Nội dung được dịch bởi AI, chỉ mang tính chất tham khảo
Một Công Cụ Hỗ Trợ Quyết Định Để Ngăn Ngừa Ô Nhiễm Nước Và Eutro-ph hoá Tại Các Hồ Nông Phụ Thuộc Nguồn Nước Dưới Đất Từ Các Khu Vực Ven Đô Dựa Trên Khung DPSIR
Tóm tắt
Sự suy giảm chất lượng nước trên toàn cầu là một vấn đề môi trường nghiêm trọng. Các nhà quản lý nước vẫn cần các công cụ hoạt động để đánh giá các vấn đề liên quan đến nước và để thông báo cho kế hoạch và quyết định về nước. Mục tiêu của bài viết này là đề xuất một khuôn khổ phương pháp ba bước để đánh giá vấn đề ô nhiễm nước thông qua việc kết hợp công cụ mô hình khái niệm (DPSIR) với phát triển một mô hình định lượng (Mô hình Quyết định Đa tiêu chí). Đóng góp này cung cấp một công cụ đánh giá thực tiễn và linh hoạt để thực hiện một đánh giá tích hợp về sự eutro-ph hoá và các hóa chất nông nghiệp được cung cấp cho các hồ nông phụ thuộc vào nước ngầm. Nó đặt ra các hướng dẫn hành động cho các nhà quản lý môi trường trong bối cảnh các thành phố trung gian tại các nước đang phát triển. Bốn mươi mốt chỉ số đã được xác định để đặc trưng cho các thành phần D-P-S-I và cho việc khái niệm hóa mô hình đa tiêu chí. Trong nghiên cứu này, phân tích các tùy chọn phản hồi bao gồm việc đánh giá và lựa chọn các công cụ quản lý nước thông qua một công cụ hỗ trợ quyết định. Hai lưu vực hồ nước nằm ở khu vực ven đô của hai thành phố có quy mô trung bình tại Argentina đã được chọn để minh họa cho cách tiếp cận phương pháp này. Kết quả thu được cho phép thiết lập một bảng xếp hạng các khu vực cần ưu tiên, xác định các tiêu chí và tiêu chí phụ để tập trung vào việc đưa ra các hướng dẫn hành động nhằm giảm thiểu ô nhiễm nước và sự eutro-ph hoá. Những hướng dẫn hành động này là rất cần thiết ở các nước đang nổi, nơi các nguồn lực tài chính, nhân lực và cơ sở hạ tầng đều hạn chế. Sự khan hiếm của các nguồn lực như vậy gây ra những hệ lụy quan trọng liên quan đến các giải pháp chính sách cho các vấn đề môi trường. Công cụ hỗ trợ quyết định đã được triển khai ở cả hai lưu vực hồ nước đã cung cấp một cơ sở chung để hiểu biết về các vấn đề ô nhiễm nước hiện tại và một thứ hạng định lượng (tức là, điểm quyết định) để xác định các hành động cụ thể (phản hồi) cho các áp lực do con người gây ra đối với các hệ thống tự nhiên như vậy.
