 30(3):660-667. LIN L, DONG L, LI Q Y, et al. Distribution and sources of polycyclic aromatic hydrocarbons and phthalic acid esters in water and surface sediment from the Three Gorges Reservoir[J]. Journal of Lake Sciences, 2018, 30(3):660-667(in Chinese).
[38] 王超英,李碧芳,郝金声,等. 红枫湖及其污染源中邻苯二甲酸酯类化合物的测定[J]. 贵州师范学院学报, 2006, 17(4):42-44. WANG C Y, LI B F, HAO J S, et al. Determ ination of phthalate esters in Hongfeng Lake and its pollution source[J]. Journal of Guizhou Education Institute, 2006, 17(4):42-44(in Chinese).
[39] 杜娴. 重庆主城两江水体与沉积物中邻苯二甲酸酯和多环芳烃污染水平及特征[D].重庆:重庆大学, 2012. DU X. Levels and characteristics of phthalate esters and polycyyclic aromatic hydrocarbons in the Yangtze river and Jialing river from Chongqing's urban areas[D]. Chongqing:Chongqing University, 2012(in Chinese). [40] JUNAID M,JIA P P,TANG Y M,et al. Mechanistic toxicity of DEHP at environmentally relevant concentrations (ERCs) and ecological risk assessment in the Three Gorges Reservoir Area, China[J]. Environmental Pollution, 2018, 242:1939-1949. [41] TANG J,AN T C,LI G Y,et al. Spatial distributions, source apportionment and ecological risk of SVOCs in water and sediment from Xijiang River, Pearl River Delta[J]. Environmental Geochemistry and Health, 2018, 40(5):1853-1865. [42] 杜娴,罗固源,许晓毅. 长江重庆段两江水相、间隙水和沉积物中邻苯二甲酸酯的分布与分配[J]. 环境科学学报, 2013, 33(2):557-562. DU X, LUO G Y, XU X Y. Distribution and partition of phthalate esters in water phase,pore water and sediments from Chongqing section of the Yangtze River[J]. Acta Scientiae Circumstantiae, 2013, 33(2):557-562(in Chinese).
[43] 李婷. 珠江河口水体和沉积物中6种邻苯二甲酸酯污染及初步风险评价[D].广州:暨南大学, 2014. LI T. Pollution levels and risk assessment of 6 priority phthalate esters in water and sediments from estuaries of the Pearl river delta[D]. Guangzhou:Jinan University, 2014(in Chinese). [44] ZENG F,CUI K,XIE Z,et al. Occurrence of phthalate esters in water and sediment of urban lakes in a subtropical City, Guangzhou, South China[J]. Environment International, 2008, 34(3):372-380. [45] ZENG F,WEN J,CUI K,et al. Seasonal distribution of phthalate esters in surface water of the urban lakes in the subtropical city, Guangzhou, China[J]. Journal of Hazardous Materials, 2009, 169(1):719-725. [46] HUANG G X,SUN J C,CHEN Z Y,et al. Levels and sources of phthalate esters in shallow groundwater and surface water of Dongguan City, South China[J]. Geochemical Journal, 2012, 46(5):421-428. [47] CHENG Z,LIU J B,GAO M,et al. Occurrence and distribution of phthalate esters in freshwater aquaculture fish ponds in Pearl River Delta, China[J]. Environmental Pollution, 2019, 245:883-888. [48] LI X H,YIN P H,ZHAO L. Phthalate esters in water and surface sediments of the Pearl River Estuary:Distribution, ecological, and human health risks[J]. Environmental Science and Pollution Research, 2016, 23(19):19341-19349. [49] LI T,YIN P H,ZHAO L,et al. Spatial-temporal distribution of phthalate esters from riverine outlets of Pearl River Delta in China[J]. Water Science and Technology, 2015, 71(2):183-190. [50] 高香玉,崔益斌,胡长伟,等. 太湖梅梁湾2008年有机污染物检测及环境影响度[J]. 中国环境科学, 2009, 29(12):1296-1300. GAO X Y, CUI Y B, HU C W, et al. Detection and ambient severity evaluation of organic compounds in Meiliang Bay of Taihu Lake in 2008[J]. China Environmental Science, 2009, 29(12):1296-1300(in Chinese).
