Estimation of the Air Emissions of Pollutants Influence on Primary Morbidity Indicator of the Population : Case in Kharkiv Region – Ukraine

Keywords: environmental factors, primary morbidity, Kharkiv region, dynamics of morbidity, emissions, pollutants

Abstract

Purpose. To establish structural shifts in the indicators of the primary morbidity of the population, and to determine the relationship between the indicators of emissions of pollutants into the air and the primary morbidity of the population of the Kharkiv region.

Methods. We used system approach, statistical methods.

Results. The structure and dynamics of the number of newly registered cases of diseases and primary morbidity of the population were considered during the period from 2004 to 2017. A correlation-regression analysis of the relationships between emissions and primary morbidity by disease classes in the Kharkiv region was made, which showed the presence of a moderate correlation between the phenomena. The synthesized regression equations can be used to determine the influence of each individual factor (SO2, CO2, N2O emissions) on the primary morbidity of the population for different classes of diseases. In the structure of primary morbidity of the population of Kharkiv region, the major  share is made up of diseases of the respiratory, circulatory and nervous systems - their share increased from 49%  in 2004 to  51%  in 2017 year.

Conclusions. The indicators of primary morbidity by diseases of the genitourinary system, nervous system, circulatory system and congenital malformations were the most sensitive to air pollutions and emission CO2 into the atmosphere. The most negative impact on the values of all classes of primary morbidity in the Kharkiv region have CO2, N2O.

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Author Biographies

A. N. Nekos, V. N. Karazin Kharkiv National University, 6, Svobody Sqr., 61022, Kharkiv, Ukraine

Doctor of Geographical Sciences, Professor, Head of the Department of Environmental Safety and Environmental Education

Yu. I. Muromtseva, G.S. Scovoroda Kharkiv National Pedagogical University, 29 Alchevskikh st., Kharkiv, 61002, Ukraine

Candidate of Economic Sciences, Associate Professor, Associate Professor of the Department of Socio-Economic Disciplines and Geography

References

Decree of the President of Ukraine on the Sustainable Development Goals of Ukraine for the period up to 2030 of September 30, 2019 № 722/2019. (2019). Retrieved from https://zakon.rada.gov.ua/laws/show/722/2019#Text (In Ukrainian)

Mezentseva, N. I., Batichenko, S. P. & Mezentsev, K. V. (2018). Morbidity and health of the popula-tion in Ukraine: socio-geographical dimension: a monograph. Kyiv: State Enterprise "Print Service". (In Ukrainian)

Krainyukov, O. M. & Yakusheva, A.V. (2016). Assessment of risk to human health due to the use of oil-contaminated drinking water using RAIS (US-EPA). Man and the environment. Issues of neoecol-ogy, (3-4 (26), 46-51. Retrieved from https://periodicals.karazin.ua/humanenviron/article/view/7752 (In Ukrainian)

Gutsulyak, V. M. & Nakonechny, K.P. (2010). Medico-ecological assessment of landscapes of Cher-nivtsi region: Monograph. Chernivtsi: Ruta. (In Ukrainian)

Kornus, O. G., Kornus, A. O. & Shishchuk, V. D. (2015). Territorial and nosological structure of mor-bidity of the population of Sumy region: monograph. Sumy State Pedagogical University named after A.S. Makarenko; Sumy State University, Medical Institute. Sumy: Sumy State Pedagogical University named after A.S. Makarenko,. 172 p. (In Ukrainian)

Volosovets, O. P., Kryvopusrov, S. P., Kruchko etc (2018). The impact of environmentally unfavora-ble environment on the incidence and prevalence of diseases of the circulatory system in children of Ukraine. Public health. Health of Society, T. 7 (№ 5). pp. 229-236. https://doi.org/10.22141/2306-2436.7.5.2018.158608 (In Ukrainian)

Voitko, О. V., Omelchuk, S. Т. & Ostapchuk Yu. M. (2009). Influence of certain anthropogenic fac-tors on the incidence of lung cancer in the population of Ukraine. Oncology,11(4), 257-262. (In Ukrainian)

Nekos, A. N. & Medvedeva, Yu. V. (2018). Ecological safety of food plant products grown in the conditions of technogenic-transformed landscapes of the urban geosystem. Proceedings of VI Inter-national. scientific Conference (on the 110th anniversary of the birth of Professor V.A. Demen-tiev):Modern problems of landscape science and geoecology, Minsk, 2018, November 13-16 ( pp. 148-151). Minsk: BSU. (In Russian)

Tsyganenko, O. I., Khomenko, I. M., Persheguba, Ya. V., Sklyarova, N. A. & Avramenko, L. M. (2018). Influence on ecological health of athletes of cold atmospheric air. Man and the environment. Issues of neoecology, (30), 158-165. https://doi.org/10.26565/1992-4224-2018-30-14 (In Ukrainian)

Kulchytsky, S.V. (2007). Demographic losses of Ukraine // Encyclopedia of Modern Ukraine: elec-tronic version [website] / ch. editor: I.M. Dziuba, AI Zhukovsky, MG Zheleznyak and others; NAS of Ukraine, NTSh. Kyiv: Institute of Encyclopedic Research of the National Academy of Sciences of Ukraine, 2007. Retrieved from http://esu.com.ua/search_articles.php?id=21468 (In Ukrainian)

Muromtseva, Yu. I. (2015). The role of culturological factors in overcoming the demographic crisis in Ukraine. Language. Science. Culture: Proceedings of the interdisciplinary scientific-practical con-ference dedicated to the 85th anniversary of the Petro Vasylenko, Kharkiv, 2015, June 10, (pp. 793-803). Kharkiv National Technical University of Agriculture. (In Ukrainian)

WHO Air quality guidelines for particulate matter, ozone, nitrogen dioxide and sulfur dioxide. (2006). Retrieved from https://www.who.int/phe/health_topics/outdoorair/outdoorair_aqg/en/

Brown, Tim. (2010). A Companion to Health and Medical Geography. Wiley-Blackwell.

Methodological provisions for the calculation of emissions into the atmosphere. Retrieved from http://www.ukrstat.gov.ua/norm_doc/2020/268/268.pdf (In Ukrainian)

Khomenko, Sasha, Cirach, Marta, Pereira-Barboza, Evelise, Mueller, Natalie, Barrera-Gómez, Jose, Rojas-Rueda, David…& Nieuwenhuijsen, Mark. (2021). Premature mortality due to air pollution in European cities: a health impact assessment The Lancet. Planetary Health, 5 (3), E121-E134. https://doi.org/10.1016/S2542-5196(20)30272-2

Jerrett, M., Burnett, R. T., Beckerman, B. S., Turner, M. C., Krewski, D. & Thurston, G. (2013). Spatial analysis of air pollution and mortality in California. American journal of respiratory and critical care medicine, 188(5), 593-599. https://doi.org/10.1164/rccm.201303-0609OC

Chay, Kenneth Y. & Greenstone, Michael. (2003). The Impact of Air Pollution on Infant Mortality: Evidence from Geographic Variation in Pollution Shocks Induced by a Recession. The Quarterly Journal of Economics, 118 (3), 1121–1167. https://doi.org/10.1162/00335530360698513

Published
2021-06-01
How to Cite
Nekos, A. N., & Muromtseva, Y. I. (2021). Estimation of the Air Emissions of Pollutants Influence on Primary Morbidity Indicator of the Population : Case in Kharkiv Region – Ukraine. Visnyk of V. N. Karazin Kharkiv National University Series «Еcоlogy», (24), 57-65. https://doi.org/10.26565/1992-4259-2021-24-05

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