Từ khóa
#ô nhiễm nước #nước ngầm #eutrophication #công cụ hỗ trợ quyết định #quản lý tài nguyên nước #mô hình đa tiêu chí #các hồ nôngTài liệu tham khảo
Allen A (2003) Environmental planning and management of the periurban interface: perspective on an emerging field. Environ Urban 15:135–147
APHA American Public Health Association (1998) Standard Methods for the Examination of Water and Wastewater. 20th edn. American Public Health Association, American Water Works Association, Water Environment Federation, Washington, DC. Argentina
Baccaro K, Degorgue M, Lucca M, Picone L, Zamuner E, Andreoli Y (2006) Calidad del agua para consumo humano y riego en muestras del cinturón hortícola de Mar del Plata. RIA 35(3):95–110
Bagordo F, Migoni D, Grassi T, Serio F, Idolo A, Guido M, Zaccarelli N, Fanizzi FP, De Donno A (2016) Using the DPSIR framework to identify factors influencing the quality of groundwater in Grecı̀a Salentina (Puglia, Italy). Rend Fis Acc Lincei https://doi.org/10.1007/s12210-015-0456-8
Bell S (2012) DPSIR= A problem structuring method? An exploration from the “Imagine” approach. Eur J Oper Res https://doi.org/10.1016/j.ejor.2012.04.029
Bolay JC (2018) Planning the intermediate city, or how to do better with little: the case of the city of Nueve de Julio, Argentina. Curr Urban Stud https://doi.org/10.4236/cus.2018.63020
Bolay JC (2020) Urban Dynamics and Regional Development in Argentina. In: Urban Planning Against Poverty. Future City, 1st edn, Springer, Cham, p 167–202, https://doi.org/10.1007/978-3-030-28419-0_6
Bolay JC, Rabinovich A (2004) Intermediate cities in Latin America risk and opportunities of coherent urban development. Cities https://doi.org/10.1016/j.cities.2004.07.007
Budzyńska A, Rosińska J, Pełechata A, Toporowska M, Napiórkowska-Krzebietke A, Kozak A, Messyasz B, et al. (2019) Environmental factors driving the occurrence of the invasive cyanobacterium Sphaerospermopsis aphanizomenoides (Nostocales) in temperate lakes. Sci Total Environ https://doi.org/10.1016/j.scitotenv.2018.09.144
Busck A, Kristenson SP, Praestholm S, Reenberg A, Primdahl J (2006) Land system changes in the context of urbanisation: examples from the peri-urban area of Greater Copenhagen. Geografisk Tidsskrift-Danish. J Geog 106:21–34
Cardoni DA, Favero M, Isaach JP (2008) Recreational activities affecting the habitat use by birds in Pampa’s wetlands, Argentina: Implications for waterbird conservation. Biol Conserv https://doi.org/10.1016/j.biocon.2007.12.024
Carlson RE (1977) A trophic state index for lakes. Limnol Oceanogr 22(2):361–369
Castro Berman M, Marino DJG, Quiroga MV, Zagarese H (2018) Occurrence and levels of glyphosate and AMPA in shallow lakes from the Pampean and Patagonian regions of Argentina. Chemosphere https://doi.org/10.1016/j.chemosphere.2018.02.103
Daga D, Zulaica L, Ferraro R, Vazquez P (2017) Expansión e intensificación hortícola en el partido de General Pueyrredón, Argentina: sustentabilidad ecológica e impactos ambientales. Revista Geografia em Questao 10(2):102–117
Diovisalvi N, Bohn VY, Piccolo MC, Perillo GM, Baigún C, Zagarese HE (2015) Shallow lakes from the Central Plains of Argentina: an overview and worldwide comparative analysis of their basic limnological features. Hydrobiologia https://doi.org/10.1007/s10750-014-1946-x
Dubrovsky NM, Burow KR, Clark GM, Gronberg JM, Hamilton PA, Hitt KJ, Mueller DK, Munn MD, Nolan BT, Puckett LJ, Rupert MG, Short TM, Spahr NE, Sprague LA, Wilber WG (2010) The quality of our Nation’s waters—Nutrients in the Nation’s streams and groundwater, 1992–2004. U.S. Geological Survey Circular 1350
EPA Environmental Policy Agency (2005) Registration eligibility decision for 2,4-D. EPA 738-R-05-002. 320 pp. https://nepis.epa.gov/Exe/ZyPDF.cgi/2000E8DY.PDF?Dockey=2000E8DY.PDF. Accessed 23 August 2020
EPA United States Environmental Protection Agency (2020) Indicators Used in the National Aquatic Resource Surveys. https://www.epa.gov/national-aquatic-resource-surveys/indicators-used-national-aquatic-resource-surveys. Accessed 11 August 2020
European Commission (2002) Guidance for the analysis of pressures and impacts in accordance with the Water Framework Directive. Common Implementation Strategy. Working Group 2.1. Office for Official Publications of the European Communities
FAO/IWMI Food and Agriculture Organization of the United Nations, International Water Management Institute (2018) More People, More Food, Worse Water? A Global Review of Water Pollution from Agriculture. In: Mateo-Sagasta J, Zadeh SM, Turral H (ed). FAO/IWMI, Rome/Colombo
Gari SR, Newton A, Icely JD (2015) A review of the application and evolution of the DPSIR framework with an emphasis on coastal social-ecological systems. Ocean Coast Manag https://doi.org/10.1016/j.ocecoaman.2014.11.013
Gebremedhin S, Getahun A, Anteneh W, Bruneel S, Goethals P (2018) A drivers-pressure-state-impact-responses framework to support the sustainability of fish and fisheries in Lake Tana, Ethiopia. Sustainability https://doi.org/10.3390/su10082957
Giupponi C (2002) From the DPSIR reporting framework to a system for a dynamic and integrated decision making process. MULINO Conference on “European policy and tools for sustainable water management”. Venice, Italy.
