Comprehensive Ecological and Analytical Assessment of the “Car-Road-Environment System”  on the Example of the Road M-29 Section

doi:10.26565/1992-4259-2021-25-05

G. V. Adamova Scientific Research Institution "Ukrainian Scientific Research Institute of Ecological Problems", Bakulina Str., 6, Kharkiv, 61166, Ukraine https://orcid.org/0000-0003-2560-1032

DOI: https://doi.org/10.26565/1992-4259-2021-25-05

Keywords: expert-analytical assessment, hierarchy analysis method, roadside soil, roadside vegetation, heavy metals

Abstract

Purpose. is to highlight the methodological approach and the results of the integrated ecological and analytical assessment of the environmental impact of the car-road-environment system, namely the structure of interaction between internal and external factors and their spatial analysis, including the actual assessment of the ecological state of the roadside space of a selected section of the road M-29 (Е-105) on the example of accumulation in the biota of roadside space heavy metals of road origin.

Methods. Expert analytical analysis, T. Saati's hierarchy analysis method, field studies of vegetation and soil, laboratory studies of the content of heavy metals in selected samples by atomic absorption spectroscopy.

Results. Analysis of the complex impact of the "car-road-environment" (CRE) system on the state of the natural environment made it possible to develop a comprehensive multi-level hierarchical structure of the influence of the "CRE" system on environmental components for subsequent environmental and analytical assessment. According to the results of the environmental-analytical assessment, it was determined that the components of the natural environment are significantly affected by the "CRE" system, with living organisms of roadside space being the most stressed (43,08% of the total influence). When carrying out field studies, it was found out that it is advisable to use direct measurements when choosing the information content of soil and vegetation sampling points. After processing laboratory studies, an excess of the MPC of heavy metals was revealed in the samples of vegetation and soil of the roadside space at a distance of 10 m, 50 m and 100 m from the road bed, a rank series of accumulation of heavy metals in the studied samples of vegetation and soil of the roadside space was established.

Conclusions. As a result of research, it was found that the complexity of the impact of the "CRE" system on the environment in a significant way depends on the biotic component of the roadside space, which, as a rule, until that time received little attention. It was concluded that the biota of the roadside space is not only susceptible to accumulation of pollutants, including heavy metals, but can be used for effective integrated monitoring of the ecological state of the environment in the zone of influence of roads.

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Author Biography

G. V. Adamova, Scientific Research Institution "Ukrainian Scientific Research Institute of Ecological Problems", Bakulina Str., 6, Kharkiv, 61166, Ukraine

Graduate Student of the Laboratory of Environmental Impact Assessment and Environmental Expertise

References

Chernyshova, O., Petrenko, I., & Vyshebaba P. (2020). Ecological and transport problems of modern Ukraine. ICPS. (in Ukrainian)

In Ukraine, the average age of the fleet in all segments was calculated. Retrieved from https://autoconsulting.com.ua/news.php?catid=41 (in Russian)

Pavlova, E.I., & Novikov, V.K. (2018). General ecology and ecology of transport. Textbook and work-shop. 5th edition. Urayt Publishing House. (in Russian)

Adamova H.V., & Pisnia L.A. (2020). Determining the impact of the transport and road complex on the environment on the example of the section of the highway M-29 Kharkiv-Dnipro. Problems of envi-ronmental protection and ecological safety, (42), 24-34. Retrieved from http://www.niiep.kharkov.ua/sites/default/files/Sbornik2020.pdf (in Ukrainian)

Werner, I.E. (Ed.). (2020). Statistical Yearbook of Ukraine for 2019. State Statistics Service of Ukraine. (in Ukrainian)

Werner, I.E. (Ed.). (2020). Ukraine in figures in 2019. State Statistics Service of Ukraine. Statistical Collection.. (in Ukrainian)

State Agency of Motor Roads of Ukraine. Retrieved from https://ukravtodor.gov.ua/ (in Ukrainian)

List of state highways of Kharkiv region. Retrieved from https://kh.ukravtodor.gov.ua/pro_sluzhbu/perelik_derzhavnykh_avtomobilnykh_dorih_kharkivskoi_oblasti.html (in Ukrainian)

Clear infographics of the classification of roads in the Kharkiv region. Retrieved from https://kh.ukravtodor.gov.ua/pro_sluzhbu/zrozumila_infohrafika_klasyfikatsii_dorih_kharkivskoi_oblasti.html (in Ukrainian)

Abolmasova, H. V., Pisnia, L.A., & Cherba, O.V. (2019). Elements of an integrated approach in the en-vironmental assessment of roadside pollution. Proceedings of the XV International. scientific-practical conf.: Environmental safety: problems and solutions. Kharkiv, (2019, Sept. pp. 9-13). USRIEP. 5-8. Re-trieved from http://www.niiep.kharkov.ua/sites/default/files/Konfer2019.pdf (in Ukrainian)

Adamova, H.V. (2021). Analysis of the impact of the "car-road-environment" system on the environment. The current state of development of world science: characteristics and features. Sollection of scientific papers «SCIENTIA» with Proceedings of the I International Scientific and Theoretical Conference (Vol. 1), Lisbon (2021, June 4)., Portuguese Republic: European Scientific Platform. https://doi.org/10.36074/scienta-04.06.2021 (in Ukrainian)

