Epidemiology of Selected Diseases Related to Air Pollution in Krakow

Petryk, A.

doi:10.12911/22998993/92892

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Epidemiology of Selected Diseases Related to Air Pollution in Krakow

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Petryk A.

Treść / Zawartość

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14_Petryk_Epidemiology of Selected_124-131.pdf

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DOI

10.12911/22998993/92892

Warianty tytułu

Języki publikacji

Abstrakty

Excessive concentrations of smog toxicants constitute a critical factor influencing the health quality of inhabitants of urban agglomerations. The exposure to elevated concentrations of suspended particulate matter, sulfur dioxide (SO₂), nitrogen dioxide (NO₂) and carbon monoxide (CO) is associated with an increase of adverse health effects. Prolonged exposure to air pollution, especially from low emission, may be linked not only to a greater risk of developing cancer of the respiratory system, or cardiovascular morbidity but also to the increased frequency of admissions to hospitals and emergency units as well as medical consultations in surgeries and outpatient clinics. The issue was investigated using the city of Cracow as an example. Attempts were made to find the connection between air pollution in the city of Cracow and the frequency of hospitalization and medical consultations of patients (registered in the city) due to lung and bronchial malignancy and cardiac dysrhythmia taking into account the data from the years 2010-2016 submitted by the Malopolska Regional Branch of the National Health Fund.

Słowa kluczowe

air pollution smog low emission morbidity

Wydawca

Polskie Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology

Czasopismo

Journal of Ecological Engineering

Rocznik

2018

Tom

Vol. 19, nr 6

Strony

124--131

Opis fizyczny

Bibliogr. 46 poz., tab.

Twórcy

autor

Petryk A.

agnieszka.petryk@uek.krakow.pl

Department of Regional Economics, Cracow University of Economics, ul. Rakowicka 27, 31-510 Kraków, Poland