Gonzalez MV, Diuorno R, Caetano F, Rattin J (2017) Evolución del cinturón hortícola marplatense. Estrategias y logros para la adecuación productiva ante cambios legales. Rev Fac Agron 116:97–106
Gorelick J, Moktar J (2018) Raising Capital for Intermediary Cities. www.oecd-development-matters.org/2018/09/10/raising-capital-for-intermediarycities. Accessed 11 March 2021
Hamilton D, Ambrus A, Dieterler R, Felsot A, Harris C, Holland P, Katayama A, Kurihara N, Horne AJ, Goldman CR (1994) Limnology (Vol. 2), 2nd edn. McGraw-Hill, New York
Hawes E, Smith M (2005) Riparian buffer zones: functions and recommended widths. Eightmile River Wild and Scenic Study Committee 15
Horne AJ, Goldman CR (1994) Limnology (Vol. 2), 2nd edn. McGraw-Hill, New York
INDEC Instituto Nacional de Estadísticas y Censos National Institute of Statistics and Censuses (2012) Population, households and housing 2010 National Census. Serie B No. 2, 1st edn. INDEC, Buenos Aires
INDEC, National Institute of Statistics and Censuses. (2001). Population, households and housing 2001 National Census. https://sitioanterior.indec.gob.ar/micro_sitios/webcenso/index.asp. Accessed 3th March 2021
Iturburu FG, Calderon G, Amé MV, Menone ML (2019) Ecological Risk Assessment (ERA) of pesticides from freshwater ecosystems in the Pampas region of Argentina: Legacy and current use chemicals contribution. Sci Total Environ https://doi.org/10.1016/j.scitotenv.2019.07.044
Jarrige R, Béranger C (1992) Beef cattle production. Elsevier Science Publishers, Amsterdam
Kakoyannis C, Stankey GH (2002) Assessing and evaluating recreational uses of water resources: implications for an integrated management framework. Gen. Tech. Rep. PNW-GTR-536. U.S. Department of Agriculture, Forest Service, Pacific Northwest Research Station:Portland, OR, p 59
Kamenetzky R (1982) The relationship between the analytical hierarchy process and the additive value function. Decis Sci 13:702–716
Karpouzoglou T, Marshall F, Mehta L (2018) Towards a peri-urban political ecology of water quality decline. Land Use Policy https://doi.org/10.1016/j.landusepol.2017.11.004
Le Moal M, Gascuel-Odoux C, Ménesguen A, Souchon Y, Étrillard C, Levain A, Moatar F, Pannard A, Souchu P, Lefebvre A, Pinay G (2019) Eutrophication: a new wine in an old bottle?. Sci Total Environ https://doi.org/10.1016/j.scitotenv.2018.09.139
Leguizamón A (2016) Disappearing nature? Agribusiness, biotechnol-ogy and distance in Argentine soybean production. J Peasant Stud https://doi.org/10.1080/03066150.2016.1140647
Loewy M, Monza LB, Kirs VE, Savini MC (2011) Pesticide distribution in an agricultural environment in Argentina. J Environ Sci Health, Part B: Pestic, Food Contam Agric Wastes 46(8):662–670. https://doi.org/10.1080/03601234.2012.592051
Mateus M, Campuzano FJ (2008) The DPSIR framework applied to the integrated management of coastal areas. In: Neves R, Baretta JW, Mateus M (eds) Perspectives on Integrated Coastal Management in South America. IST Press, Lisbon, p 29–42.
Matta G (2014) A study on physico-chemical characteristics to assess the pollution status of river Ganga in Uttarakhand. Chem Pharm Sci 7(3):210–217
Maydana G, Romagnoli M, Cunha M, Portapila M (2020) Integrated valuation of alternative land use scenarios in the agricultural ecosystem of a watershed with limited available data, in the Pampas region of Argentina. Sci Total Environ https://doi.org/10.1016/j.scitotenv.2019.136430
Mosisch TD, Arthington AH (1998) The impacts of power boating on water skiing on lakes and reservoirs. Lake Reserv Manag 3:1–17
Murphy PJ (2014) Criterium DecisionPlus. In: Reynolds KM, Hessburg PF, Bourgeron PS (ed) Making Transparent Environ Manage Decisions: applications of the Ecosystem Management Decision Support System: Springer, Berlin, Germany, p 35–60
Nuhu S (2019) Peri-urban land governance in developing countries: understanding the role, interaction and power relation among actors in Tanzania. Urban Forum 30(1):1–16
OECD Organisation for Economic Co-operation and Development (2019) Agricultural Policies in Argentina. https://www.oecd.org/officialdocuments/publicdisplaydocumentpdf/?cote=TAD/CA(2018)9/FINAL&docLanguage=En. Accessed 24 August 2020
Patrício J, Elliott M, Mazik K, Papadopoulou KN, Smith CJ (2016) DPSIR—two decades of trying to develop a unifying framework for marine environmental management?. Front Mar Sci https://doi.org/10.3389/fmars.2016.00177
Pérez DJ, Okada E, De Gerónimo E, Menone M, Aparicio V, Costa JL (2017) Spatial and temporal trends and flow dynamics of glyphosate and other pesticides within an agricultural watershed in Argentina. Environ Toxicol Chem https://doi.org/10.1002/etc.3897
Pinto R, da Conceição Cunha M, Roseta-Palma C, Marques JC (2014) Mainstreaming sustainable decision-making for ecosystems: integrating ecological and socio-economic targets within a decision support system. Environ Proc https://doi.org/10.1007/s40710-014-0006-x
Quirós R (2005) La ecología de las lagunas de las Pampas. Investigación y Ciencia 1(6):1–13
Ramos-Quintana F, Ortíz-Hernández ML, Sánchez-Salinas E, Vázquez EU, Guerrero JA, Zamorano M (2018) Quantitative assessments of environmental causal networks to support the DPSIR framework in the decision-making process. Environ Impact Assess Rev https://doi.org/10.1016/j.eiar.2017.11.004
RAMSAR Ramsar Convention on Wetlands (2018) Global Wetland Outlook: State of the World’s Wetlands and their Services to People. Ramsar Convention Secretariat: Gland, Switzerland, p 89
Ravetz J, Fertner C, Nielsen TS (2013) The dynamics of peri-urbanization. In: Nilsson K, Pauleit S, Bell S, Aalbers C, Nielsen TS (eds) Peri-urban futures: Scenarios and models for land use change in Europe, p 13–44
Rivas EJ, Pérez GR, Tundisi JG, Vammen K, Örmeci B, Forde M (2020) Eutrophication: a growing problem in the Americas and the Caribbean. Braz J Biol https://doi.org/10.1590/1519-6984.200001
Romanelli A, Esquius KS, Massone HE, Escalante AH (2013) GIS-based pollution hazard mapping and assessment framework of shallow lakes: Southeastern Pampean lakes (Argentina) as a case study. Environ Monit Assess https://doi.org/10.1007/s10661-013-3077-7
Romanelli A, Lima ML, Massone HE, Esquius KS (2014a) Spatial decision support system for assessing lake pollution hazard: southeastern pampean shallow lakes (Argentina) as a case study. Wetl Ecol Manag https://doi.org/10.1007/s11273-013-9327-1
Romanelli A, Quiroz Londoño OM, Martínez DE, Massone HE, Escalante AH (2014b) Hydrogeochemistry and isotope techniques to determine water interactions in groundwater-dependent shallow lakes, Wet Pampa Plain, Argentina. Environ Earth Sci https://doi.org/10.1007/s12665-013-2601-y
Romanelli A, Soto DX, Matiatos I, Martínez DE, Esquius KS (2020) A biological and nitrate isotopic assessment framework to understand eutrophication in aquatic ecosystems. Sci Total Environ https://doi.org/10.1016/j.scitotenv.2020.136909
Saaty TL (1992) Multicriteria decision making. The analytical hierarchy process. RWS Publications, Pittsburg
Sabour B, Loudiki M, Vasconcelos V (2009) Growth responses of Microcystis ichthyoblane Kützing and Anabaena aphanizomenoides Forti (cyanobacteria) under different nitrogen and phosphorus conditions. Chem Ecol https://doi.org/10.1080/02757540903193130
Scheffer M, Jeppesen E (2007) Regime Shifts in Shallow Lakes. Ecosystems https://doi.org/10.1007/s10021-006-9002-y
Smith VH (2003) Eutrophication of freshwater and coastal marine ecosystems a global problem. Environ Sci Pollut Res https://doi.org/10.1065/espr2002.12.142
Song C, Nigatu L, Beneye Y, Abdulahi A, Zhang L, Wu D (2018) Mapping the vegetation of the Lake Tana basin, Ethiopia, using Google Earth images. Earth Syst Sci Data https://doi.org/10.5194/essd-10-2033-2018
Thomas L, Middleton J (2003) Guidelines for management planning of protected areas.Best Practice Protected Area Guidelines Series Nº 10, Gland Cambridge, IUCN
UN Environment (2016) Annual Report. Engaging people to protect the planet. https://www.unep.org/annualreport/2016/index.php?page=0&lang=en. Accessed 20 March 2021
UN United Nations (2015) World Urbanization Prospects: The 2014 Revision. ST/ESA/SER.A/366. United Nations, Department of Economic and Social Affairs, Population Division. https://esa.un.org/unpd/wup/. Accessed 26 July 2020
UNESCO IIWQ International Initiative on Water Quality (2019) The global water quality challenge & SDGs. https://en.unesco.org/waterquality-IIWQ/wq-challenge. Accessed 17 January 2021
USEPA United States Environmental Protection Agency (1986) Quality criteria for water. U.S. EPA Rep. 440/5-86-001. Washington, DC
USEPA United States Environmental Protection Agency (2002) Implementation guidance for ambient water quality criteria for bacteria. EPA-823-B-003, Office of Water, Washington, DC
Vammen K, Vaux H, Roldán G, González E, Tundisi J, Izurieta R, Fabrega J (2019) Water Quality in the Americas. Risks and Opportunities. The Inter-American Network of Academies of Sciences (IANAS): Ciudad de México, México
Vollenweider RA (1968) Scientific Fundamentals of the Eutrophication of Lakes and Flowing Waters, with Particular Reference to Nitrogen and Phosphorous as Factors in Eutrophication. Organization for Economic Co-Operation and Development. Directorate for Scientific Affairs, Paris.
Wandl A, Magoni M (2017) Sustainable planning of peri-urban areas: introduction to the special issue. Plann Pract Res https://doi.org/10.1080/02697459.2017.1264191
Wang Z, Zhou J, Loaiciga H, Guo H, Hong S (2015) A DPSIR model for ecological security assessment through indicator screening: a case study at Dianchi Lake in China. PloS ONE https://doi.org/10.1371/journal.pone.0131732
WHO World Health Organization (2011) Guidelines for drinking-water quality, 4th edn. WHO, Geneva, Switzerland
WWAP United Nations World Water Assessment Programme (2017) The United Nations World Water Development Report 2017. Wastewater: The Untapped Resource. UNESCO, Paris, p 198
Zare F, Elsawah S, Bagheri A, Nabavi E, Jakeman AJ (2019) Improved integrated water resource modelling by combining DPSIR and system dynamics conceptual modelling techniques. J Environ Manage https://doi.org/10.1016/j.jenvman.2019.05.033