Abolmasova, H.V., & Pisnia, L.A. (2020). Heavy metals in the soils and vegetation of the roadside. Proceedings of the XVI International Scientific and Practical Conference: Environmental safety: prob-lems and solutions. (Kharkiv, 2020, September 14-18), USRIEP. 13-17. Retrieved from http://www.niiep.kharkov.ua/sites/default/files/konfer2020.pdf (in Ukrainian)

Abolmasova, H.V. (2020). The "car-road" system as a source of heavy metals in the roadside space. Collection of abstracts of the IV Specialized International Zaporizhia Ecological Forum "ECO FORUM - 2020" Zaporizhia City Council, Zaporizhia Chamber of Commerce and Industry,)(Zaporizhia, 2020, October 15-17). Retrieved from https://new.ziif.in.ua/wp-content/uploads/2020/12/Zbirka-tez-Eko-Forum-2020.pdf (in Ukrainian)

Environmental Impact Assessment Overhaul of the highway entrance to Boryspil International Airport km 0 + 000 - km2 + 800 (inv. №47590) with lighting system (inv №47273) (adjustment). (2017). WORKING PROJECT. VOLUME 5. 37-14.2 / 5-3-OVNS. LLC "INTERPROEKT". (in Ukrainian)

Kovalenko L.O. (2016). Analysis of air pollution monitoring. Problems of urban environment development", (2(16), 168-177. Retrieved from http://nbuv.gov.ua/UJRN/Prms_2016_2_21 (in Ukrainian)

Denisov, V.V. (2015). Ecology of the city. Rostov n/D. (in Russian)

Pepina, L.A., & Sozontova, A.N. (2017). Pollution of atmospheric air by the road complex. Alfabuild , 1 (1), 99-110. Retrieved from https://alfabuild.spbstu.ru/userfiles/files/AlfaBuild/AlfaBuild_2017_1/8_1.pdf (in Russian)

Rolli, N.M, Hiremath, P.S, Karalatti, B.I, Hotti, Y.B & Kattimani, V.K (2019). Phytoassay of Heavy Met-als Pollution in Roadside Environment: Bioindicators. Int J Recent Sci Res., 10(12), 36499-36503. http://dx.doi.org/10.24327/ijrsr.2020.1012.4934

Pankaj, Kumar & Kuldeep. (2018). Potential Toxic Heavy Metal Contamination of Roadside Soil. Int.J.Curr.Microbiol.App.Sci. 7(07), 465-471. https://doi.org/10.20546/ijcmas.2018.707.056

Leonidova, T. V., Sidorenkova, N. K., Bloxina, N. A., & Xaritonov, I. D. (2019). Content of heavy met-als in the roadside zone of automobile routes. International Journal of Applied and Basic Research, (1), 146–149. Retrieved from https://www.applied-research.ru/ru/article/view?id=12657 (in Russian)

Hyun-Min Hwang, Matthew, J. Fiala, Terry, L. Wade & Dongjoo Park. (2019). Review of pollutants in urban road dust: Part II. Organic contaminants from vehicles and road management. International Journal of Urban Sciences, 23(4), 445-463. https://doi.org/10.1080/12265934.2018.1538811

Mostepan, O.V. (2011). Investigation of the impact of stormwater from highways with different traffic intensity on water pollution. Bulletin of Kharkiv National Automobile and Road University, (52),. 23–26. Retrieved from: https://cyberleninka.ru/article/n/issledovanie-vliyaniya-livnevyh-vod-s-avtomobilnyh-dorog-s-raznoy-intensivnostyu-dvizheniya-na-zagryaznenie-vodnyh-obektov/viewer (in Ukrainian)

Mateichyk, V.P., Vaihanh, H.O., & Yanovskyi, V.V. (2016). Estimation of parametric pollution of the roadside environment by urban traffic flows. The National Transport University Bulletin. "Technical Sciences". 2(35), 141-150. Retrieved from http://publications.ntu.edu.ua/visnyk/35_2016/141-150.pdf (in Ukrainian)

Zerkalov, D.V. (2012). Ecological safety and environmental protection: Monograph. K.: Osnova, (in Ukrainian)

Grubesa, S. & Suhanek, M. (2020). Traffic Noise, Noise and Environment, Daniela Siano and Alice Elizabeth González, IntechOpen, https://doi.org/10.5772/intechopen.92892

Abolmasova, G., Pisnia, L., Cherepnov, I. & Kalinin, I. (2020). Comprehensive ecological assessment of the impact of the «car-road-environment» system on environmental objects. Engineering of nature management, (4(14), 75-85. https://doi.org/10.37700/enm.2019.4(14).75-85 (in Ukrainian)

Kravchenko, T.K., & Seredenko, N.N. (2012). Creating decision support systems: integrating the bene-fits of individual approaches. Artificial intelligence and decision making, (1), 39-46. Retrieved from http://www.isa.ru/aidt/images/documents/2012-01/39_46.pdf (in Russian)

Hamed Taherdoost. (2017). Decision Making Using the Analytic Hierarchy Process (AHP); A Step by Step Approach. International Journal of Economics and Management System, IARAS, HAL Id: hal-02557320 Retrieved from https://hal.archives-ouvertes.fr/hal-02557320