آلایندههای نوظهور در محیطهای آبی: وقوع، منابع، سرنوشت، اثرات بهداشتی و زیست محیطی و ارزیابی ریسک
محورهای موضوعی : ارزیابی خطرات آلاینده ها بر روی محیط زیست
محمد صفری
1
,
احمد اصل هاشمی
2
,
غلامحسین صفری
3
1 - دانشکده پزشکی، واحد کرمان، دانشگاه آزاد اسلامی، کرمان، ایران
2 - گروه مهندسی بهداشت محیط، دانشکده بهداشت، دانشگاه علوم پزشکی تبریز، تبریز، ایران
3 - گروه مهندسی بهداشت محیط، دانشکده بهداشت، دانشگاه علوم پزشکی تبریز، تبریز، ایران
کلید واژه: محیطهای آبی, آلایندههای نوظهور, سرنوشت, اثرات بهداشتی, ارزیابی ریسک,
چکیده مقاله :
آلایندههای نوظهور (EPS) شامل بسیاری از ترکیبات مصنوعی یا طبیعی از قبیل زیستکشها (بیوسایدها)، بازدارندههای آتش، هیدروکربنهای آروماتیک چند حلقهای، نرمکنندهها، مواد فعال سطحی (سورفکتانتها)، هورمونها، محصولات مراقبت شخصی، ترکیبات دارویی و نانوذرات میباشند، که اغلب در محیط کنترل یا نظارت نمیشوند. این آلاینده ها در غلظتهای محیطی کم وجود دارند و اثرات شدیدی بر سلامتی انسان و موجودات زنده میگذارند. این آلایندهها عمدتاً در بیمارستانها، مزارع کشاورزی و مناطق شهری و صنعتی تولید میشوند. راههای اصلی ورود آنها به محیط زیست، بقایای آبهای آلوده، لجن فاضلاب حاصل از تصفیهخانه فاضلاب و کود دامی ناشی از مزارع کشاورزی میباشند. با این حال، اگرچه منابع ورودی این آلایندهها شناخته شده هستند، سرنوشت و رفتار آنها در بخشهای مختلف محیطی و همچنین خطرات آنها برای سلامتی انسان و محیط زیست نیاز به تحقیقات بیشتری دارد. هدف از این مقاله مروری، بررسی وضعیت فعلی وقوع، منابع آلودگی، سرنوشت، اثرات بهداشتی و زیستمحیطی و همچنین ارزیابی ریسکهای ناشی از EPها در محیطهای آبی در راستای مدیریت پایدار منابع آبی میباشد. در این مقاله مروری طبقهبندی EPها در محیط زیست، منابع، سرنوشت و اثرات آنها، با چند مثال مورد بحث قرار میگیرد. همچنین برخی از مشکلات مربوط به آلودگی محیطهای آبی با EPها و ریسکهایی که آنها میتوانند برای آبزیان و سلامتی انسانها ایجاد کنند، ارائه میشود. این مقاله نگاهی انتقادی به چالشهای فعلی ناشی از حضور EPها در محیطهای آبی و توصیههایی برای تحقیقات بیشتر به منظور کاهش اثرات EPها بر محیطهای آبی و سلامت انسان ارائه میکند.
Emerging pollutants (EPs) encompass a wide range of synthetic or natural substances, such as biocides, fire retardants, polycyclic aromatic hydrocarbons (PAHs), emollients, surfactants, hormones, personal care products, pharmaceutical compounds, and nanoparticles, many of which are not consistently controlled or monitored in the environment. Despite their typically low environmental concentrations, these pollutants pose significant risks to human health and living organisms. EPs primarily originate from hospitals, agricultural fields, urban areas and industrial sectors. Their entrance into the environment occurs through polluted water, wastewater sludge from wastewater treatment plants, and manure from agricultural fields. While the sources of EPs are generally known, further research is needed to fully understand their behavior, fate, and potential risks across different environmental sectors as well as their impacts on human health and ecosystems. This review aims to investigate the current state of the occurrence, pollution sources, fate, and health and environmental impacts of EPs, with a particular focus on aquatic environments and the broader goal of sustainable water resource management. The article categorizes EPs in the environment, and provides detailed discussion on their sources, fate and effects supported by relevant examples. Additionally, it addresses the challenges posed by EP contamination in aquatic systems and the associated risks to both aquatic life and human health. Finally the review offers critical insights into the current challenges and suggests avenues for further research to mitigate the effects of EPs on aquatic environments and public health.
[1] Bunke, D., Moritz, S., Brack, W., Herráez, D.L., Posthuma, L., Nuss, M., 2019, Developments in society and implications for emerging pollutants in the aquatic environment, Environmental Sciences Europe, 31, 32.
