Examination of Air Quality of Dr. Sami Yağız Street in Niğde
DOI:
https://doi.org/10.24925/turjaf.v11is1.2512-2517.6416Keywords:
Air, Air Quality, Geographic Information Systems, Landscape, NiğdeAbstract
Air pollution can be defined as the accumulation of gas, air, or particulate matter released as a result of fuel residues and chemical processes in the atmosphere in amounts that harm the lives of living things. Rapid urbanization, industrialization, increase in the number of motor vehicles, meteorological conditions, fuels used for heating, and the spread of industrial establishments and thermal power plants play an important role in the increase in air pollution. Air pollution is a major environmental problem affecting people in both developed and developing countries, and it is estimated that megacities in developing countries, and a quarter of the world's population are exposed to unhealthy concentrations of air pollutants. People living in cities with high outdoor air pollution are more likely to suffer from heart disease, respiratory problems, and lung cancer than those living in urban areas with clean air. In the industrialized western world, urban air pollution is in some respects in its final stages, with a dramatic decline in SO2 and soot levels. The increase in the number of private vehicles is a newly emerging problem. Rapid urbanization in most developing countries has so far led to uncontrolled growth and environmental degradation. Air pollution levels are still rising in many cities. In this study, air quality was tried to be measured along Dr. Sami Yağız Street, which is one of the most heavily used areas of Niğde. H2S, O2 and CO measurements were made at 25 points at equal intervals on both sides of the street. Measurements were made at a total of 4 different time periods per day. The obtained values were transferred to ArcGIS 10.3 software and maps were produced. Measurement of gases other than H2S is not distributed homogeneously along the street, and traffic density and the businesses on the sides of the street cause changes in the rates of the gases.
References
Anonymous. 2023. https://webdosya.csb.gov.tr/db/nigde/webmenu/ webmenu16107.pdf. Acces Date: 11.09.2023
Burkhard B, Maes J. 2017. Mapping Ecosystem Services. Advanced Books. Pensoft Publishers, Sofia (2017): 374s.
Clean Air Right Platform (THHP). 2020. Black report 2020 Air Pollution and Health Effects., Printworld Matbaa San.ve Tic. A.Ş., Istanbul, 108 p.
Cui YY, De Foy B. 2012. Seasonal variations of the urban heat island at the surface and the near-surface and reductions due to urban vegetation in Mexico City. Journal of Applied Meteorology and Climatology, 51(5), 855-868. https://doi.org/10.1175/JAMC-D-11-0104.1
Hepcan ÇC, Cangüzel A. 2021. The effect of Bornova University Avenue road trees on air quality. Ege University Faculty of Agriculture Journal, 58(2), 247-252. https://doi.org/10.20289/zfdergi.697540
Hutyra LR, Yoon B, Hepinstall-Cymerman J, Alberti M. 2011. Carbon consequences of land cover change and expansion of urban lands: A case study in the Seattle metropolitan region. Landscape and urban planning, 103(1), 83-93. https://doi.org/10.1016/j.landurbplan.2011.06.004
Kesgin Atak B, Tonyaloğlu Ersoy E. 2020. Monitoring the Spatiotemporal Changes in Regional Ecosystem Health: a Case Study in Izmir, Turkey. Environmental Monitoring and Assessment 192: 1-14. https://doi.org/10.1007/s10661-020-08357-4
Nowak DJ, Hoehn RE, Bodine AR, Crane DE, Dwyer JF, Bonnewell V, Watson G. 2013. Urban trees and forests of the Chicago region. Resour. Bull. NRS-84, 106(10.2737), 114 p.
Perez L, