Assessment of the ecological risk of pollution of soil and bottom sediments in the Ukrainian Danube region
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- Category: Content №2 2021
- Last Updated on 29 April 2021
- Published on 30 November -0001
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Authors:
M.Serbov, orcid.org/0000-0002-0220-6745, Odesa State Environmental University, Odesa, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
O.Hryb, orcid.org/0000-0003-3279-0126, Odesa State Environmental University, Odesa, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
V.Pylypiuk, orcid.org/0000-0002-0365-4275, Odesa State Environmental University, Odesa, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu. 2021, (2): 137 - 144
https://doi.org/10.33271/nvngu/2021-2/137
Abstract:
Purpose. The paper deals with assessment of the ecological risks of pollution of soil at the sites where unusable plant protection chemicals are stored, and of the bottom sediments in the Ukrainian section of the Danube and in the Danube region lakes.
Methodology. The applied analytical methods and synthesis of the data obtained while monitoring the studied objects, comparing data, logical generalization and analogies in combination with expert appraisals and monographic and graphical analytic studies.
Findings. It was concluded that the condition of land resources of the Danube region of Ukraine is unsatisfactory. The risk of the soil ecosystem instability in the majority of the region areas is assessed as high. The monitoring data pertaining to the sites where unusable plant protection chemicals are stored indicate that the maximum permissible concentrations of certain pollutants surpass the standards by 5.032.0 times. The ecological condition of soils is assessed as medium bad while the risks are at the level varying between considerable to high. The ecological condition of bottom sediments in the Lower Danube is assessed as satisfactory, except in Kuhurlui, Yalpuh and Kytai Lakes where it is unsatisfactory. The ecological risk level in the Ukrainian section of the Danube and in the Danube region ranges from high to considerable.
Originality. For the first time ever, for the Danube region of Ukraine a comprehensive assessment of the ecological risk of soil pollution, which included assessment of the risk of instability of the soil ecosystem resulting from storage of unusable plant protection chemicals, was performed. The integral assessment of the bottom sediment pollution was made for the site located between Reni town and the Danube estuary, and in Danube Lakes. Analysis of the existing methodologies for assessment of the ecological risk of soil and bottom sediment pollution enabled to develop and apply recommendations how to use indicator values describing the ecological condition with due account of the physical degradation and pollution criteria.
Practical value. The obtained results can be used for the development of a strategy of effective and sustainable management of the Ukrainian Danube regions natural resources based upon the instruments and mechanisms aimed at solution of the social and economic development problems bearing in mind possible impact of the destabilizing factors.
Keywords: Ukrainian Danube region, ecological risk, condition, pollution, soils, bottom sediments
References.
1. Melnyk, L.H., & Kubatko, O.V. (2013). The efficiency of natural and resource potential using in Ukraine and preconditions of green economy forming. Socio-Economic Research Bulletin, 3(50), p. 2, 169-174.
2. Formation of ecological consciousness and raising awareness of stakeholders on the causes and pollution consequences of soil and water in Lower Danube Region (2016). Information materials within the project Inventory, Assessment and Remediation of Anthropogenic Sources of Pollution in the Lower Danube Region of Ukraine, Romania and Republic of Moldova (MIS ETC CODE 995). Odessa: FOP Shylov M.V.
3. SanPiN 42-128-4433-87. Sanitary standards for permissible concentrations of chemical substances in soil. (n.d.). Retrieved from https://zakon.rada.gov.ua/laws/show/v4433400-87?lang=uk# Text.
4. Dobrovolskiy, V.V. (2015). Basic principles of the environmental quality estimation theory. Scientific Works. Ecology, 244(256), 10-14.
5. Burkynskyi, B.V., & Khumarova, N.I. (2013). Institutional mechanism of ecological-oriented strategic plans for national economy development. Ecological Sciences, 3, 139-148.
6. Khvesyk, M.A., & Stepanenko, A.V. (2014). Ecologic crisis in Ukraine: social and economic consequences and the ways of its overcoming. Economy of Ukraine, 1, 74-86.