[2] Gavrilescu, M., Demnerová, K., Aamand, J., Agathos, S., Fava, F., 2015, Emerging pollutants in the environment: present and future challenges in biomonitoring, ecological risks and bioremediation, New Biotechnology, 32, 147.
[3] Geissen, V., Mol, H., Klumpp, E., Umlauf, G., Nadal, M., van der Ploeg, M., van de Zee, S.E., Ritsema, C.J., 2015. Emerging pollutants in the environment: A challenge for water resource management, International Soil and Water Conservation Research, 3, 57.
[4] Phillips, L.J., Moya, J., 2014, Exposure factors resources: Contrasting EPA’s exposure factors handbook with international sources, Journal of Exposure Science & Environmental Epidemiology, 24, 233.
[5] Stefanakis, A.I., Becker, J.A., 2016, A review of emerging contaminants in water: Classification, sources, and potential risks, In: Impact of water pollution on human health and environmental sustainability, McKeown, A.E., Bugyi, G., (Editors), IGI Global, pp. 55-80.
[6] Vasilachi, I.C., Asiminicesei, D.M., Fertu, D.I., Gavrilescu, M., 2021, Occurrence and fate of emerging pollutants in water environment and options for their removal, Water, 13, 181.
[7] Sauvé, S., Desrosiers, M., 2014, A review of what is an emerging contaminant, Chemistry Central Journal, 8, 15.
[8] Battaglin, W., Kolpin, D.W., Furlong, E., Glassmeyer, S., Blackwell, B., Corsi, S., Meyer, M., Bradley, P., 2018, Contaminants of emerging concern in the environment, Water Resources Impact, 20, 8.
[9] Petrie, B., Barden, R., Kasprzyk-Hordern, B., 2015, A review on emerging contaminants in wastewaters and the environment: Current knowledge, understudied areas and recommendations for future monitoring, Water Research, 72, 3.
[10] Sanderson, H., Fricker, C., Brown, R.S., Majury, A., Liss, S.N., 2016, Antibiotic resistance genes as an emerging environmental contaminant, Environmental Reviews, 24, 205.
[11] Glassmeyer, S.T., Furlong, E.T., Kolpin, D.W., Batt, A.L., Benson, R., Boone, J.S., Conerly, O., Donohue, M.J., King, D.N., Kostich, M.S., Mash, H.E., Pfaller, S.L., Schenck, K.M., Simmons, J.E., Varughese, E.A., Vesper, S.J., Villegas, E.N., Wilson, V.S., 2017, Nationwide reconnaissance of contaminants of emerging concern in source and treated drinking waters of the United States, Science of the Total Environment, 581, 909.
[12] Philip, J.M., Aravind, U.K., Aravindakumar, C.T., 2018, Emerging contaminants in Indian environmental matrices – a review, Chemosphere, 190, 307.
[13] Larsson, D.J., 2014, Pollution from drug manufacturing: Review and perspectives, Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences, 369, 20130571.
[14] Carvalho, A.R.M., Cardoso, V.V., Rodrigues, A., Ferreira, E., Benoliel, M.J., Duarte, E.A., 2015, Occurrence and analysis of endocrine-disrupting compounds in a water supply system, Environmental Monitoring and Assessment, 187, 139.
[15] Lai, W.W.P., Lin, Y.C., Tung, H.H., Lo, S.L., Lin, A.Y.C., 2016, Occurrence of pharmaceuticals and perfluorinated compounds and evaluation of the availability of reclaimed water in Kinmen, Emerging Contaminants, 2, 135.
[16] McGrath, T.J., Morrison, P.D., Ball, A.S., Clarke, B.O., 2017, Detection of novel brominated flame retardants (NBFRs) in the urban soils of Melbourne, Australia, Emerging Contaminants, 3, 23.
[17] Cowell, W.J., Stapleton, H.M., Holmes, D., Calero, L., Tobon, C., Perzanowski, M., Herbstman, J.B., 2017, Prevalence of historical and replacement brominated flame retardant chemicals in New York City homes, Emerging Contaminants, 3, 32.
[18] Westhof, L., Köster, S., Reich, M., 2016, Occurrence of micropollutants in the wastewater streams of cruise ships, Emerging Contaminants, 2, 178.
[19] Sanganyado, E., Rajput, I.R., Liu, W., 2018, Bioaccumulation of organic pollutants in Indo-Pacific humpback dolphin: A review on current knowledge and future prospects, Environmental Pollution, 237, 111.
[20] Qi, C., Huang, J., Wang, B., Deng, S., Wang, Y., Yu, G., 2018, Contaminants of emerging concern in landfill leachate in China: A review, Emerging Contaminants, 4, 1.
[21] Starling, M.C.V.M., Amorim, C.C., Leão, M.M.D., 2019, Occurrence, control and fate of contaminants of emerging concern in environmental compartments in Brazil, Journal of Hazardous Materials, 372, 17.
[22] Gong, X., Li, K., Wu, C., Wang, L., Sun, H., 2018, Passive sampling for monitoring polar organic pollutants in water by three typical samplers, Trends in Environmental Analytical Chemistry, 17, 23.
[23] Gogoi, A., Mazumder, P., Tyagi, V.K., Chaminda, G.G.T., An, A.K., Kumar, M., 2018, Occurrence and fate of emerging contaminants in water environment: A review, Groundwater for Sustainable Development, 6, 169.
[24] Barboza, L.G.A., Vethaak, A.D., Lavorante, B.R.B.O., Lundebye, A.K., Guilhermino, L., 2018, Marine microplastic debris: An emerging issue for food security, food safety and human health, Marine Pollution Bulletin, 133, 336.
[25] Taheran, M., Naghdi, M., Brar, S.K., Verma, M., Surampalli, R.Y., 2018, Emerging contaminants: Here today, there tomorrow!, Environmental Nanotechnology, Monitoring & Management, 10, 122.
[26] Dey, S., Bano, F., Malik, A., 2019, Pharmaceuticals and personal care product (PPCP) contamination - a global discharge inventory, In: Pharmaceuticals and personal care products: Waste management and treatment technology, Prasad, M.N.V., Vithanage, M., Kapley, A., (Editors), Butterworth-Heinemann (imprint of Elsevier), pp. 1-26.
[27] Abdulrazaq, Y., Abdulsalam, A., Rotimi, A.L., Abdulbasit, A.A., Clifford, O., Abdulsalam, O.A., Racheal, O.N., Joy, A.A., Victor, F.O., Johannes, Z.M., Bilal, M., Umar M, S., 2020, Classification, potential routes and risk of emerging pollutants/contaminant, In: Emerging contaminants, Nuro, A., (Editor), IntechOpen, pp. 3-14.
[28] Yahaya, A., Sale, F.J., Salehdeen, U.M., 2020, Analytical Methods for Determination of regulated and unregulated disinfection by-products in drinking water: A review, CaJoST, 2, 25.
[29] NORMAN Network, 2016, List of NORMAN emerging substances, Available online: https://www.norman-network.net
[30] Rodriguez-Narvaez, O.M., Peralta-Hernandez, J.M., Goonetilleke, A., Bandala, E.R., 2017, Treatment technologies for emerging contaminants in water: A review, Chemical Engineering Journal, 323, 361.
[31] Richardson, S.D., Ternes, T.A., 2022, Water analysis: Emerging contaminants and current issues, Analytical Chemistry, 94, 382.
[32] Li, W.C., 2014, Occurrence, sources, and fate of pharmaceuticals in aquatic environment and soil, Environmental Pollution, 187, 193.
[33] Yahaya, A., Okoh, O.O., Okoh, A.I., Adeniji, A.O., 2017, Occurrences of organochlorine pesticides along the course of the Buffalo River in the Eastern Cape of South Africa and its health implications, International Journal of Environmental Research and Public Health, 14, 1372.
[34] Yu, C.P., Chu, K.H., 2009, Occurrence of pharmaceuticals and personal care products along the West Prong Little Pigeon River in east Tennessee, USA, Chemosphere, 75, 1281.
[35] Rogers, J.A., Metz, L., Yong, V.W., 2013, Review: Endocrine disrupting chemicals and immune responses: A focus on bisphenol-A and its potential mechanisms, Molecular Immunology, 53, 421.
[36] Du, B., Haddad, S.P., Scott, W.C., Chambliss, C.K., Brooks, B.W., 2015, Pharmaceutical bioaccumulation by periphyton and snails in an effluent-dependent stream during an extreme drought, Chemosphere, 119, 927.
[37] Snow, D.D., Cassada, D.A., Larsen, M.L., Mware, N.A., Li, X., D'Alessio, M., Zhang, Y., Sallach, J.B., 2017, Detection, occurrence and fate of emerging contaminants in agricultural environments, Water Environment Research, 89, 897.
[38] Tang, Y., Yin, M., Yang, W., Li, H., Zhong, Y., Mo, L., Liang, Y., Ma, X., Sun, X., 2019, Emerging pollutants in water environment: Occurrence, monitoring, fate, and risk assessment, Water Environment Research, 91, 984.
[39] Hlavínek, P., Žižlavská, A., 2018, Occurrence and removal of emerging micropollutants from urban wastewater, In: Water management and the environment: Case studies, Zelenakova, M., (Editor), Springer, pp. 231-254.
[40] Gomes, A.R., Justino, C., Rocha-Santos, T., Freitas, A.C., Duarte, A.C., Pereira, R., 2017, Review of the ecotoxicological effects of emerging contaminants to soil biota, Journal of Environmental Science and Health, Part A: Toxic/Hazardous Substances and Environmental Engineering, 52, 992.
[41] Basheer, A.A., 2018, New generation nano-adsorbents for the removal of emerging contaminants in water, Journal of Molecular Liquids, 261, 583.
[42] Warner, W., Nödler, K., Farinelli, A., Blum, J., Licha, T., 2018, Integrated approach for innovative monitoring strategies of reservoirs and lakes, Environmental Engineering & Management Journal, 17, 2497.
[43] Organisation for Economic Co-operation and Development (OECD), 2019, Pharmaceutical residues in freshwater: hazards and policy responses. OECD Publishing.
[44] Kraemer, S.A., Ramachandran, A., Perron, G.G., 2019, Antibiotic pollution in the environment: From microbial ecology to public policy, Microorganisms, 7, 180.
[45] Hiller, J., Klotz, K., Meyer, S., Uter, W., Hof, K., Greiner, A., Göen, T., Drexler, H., 2019, Systemic availability of lipophilic organic UV filters through dermal sunscreen exposure, Environment International, 132, 105068.
[46] Zhou, X., Peng, F., Luo, Z., Li, Y., Li, H., Yang, Z., 2020, Assessment of water contamination and health risk of endocrine disrupting chemicals in outdoor and indoor swimming pools, Science of the Total Environment, 704, 135277
[47] Salthammer, T., 2020, Emerging indoor pollutants, International Journal of Hygiene and Environmental Health, 224, 113423.
[48] European Parliament, Council of the European Union, 2009, Regulation (EC) No 1223/2009 of the european parliament and of the council of 30 November 2009 on cosmetic products, Official Journal of the European Union, 342, 59.
[49] Magi, E., Scapolla, C., Di Carro, M., Rivaro, P., Nguyen, K.T.N., 2013, Emerging pollutants in aquatic environments: Monitoring of UV filters in urban wastewater treatment plants, Analytical Methods, 5, 428.
[50] The Commission of the European Communities, 2008, Council regulation (EC) No 440/2008 of 30 May 2008 laying down test methods pursuant to regulation (EC) No 1907/2006 of the European Parliament and of the Council on the Registration, Evaluation, Authorisation and Restriction of Chemicals (REACH), Official Journal of the European Union, 142, 1.
[51] The European Parliament and the Council of the European Union, 2004, Regulation (EC) No 726/2004 of the European Parliament and of the Council of 31 March 2004 laying down community procedures for the authorisation and supervision of medicinal products for human and veterinary use and establishing a European Medicines Agency, Official Journal of the European Union, 136, 1.
[52] European Parliament, Council of the European Union, 2000, Directive 2000/60/EC of the European Parliament and of the council of 23 October 2000 establishing a framework for community action in the field of water policy, Official Journal of the European Communities, 327, 1.
[53] Sorlini, S., Collivignarelli, M.C., Miino, M.C., 2019, Technologies for the control of emerging contaminants in drinking water treatment plants, Environmental Engineering & Management Journal, 18, 203.
[54] Caracciolo, A.B., Grenni, P., Rauseo, J., Ademollo, N., Cardoni, M., Rolando, L., Patrolecco, L., 2018, Degradation of a fluoroquinolone antibiotic in an urbanized stretch of the River Tiber, Microchemical Journal, 136, 43.
[55] Lin, X., Xu, J., Keller, A.A., He, L., Gu, Y., Zheng, W., Sun, D., Lu, Z., Huang, J., Huang, X., Li, G., 2020, Occurrence and risk assessment of emerging contaminants in a water reclamation and ecological reuse project, Science of the Total Environment, 744, 140977.
[56] Dsikowitzky, L., Crawford, S.E., Nordhaus, I., Lindner, F., Irianto, H.E., Ariyani, F., Schwarzbauer, J., 2020, Analysis and environmental risk assessment of priority and emerging organic pollutants in sediments from the tropical coastal megacity Jakarta, Indonesia, Regional Studies in Marine Science, 34, 101021.
[57] Larroze, S., Russo, M., Gadelha, J.R., Tode, L., 2021, Contaminants of emerging concern in the Mediterranean Sea, Plan Bleu Notes, 40.