Bibliografia

1. Bagieński Z., Jaskulska J. 2016. Limiting the impact of heat supply sources on air quality in areas of intensive low-rise buildings. Atmospheric air. Quality, health, protection. Wroclaw University of Technology. Wroclaw [in Polish].
2. Cembrzyńska J., Krakowiak E., Brewczyński P.Z. 2012. Air pollution with suspended particulate matter PM10 and PM 2.5 in conditions of strong anthropopressure taking of the city of Sosnowiec as an example. Medycyna Środowiskowa, 15(4), 31–38 [in Polish].
3. Cholewiński M., Kamiński M., Pospolita W. 2016. Threats to human health and life from the use of selected fuels in individual heating systems. Kosmos, Problemy Nauk Biologicznych, 65(4), 477–486 [in Polish].
4. Czornik M. 2004. City. Economic aspects of functioning. Publisher of the University of Economics in Katowice [in Polish].
5. Degórska A. 2016. Sources of air pollution with particulate matter. In: K. Juda-Rezler and B.Toczko (Eds). Fine particulate matter in the atmosphere. Compendium of knowledge about air pollution with suspended particulate matter in Poland. Library of Environment Monitoring. Environmental Protection Inspection. Warsaw, pp. 22–26 [in Polish].
6. Gazeta Krakowska, 2017. http://www.gazetakrakowska.pl/motofakty/na-drogach/a/do-krakowawjezdza-dziennie-cwierc-miliona-samochodowraport,12788292/ (retrieved on 18 Februrary 2018).
7. Gładka A., Zatoński T. 2016. The influence of air pollution on respiratory diseases. Kosmos. Problemy Nauk Biologicznych, 65(4), pp. 573–582 [in Polish].
8. Gładysz J., Grzesiak A., Nieradko-Iwanicka B., Borzęcki A. 2010. The impact of air pollution on the health and life expectancy of people. Problemy Higieny i Epidemiologii, 91(2), 178–180 [in Polish].
9. Hławiczka S. 2008. Heavy metals in the environment. Institute for Ecology of Industrial Areas Ekonomia i Środowisko Publishing Houe, Białystok [in Polish].
10. Holnicki P., Kałuszko A., Stankiweicz K. 2014. Supporting management of air qualityin an urban area. Współczesne Problemy Zarządzania, No 1, 26–27 [in Polish].
11. HWO, 2016. HWO’s Global Urban Ambient Air Pollution Database. Update 2016. http://www.who.int/phe/health_topics/en/ (retrieved on 7 August 2017).
12. Jarosiński J. 1996. Clean combustion techniques. Scientific and Technical Publisher, Warsaw [in Polish].
13. Jędrak J., Badyda A.J. Konduracka E. 2016. The impact of air pollution on human health. Sustainable cities. Życie w zdrowej atmosferze, pp. 87–96, [in Polish].
14. Jędrak J., Konduracka E., Badyda A.J., Dąbrowski P. 2016. The impact of air pollution on health. Krakow Smog Alert. Krakow. [in Polish].
15. Juda-Rezler K. [2000]. Environmental Impact of Air Pollution. Warsaw University of Technology Publishers, Warsaw [in Polish].
16. Juda-Rezler K. 2016. Fine particulate matter in the atmosphere. Compendium of knowledge about air pollution with suspended particulate matter in Poland.K. Juda-Rezler and B.Toczko (eds). Library of environment monitoring. Environmental Protection Inspection. Warsaw, pp. 9–10 [in Polish].
17. Kapka L., Zemła B.F., Kozłwoska A., Olewińska E., Pawlas N. 2009. Air quality and the morbidity of lung cancer in selected cities and counties of the Silesia Voivodship. Przegląd Epidemiologiczny, No 63, 439–444 [in Polish].
18. Klich J. 2017. Institutional potential of health care in cities. Part III. Contemporary problems related to urban development. In: M. Kudłacz, J. Hausner (Eds). Funkcjonowanie metropolii w Polsce-Gospodarka, Przestrzeń, Społeczeństwo. CeDeWu Publisher. Warsaw, pp. 237–253 [in Polish].
19. Kordylewski W. 2008. Combustion and Fuel. Wroclaw University of Technology. Wroclaw 2008 [in Polish].
20. Kostrz M., Satora P. 2017. Compounds responsible for air pollution. Inżynieria Ekologiczna, 18, 89–95 [in Polish].
21. Kowalska M., Krzych Ł. 2007. The influence of air polluted with particulate matter and sulfur dioxide on arterial blood pressure – current state of knowledge. Arterial Hypertension, 11(5), 435–442 [in Polish].
22. Kowlaska M., Kocot K. 2016. Short-term exposure to fine suspended particulate matter (PM2.5 and PM10) and the risk of arrhythmias and strokes. Postępy Higieny i Medycyny Doświadczalnej, No 70, 1017–1025 [in Polish].
23. Kozlowska-Szczęsna T. 2004. Influence of the atmospheric environment on health and human wellbeing. Institute of Geography and Spatial Organization, Warsaw [in Polish].
24. Kozłowska A., Olewińska E., Kolwska-Pawlak A., Pawlas N. 2011. The presence of mutagenic and cytotoxic pollutants in the PM10 and PM2.5 atmospheric aerosol fractions in the town of Sosnowiec. Medycyna Środowiska, 14(4), 21–33.
25. Kozłowska-Szczęsna T., Krawczyk B., Kuchcik M. 2004. Influence of the atmospheric environment on health and human well-being. Stanisław Leszczycki Institute of Geography and Spatial Organization State Academy of Sciences, Warsaw.
26. Lachman P. 2015. Causes of pollutant emission exceedances. Czysta Energia, No 12, 26–29.
27. Malec A., Borowski G. 2016. Particulate matter threats and air monitoring. Inżynieria Ekologiczna, vol. 50, 161–170 [in Polish].
28. Supreme Audit Office (NIK) 2014. Information on the results of the inspection. Air protection against pollution.Warsaw [in Polish].
29. Pałasz J.W. 2016. Low emission from coal combustion and methods of its reduction. Publisher of the Silesian University of Technology. Gliwice [in Polish].
30. Pankowska M., Gorczyca M. 2015. Air protection against pollution – why is it not possible to take a deep breath in Poland? Kontrola Państwowa, 3(362), 60–79 [in Polish].
31. State Environmental Monitoring, 2017. Air quality assessment in zones in Poland for 2016. Environmental Protection Inspection. Attachment A-D. Warsaw [in Polish].
32. Parysek J.J. 2015. The city in terms of system. Ruch prawniczy, ekonomiczny i socjologiczny. Ch. LXXVII/1, 28–40 [in Polish].
33. Petryk A. 2017a. Low-carbon Economy in the Municipality of Sucha Beskidzka. Journal of Ecological Engineering, 18(5), 144–150.
34. Petryk A. 2017b. Development of heating infrastructure as an opportunity to reduce low emission in Krakow. In: T. Kudłacz, P. Brańska (Eds) Studia Komitetu Przestrzennego Zagospodarowania Kraju PAN, vol. 174, 412–421 [in Polish].
35. Air quality plan for the Malopolska Region. Małopolska in a healthy atmosphere. Annex No. 1 to Resolution No. XXXII/451/17 of the Regional Assembly of the Malopolska Region of 23 January 2017. Office of the Marshal of the Małopolskie Voivodship 2017 [in Polish].
36. Report on the state of the environment in Poland, 2010. Chief Inspectorate for Environmental Protection, Library of Environment Monitoring [in Polish].
37. Report on the state of health in the Malopolskie Voivodship, 2011 [in Polish].
38. Regulski J. 1986. Town planning. State Economic Publisher. Warsaw [in Polish].
39. Schwartz J., Laden F., Zanobetti A. 2002.The concentration-response relations between PM25 and daily deaths. Environmental Health Perspectives, 110(10), 1025–1029.
40. Skotak K. 2016. The impact of suspended particulate matter on the environment. Fine particulate matter in the atmosphere. In: K. Juda-Rezler and B.Toczko (Eds). Compendium of knowledge about air pollution with suspended particulate matter in Poland. Library of Environment Monitoring. Environmental Protection Inspection. Warsaw, pp. 75–83 [in Polish].
41. Szymańska D. 2007. Urbanization in the world. PWN, Warsaw [in Polish].
42. Municipality of Krakow (UMK) 2014. Changes in the Study of conditions and directions of spatial development of the city of Krakow. Volume 1, Conditions, Krakow.
43. Justification of the resolution No XVIII/243/16 of Regional Assembly of the Malopolska Region of 15 January 2016 on the introduction, in the area of the Municipality of Krakow, of restrictions on the operation of installations in which combustion takes place on https://bip.malopolska.pl/umwm,a,1159347,uchwala-nr-xviii24316-sejmiku-wojewodztwa-malopolskiego-z-dnia-15-stycznia-2016-r-w-sprawie-wprowadz.html (retrieved on 12 November 2017).
44. Warczyński P. 2016. The impact of air quality on the health of Poles. Sustainable cities. Życie w zdrowej atmosferze, pp. 20–23 [in Polish].
45. Wnuka Z. 2010. Ecology and environmental protection: selected issues. Publishing House of the University of Rzeszów, Rzeszów [in Polish].
46. Zakrzewski S.F. 1995. Outline of environmental toxicology. PWN Warsaw [in Polish].

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).

Typ dokumentu

Bibliografia

Identyfikator YADDA

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