7. Ivaniuta, S.P., & Kachynskyi, A.B. (2013). The ecological security of the regions of Ukraine: comparative estimation. Strategic Priorities, 33(28), 157-164.
8. Shaporenko, O.I. (2014). Economic and Environmental Risks: Definition, Assessment, Management and Principles. Vcheni zapysky Universytetu KROK, 35, 182-189.
9. Kozulia, T.V., & Emelyanova, D.I. (2015). Environmental risk at different levels of natural and industrial systems study, informational estimation support. Problems of Information Technologies, 1, 138-144.
10. Sornette, D., Maillart, T., & Krger, W. (2013). Exploring the limits of safety analysis in complex technological systems. International Journal of Disaster Risk Reduction, 6, 59-66. https://doi.org/10.1016/j.ijdrr.2013. 04.002.
11. Tarazona, J.V., Versonnen, B., Janssen, C., De Laender,F., Vangheluwe, M., & Knight, D. (Eds.) (2014). Principles for Environmental Risk Assessment of the Sediment Compartment: Proceedings of the Topical Scientific Workshop. Helsinki: European Chemicals Agency. Retrieved from https://echa.europa.eu/documents/10162/22816050/environmental_risk_assessment_final_en.pdf/3515b685-6601-40ce-bd48-3f8d5332c0f8.
12. Bschir, K. (2017). Risk, Uncertainty and Precaution in Science: The Threshold of the Toxicological Concern Approach in Food Toxicology. Science and Engineering Ethics, 23, 489-508. https://doi.org/10.1007/s11948-016-9773-2.
13. OBrien, G.C., Dickens, C., Hines, E., Wepener, V., Stassen, R., Quayle, L., , & Landis, W.G. (2018). A regional-scale ecological risk framework for environmental flow evaluations. Hydrology and Earth System Sciences, 22(2), 957-975. https://doi.org/10.5194/hess-22-957-2018.
14. Dutt, L.S., & Kurian, M. (2013). Handling of Uncertainty A Survey. International Journal of Scientific and Research Publications, 3(1), 1-4.
15. Grizzetti, B., Liquete, C., Antunes, P., Carvalho, L., Geamn, N., Giuc, R., Leone, M., , & Woods, H. (2016). Ecosystem services for water policy: Insights across Europe. Environmental Science & Policy, 66, 179-190. https://doi.org/10.1016/ j.envsci.2016.09.006.
16. Serbov, M. (2018). Methodological approaches in development of value estimation of costs of freshwater resources of the water basin by the objects of nature use. Technology Audit and Production Reserves, 1/5(39), 74-78. https://doi.org/10.15587/2312-8372.2018.124684.
17. Serbov, M.H., Hryb, O.M., & Pylypiuk, V.V. (2019). Methodological approaches and results of assessment of ecological risks of soil and bottom sediment pollution of water bodies of the Ukrainian Danube. Rivers and Estuaries of the Black Sea at the Beginning of the XXI Century: Materials of the All-Ukrainian scientific-practical conference, 133-135. Retrieved from http:// odeku.edu.ua/wp-content/uploads/Zbirnik_materialiv_konf_Richki-ta-limani-Pivnichno-Zahidnogo-Prichornomorya-na-pochatku-HHI-st.pdf.
18. Rybalova, O.V., & Belan, S.V. (2013). Environmental risk of deterioration of soils and land resources of Ukraine. Ecology and industry, 3, 15-22.
19. Vasenko, O.H., Rybalova, O.V., Artemiev, S.R., Horban,N.S., Korobkova, G.V, Polozentsieva, V.O., , & Savichiev, A.A. (2015). Integral and integrated assessments of the state of the environment. Kharkiv: National University of Civil Defence of Ukraine. Retrieved from http:// repositsc.nuczu.edu.ua/handle/123456789/6524.
20. DSanPiN 8.8.1.2.3.4.-00-2001. Permissible doses, concentrations, quantities and levels of pesticides in agricultural raw materials, foodstuffs, air of the working area, atmospheric air, water of reservoirs, soil (n.d.). Retrieved from https://zakon.rada.gov.ua/rada/show/v01375 88-01#Text.
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