[51] 沈幸,刘云,鲜啟鸣,等. 太湖水源地水体中半挥发性有机物的监测[J]. 环境污染与防治, 2006, 28(5):396-398. SHEN X, LIU Y, XIAN Q M, et al. Monitoring of semi-volatile organic compounds in source water of Taihu Lake[J]. Environmental Pollution and Prevention, 2006, 28(5):396-398(in Chinese).
[52] 钱祎,车金水,刘振华,等. 太湖水源水中有机污染物种类初探[J]. 安徽农业科学, 2010, 38(17):9361-9362. QIAN Y, CHE J S, LIU Z H, et al. Preliminary study on organic pollutants in Taihu Lake Source Water[J]. Journal of Anhui Agricultural Science, 2010, 38(17):9361-9362(in Chinese).
[53] 李玉斌. 太湖水体及表层沉积物中SVOCs分布及生态风险评价[D].北京:北京化工大学, 2011. LI Y B. Distribution and ecological risk assessment of SVOCs in Taihu Lake water and surface sediments[D]. Beijing:Beijing University of Chemical Technology, 2011(in Chinese). [54] WANG H,WANG C X,WU W Z,et al. Persistent organic pollutants in water and surface sediments of Taihu Lake, China and risk assessment[J]. Chemosphere, 2003, 50(4):557-562. [55] GAO X,SHI X,CUI Y,et al. Organic pollutants and ambient severity for the drinking water source of western Taihu Lake[J]. Ecotoxicology, 2011, 20(5):959-967. [56] 徐怀洲,宋宁慧,张圣虎,等. 骆马湖邻苯二甲酸酯分布特征及健康风险评价[J]. 生态与农村环境学报, 2017, 33(10):928-934. XU H Z, SONG N H, ZHANG S H, et al. Distribution characteristics and health risk assessment ofphthalater esters in lake Luoma[J]. Journal of Ecology and Rural Environment, 2017, 33(10):928-934(in Chinese).
[57] 张付海,张敏,朱余,等. 合肥市饮用水和水源水中邻苯二甲酸酯的污染现状调查[J]. 环境监测管理与技术, 2008, 20(2):22-24. ZHANG F H, ZHANG M, ZHU Y, et al. Investigation on the pollution status of phthalates in drinking water and source water in Hefei[J]. Environmental Monitoring Management and Technology, 2008, 20(2):22-24(in Chinese).
[58] 申艳艳,许茜,殷雪琰,等. 玄武湖中邻苯二甲酸酯的测定及分布特征[J]. 东南大学学报(自然科学版), 2010, 40(6):1337-1341. SHEN Y Y, XU Q, YIN X Y, et al. Determination and distribution of phthalates in Xuanwu Lake[J].Journal of Southeast University (Natural Science Edition), 2010, 40(6):1337-1341(in Chinese). [59] 张付海. 巢湖水中五种邻苯二甲酸酯的检测和微生物降解研究[D].合肥:安徽农业大学, 2005. ZHANG F H. Detection and microbial degradation of five kinds of o-phthalate two formic acid in Chaohu[D]. Hefei:Anhui Agriculture University, 2005(in Chinese). [60] KONG Y L,SHEN J M,CHEN Z L,et al. Profiles and risk assessment of phthalate acid esters (PAEs) in drinking water sources and treatment plants, East China[J]. Environmental Science and Pollution Research, 2017, 24(30):23646-23657. [61] LI R L,LIANG J,DUAN H L,et al. Spatial distribution and seasonal variation of phthalate esters in the Jiulong River estuary, Southeast China[J]. Marine Pollution Bulletin, 2017, 122(1/2):38-46. [62] 韩方岸,陈钧,蒋兆峰,等. 苏、浙、鲁地区主要饮用水地表水源挥发及半挥发有机物调查[J]. 环境与健康杂志, 2011, 28(10):890-894. HAN F A, CHEN J, JIANG Z F, et al. Investigation on volatile and semi-volatile organic compounds in surface water sources of major drinking water in Jiangsu, Zhejiang and Shandong[J]. Journal of Environment and Health, 2011, 28(10):890-894(in Chinese).
[63] HE H,HU G J,SUN C,et al. Trace analysis of persistent toxic substances in the main stream of Jiangsu section of the Yangtze River, China[J]. Environmental Science and Pollution Research, 2011, 18(4):638-648. [64] ZHANG R F,WANG W L,SHI X R,et al. Health risk of semi-volatile organic pollutants in Wujin River inflow into Taihu Lake[J]. Ecotoxicology, 2011, 20(5):1083-1089. [65] ZHANG L F,DONG L,REN L J,et al. Concentration and source identification of polycyclic aromatic hydrocarbons and phthalic acid esters in the surface water of the Yangtze River Delta, China[J]. Journal of Environmental Sciences, 2012, 24(2):335-342. [66] GAO X Y,LI J,WANG X N,et al. Exposure and ecological risk of phthalate esters in the Taihu Lake basin, China[J]. Ecotoxicology and Environmental Safety, 2019, 171:564-570. [67] WU B,ZHAO D Y,ZHANG Y,et al. Multivariate statistical study of organic pollutants in Nanjing reach of Yangtze River[J]. Journal of Hazardous Materials, 2009, 169(1-3):1093-1098. [68] WANG X F,LOU X M,ZHANG N H,et al. Phthalate esters in main source water and drinking water of Zhejiang Province (China):Distribution and health risks[J]. Environmental Toxicology and Chemistry, 2015, 34(10):2205-2212. [69] WU B,ZHANG X X,ZHANG X L,et al. Semi-volatile organic compounds and trace elements in the Yangtze River source of drinking water[J]. Ecotoxicology, 2009, 18(6):707-714. [70] HE W,QIN N,KONG X,et al. Spatio-temporal distributions and the ecological and health risks of phthalate esters (PAEs) in the surface water of a large, shallow Chinese lake[J]. Science of the Total Environment, 2013, 461:672-680. [71] ZHU F,MAO C,DU D. Time-resolved immunoassay based on magnetic particles for the detection of diethyl phthalate in environmental water samples[J]. Science of the Total Environment, 2017, 601:723-731. [72] SHA Y J,XIA X H,YANG Z F,et al. Distribution of PAEs in the middle and lower reaches of the Yellow River, China[J]. Environmental Monitoring and Assessment, 2007, 124(1-3):277-287. [73] 张彦鹏,周爱国,刘存富,等. 长江流域武汉段水体中邻苯二甲酸酯含量研究[J]. 环境科学与技术, 2011, 34(11):130-134. ZHANG Y P, ZHOU A G, LIU C F, et al. Study on phthalate content in wuhan section of Yangtze River Basin[J].Environmental Science and Technology, 2011, 34(11):130-134(in Chinese).
[74] 王凡,沙玉娟,夏星辉,等. 长江武汉段水体邻苯二甲酸酯分布特征研究[J]. 环境科学, 2008, 29(5):1163-1169. WANG F, SHA Y J, XIA X H, et al. Distribution characteristics of phthalates in Wuhan section of the Yangtze River[J]. Environmental Science, 2008, 29(5):1163-1169(in Chinese).
[75] PETER CARSTEN V D O,VALERIA D,JAROSLAV S,et al. A new risk assessment approach for the prioritization of 500 classical and emerging organic microcontaminants as potential river basin specific pollutants under the European Water Framework Directive[J]. Science of the Total Environment, 2011, 409(11):2064-2077. [76] KOOIJMAN S A L M. A safety factor for LC 50 values allowing for differences in sensitivity among species[J]. Water Research, 1987, 21(3):269-276. [77] FORBES V E,CALOW P. Species sensitivity distributions revisited:A critical appraisal[J]. Hum Ecol Risk Assess, 2002, 8(3):473-492. [78] WU J,MA T J,ZHOU Z F,et al. Occurrence and fate of phthalate esters in wastewater treatment plants in Qingdao, China[J]. Human and Ecological Risk Assessment, 2019, 25(6):1547-1563. [79] 李慧珍, 裴媛媛, 游静. 流域水环境复合污染生态风险评估的研究进展[J]. 科学通报, 2019, 64(33):3412-3428. LI H Z, PEI Y Y, YOU J. Ecological risk assessment of combined pollution in watersheds[J]. Chin Sci Bull, 2019, 64(33):3412-3428(in Chinese).
[80] YI C,YU S,SONG T,et al. Site-specific water quality criteria for aquatic ecosystems:A case study of pentachlorophenol for Tai Lake, China[J]. Science of the Total Environment, 2016, 541:65-73. -
点击查看大图
计量
- 文章访问数: 2471
- HTML全文浏览数: 2471
- PDF下载数: 69
- 施引文献: 0
下载:
