System of ecological monitoring of pedosphere pollution by petroleum products
DOI:
https://doi.org/10.32347/2411-4049.2020.2.22-29Keywords:
petroleum products, soil cover, reclamation, pollution, degradation, monitoringAbstract
The article proposes a topical scientific-applied task of increasing the level of ecological safety of the soil cover contaminated with petroleum products. The main tasks are to develop new methods of environmental monitoring of soil cover; research on the processes of migration of petroleum products in the soil cover in order to improve the quality of the degradation of degraded territories and to develop forecast models for the timely identification of areas that are at risk of contamination; establishment of dependencies between the state of contamination of soils with petroleum products and their genesis and identification of patterns of propagation of the pollutant in the studied environment. In the course of the research, the system of ecological monitoring of the soil cover with the use of the infrared spectrophotometry method was improved. The method of physicochemical analysis of soil samples is substantiated and dependencies between the state of soil contamination of petroleum products and their genesis are established.
References
Trysnyuk, V., Trysnyuk, T., Okhariev, V., Shumeiko, V., & Nikitin, A. (2018). Cartographic Models of Dniester River Basin Probable Flooding. Сentrul Universitar Nord Din Bala Mare – UTPRESS, 1, 61-67.
Grekov, L.D., Krasovsky, G.Y., & Trofimchuk, O.M. (2007). Space monitoring of land pollution by man-made dust. Kiev: Naukova dumka. (in Ukrainian)
Adamenko, O.M., Adamenko, Y.A., Arkhipova, L.M. et al. (2014). Ecological safety of territories. Ivano-Frankivsk: Suprun. (in Ukrainian)
Trisnyuk, V.M. (2016). Environmental safety management system for natural and anthropogenically modified geosystems. Information processing systems, 12, 185-188. (in Ukrainian)
Kosenko, V.V. & Kuchuk, N.H. (2016). Vzayemodiya tekhnichnykh I prohramnykh zasobiv pry upravlinni rozpodilom trafika [The interaction of hardware and software in the management of traffic distribution]. Systemy ozbroyennya I viys'kova tekhnika [Systems of Arms and Military Equipment], 3(47), 72-75. (in Ukrainian)
Myrontsov, M.L. (2019). The problem of equivalence in inverse electrometry problems of oil and gas wells: 18th International Conference Geoinformatics – Theoretical and Applied Aspects, Extended Abstracts.
Trofymchuk, O., Kalyukh, Y., & Hlebchuk, H. (2013). Mathematical and GIS-modeling of landslides in Кharkiv region of Ukraine. Landslide Science and Practice: Spatial Analysis and Modelling, 347-352. Springer, Berlin, Heidelberg.
Trofymchuk, O., Kreta, D., Myrontsov, M., Okhariev, V., Shumeiko, V., & Zagorodnia, S. (2015). Information Technology in Environmental Monitoring for Territorial System Ecological Assessment. Journal of Environmental Science and Engineering, A4, 79-84.
Trysnyuk, V.M., Okhariev, V.O., Trysnyuk, T.V., Zorina, O.V., Kurylo, A.V., Golovan, Y.V., Smetanin, K.V., & Radlowska, K.O. (2019). Improving the algorithm of satellite images landscape interpretation: 18th International Conference Geoinformatics – Theoretical and Applied Aspects, Extended Abstracts.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2020 Vasyl M. Trysnyuk, Vyacheslav O. Okharev, Taras V. Trysnyuk, Yuriy M. Holovan
This work is licensed under a Creative Commons Attribution 4.0 International License.
The journal «Environmental safety and natural resources» works under Creative Commons Attribution 4.0 International (CC BY 4.0).
The licensing policy is compatible with the overwhelming majority of open access and archiving policies.
