Identification of climate changes based on antropogenic transformation of landscapes
Abstract
Formulation of the problem. Functioning of natural geosystems is aimed at preserving their structure, but economic activity leads to imbalances, decreases in order, loss of internal organization and the inability to maintain the necessary stabilization.
Analysis of previous research. Studies of the last decades have shown that the climatic conditions of Ukraine can be unfavorable for the life and economic activity of the society.
Problems of further research. To find the solution to the problem of preserving the ability of the biosphere to self-regulation, self-restoration by optimizing anthropogenic load on natural systems is very important. Identification of climate change factors is aimed at finding the most active sources of environmental impact in order to determine the real threat of global climate change.
The purpose of the research is to determine the causes, areas of initial formation, further development of negative meteorological processes and phenomena on the territory of Kharkiv region during the last decades and to study parameters and causes of air masses transformation, changes in their properties and various resistance to anthropogenic impact.
Research methods are observation with the help of various devices and technical means. An integrated approach using field-based observations and technology of climatic series analysis with the help of statistical methods for climate information processing, characterized by high accuracy, allow us to determine their spatial-temporal features and future projections to the natural environment.
Presentation of the main research material. Optimal strategic socio-economic development of the regions requires identification of specific links between natural and socio-economic entities, as well as studying large-scale and profound by the consequences violations of the ecosystem at the planetary level - the biosphere and its components. There is a general tendency towards directed climate change, the so-called "global warming", which threatens natural landscapes, upsetting and destroying them.
Practical value. There are causal relationships between climatogenic changes, influence of human activity and the reaction of landscapes to them. This is manifested in creation of a variety of transformed landscapes (agrarian, residential, industrial). The consequence of anthropogenic transformations is the change in the parameters and characteristics of the components of nature.
Research results. Indicators are the basis for information blocks concerning decision-making in the areas of socio-economic development. Climate parameters of a certain territory may differ from zonal ones and in combination with anthropogenic transformation affect the general condition of the landscapes, lead to the intensification of adverse hydrometeorological and exogenous geodynamic processes and phenomena (erosion, deluvial processes, landslides, suffusion, deflation, flooding.
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References
Adamenko, T.I. Agro-climatic zone zoning of Ukraine taking into account climate change. Available at: http://www.gwp.org/globalassets/global/gwp-cee_files/idmp-cee/idmpagroclimatic. Pdf. [in Ukrainian]
Vernadskij, V.I. (1926). Biosphere. L.: Geografgiz, 139. [in Russian]
Goncharova, L.D., Reshetchenko, S.I. (2010). Impact of the North Atlantic on air temperature, precipitation, atmos-pheric pressure on the left-bank Ukraine. Ukrayins`ky`j gidrometeorologichny`j zhurnal, 7, 54-61. [in Ukrainian]
Gopchenko, E.D. Loboda, N.S. (2000). Assessment of possible changes in water resources of Ukraine in the context of global warming. Kiev: Institut gidrobiologii NAN Ukrainy, 36 (3), 67-78. [ in Russian]
Grebenyuk, N.P., Korzh, T.V., Yacenko, O.O. (2002). New on the changes in the global and regional climate in Ukraine at the beginning of the XXI century. Vodne gospodarstvo Ukrayiny, 5-6, 34-45. [in Ukrainian]
Deny`sy`k, G.I. (1989). Anthropogenic landscapes of the Right-Bank Ukraine. Vinny`cya: Ar-bat, 292. [ in Russian]
Lipins`kogo, V.M., et. al. (2003). The climate of Ukraine. K.: Vy`d. Rayevs`kogo, 343. [in Ukrainian]
Zabolocz`ka, T.M., Pidgurs`ka, V.M., Shpy`tal,` T.M. (2006). Hazardous heavy precipitation over the territory of Ukraine and possible causes of their formation. Nauk. praci Ukr.nauk.-doslid.gidrometeorologichnogo in.-tu, 255, 21-25. [in Ukrainian]
Goncharova, L.D., et. al. (2005). The climate and the general circulation of the atmosphere. Ky`yiv: KNT, 251. [in Ukrainian]
Lavry`k, O.D. (2017). Identification of stages of development of landscape-technical systems. Visny`k Xar-kivs`kogo nacional`nogo universy`tetu imeni V.N. Karazina. Seriya: Geologiya. Geografiya. Ekologiya, 46, 101–105. [in Ukrainian]
Polishhuk, L.B., Popov, V.S., Burdun, Yu.K., Karas`ov, O.O. (2015). Interactive map: Nature conservation in the Kharkiv region. Problemy` bezperervnoyi geografichnoyi osvity` i kartografiyi: Zbirny`k naukovy`x pracz`, Xarkiv, 21, 18-21. Available at: http://maps.kosmosnimki.ru/api/index.html?33655009DAAD43C18AFD0ED7B2898D4 http://goik.univer.kharkov.ua/archive/ vil`ny`j. [in Ukrainian]
Polishhuk, L.B., Moroz, A. A., Kravchenko, R.V. (2018). Natural and anthropogenic landscapes as a component of environmental knowledge. Problemy` bezperervnoyi geografichnoyi osvity` i kartografiyi, Zbirny`k naukovy`x pracz`, 28, 61-67. Avaabe at: http://goik.univer.kharkov.ua/archive/issue-28. [in Ukrainian]
Reteyum, A.YU., D'yakonov, K.N., Kunicyn, L.F. (1972). Interaction technology with nature and geotechnical sys-tems. Izvestiya AN SSSR. Seriya geograficheskaya, 4, 46–55. [in Russian]
Reshetchenko, S.I., Tkachenko, T.G., Ly`senko, O.G. (2015). Changing the temperature regime in the Kharkiv re-gion]. Visny`k Xarkivs`kogo nacional`nogo universy`tetu im. V.N. Karazina. Seriya: geologiya, geografiya, ekologiya, 43, 153-158. [in Ukrainian]
Rozporyadzhennya Kabinetu Ministriv Ukrayiny` «Pro sxvalennya Koncepciyi realizaciyi derzhavnoyi polity`ky` u sferi zminy` klimatu na period do 2030 roku» vid 7 grudnya 2016 r. № 932. [Order of the Cabinet of Ministers of Ukraine «On Approval of the Concept of Implementation of the State Policy in the Field of Climate Change for the Period until 2030»]. Available at: http://www.kmu.gov.ua/control/uk/cardnpd?docid=249573705. [in Ukrainian]
Rudenko, V.P. (2010). The critical ecological state of the components of nature in the regions of Ukraine. Ukrayins`ky`j geografichny`j zhurnal, 2, 60-68. [in Ukrainian]
Strategy of low carbon development of Ukraine up to 2050. (2017).. Ky`yiv, 53. [in Ukrainian]
Strategy for the development of the Kharkiv region up to 2020. Xarkivs`ka oblasna derzhavna administraciya. Available at: http://old.kharkivoda.gov.ua/documents/16203/1088.pdf. [in Ukrainian]
Suzdaleva, A.L. (2015). Managed natural-technical systems of energy and other objects as a basis for ensuring technological safety and environmental protection. M.: ID EHNERGIYA, 160. [ in Russian]
Shvy`denko, A.Z., Laky`da, P., Shhepashhenko, D. (2014). Carbon, Climate and Land Management in Ukraine: Forest Sector: Monograph. Korsun`-Shevchenkivs`ky`j: FOP Gavry`shenko V.M., 283. [in Ukrainian]
The sixth national report of Ukraine on climate change]. Available at: http://unfccc.int/national_reports/ nation-al_communications_and_biennial_reports/submissions/items/7742.php. [in Ukrainian]
IPCC, 2014: Climate Change 2014: Synthesis Report. Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change [Core Writing Team, R.K. Pachauri and L.A. Meyer (eds.)]. IPCC, Geneva, Switzerland, 151.
Stein, A.F., Draxler, R.R., Rolph, G.D. (2015). NOAA’s HYSPLIT atmospheric transport and dispersion modeling system, Bull. Amer. Meteor. Soc., 96, 2059-2077.