[58] Sanchez, W., Egea, E., 2018, Health and environmental risks associated with emerging pollutants and novel green processes, Environmental Science and Pollution Research, 25, 6085.
[59] Rivera-Jaimes, J.A., Postigo, C., Melgoza-Alemán, R.M., Aceña, J., Barceló, D., de Alda, M.L., 2018, Study of pharmaceuticals in surface and wastewater from Cuernavaca, Morelos, Mexico: Occurrence and environmental risk assessment, Science of the Total Environment, 613-614, 1263.
[60] Kortenkamp, A., Backhaus, T., Faust, M., 2009, State of the art report on mixture toxicity, Final Report - Executive Summary, School of Pharmacy, University of London, London, UK.
[61] Wu, D., Zhou, Y., Lu, G., Hu, K., Yao, J., Shen, X., Wei, L., 2019, The occurrence and risks of selected emerging pollutants in drinking water source areas in Henan, China, International Journal of Environmental Research and Public Health, 16, 4109.
[62] Thomaidi, V.S., Matsoukas, C., Stasinakis, A.S., 2017, Risk assessment of triclosan released from sewage treatment plants in European rivers using a combination of risk quotient methodology and Monte Carlo simulation, Science of the Total Environment, 603-604, 487.
[63] López-Doval, J.C., Montagner, C.C., de Alburquerque, A.F., Moschini-Carlos, V., Umbuzeiro, G., Pompêo, M., 2017, Nutrients, emerging pollutants and pesticides in a tropical urban reservoir: Spatial distributions and risk assessment, Science of the Total Environment, 575, 1307.
[64] Zhou, S., Di Paolo, C., Wu, X., Shao, Y., Seiler, T.B., Hollert, H., 2019, Optimization of screening-level risk assessment and priority selection of emerging pollutants–the case of pharmaceuticals in European surface waters, Environment International, 128, 1.
[65] Yan, Z., Liu, Y., Yan, K., Wu, S., Han, Z., Guo, R., Chen, M., Yang, Q., Zhang, S., Chen, J., 2017, Bisphenol analogues in surface water and sediment from the shallow Chinese freshwater lakes: Occurrence, distribution, source apportionment, and ecological and human health risk, Chemosphere, 184, 318.
[66] Xiao, J., Wang, L., Deng, L., Jin, Z., 2019, Characteristics, sources, water quality and health risk assessment of trace elements in river water and well water in the Chinese Loess Plateau, Science of the Total Environment, 650, 2004.
[67] Dos Santos, D.M., Buruaem, L., Gonçalves, R.M., Williams, M., Abessa, D.M.S., Kookana, R., de Marchi, M.R.R., 2018, Multiresidue determination and predicted risk assessment of contaminants of emerging concern in marine sediments from the vicinities of submarine sewage outfalls, Marine Pollution Bulletin, 129, 299.
[68] Česen, M., Heath, D., Krivec, M., Košmrlj, J., Kosjek, T., Heath, E., 2018, Seasonal and spatial variations in the occurrence, mass loadings and removal of compounds of emerging concern in the Slovene aqueous environment and environmental risk assessment, Environmental Pollution, 242, 143.
[69] Peng, Y., Fang, W., Krauss, M., Brack, W., Wang, Z., Li, F., Zhang, X., 2018, Screening hundreds of emerging organic pollutants (EOPs) in surface water from the Yangtze River Delta (YRD): Occurrence, distribution, ecological risk, Environmental Pollution, 241, 484.
[70] Di Poi, C., Costil, K., Bouchart, V., Halm-Lemeille, M.P., 2018, Toxicity assessment of five emerging pollutants, alone and in binary or ternary mixtures, towards three aquatic organisms, Environmental Science and Pollution Research, 25, 6122.
[71] D’Alessandro, M., Esposito, V., Porporato, E.M.D., Berto, D., Renzi, M., Giacobbe, S., Scotti, G., Consoli, P., Valastro, G., Andaloro, F., Romeo, T., 2018, Relationships between plastic litter and chemical pollutants on benthic biodiversity, Environmental Pollution, 242, 1546.
[72] Means, B., 1989, Risk-assessment guidance for superfund. Volume 1. Human health evaluation manual. Part A. Interim report (Final). Environmental Protection Agency, Office of Solid Waste and Emergency Response, Washington, D.C., USA.
[73] Fàbrega, F., Marquès, M., Ginebreda, A., Kuzmanovic, M., Barceló, D., Schuhmacher, M., Domingo, J.L., Nadal, M., 2013, Integrated risk index of chemical aquatic pollution (IRICAP): Case studies in Iberian rivers, Journal of Hazardous Materials, 263,187.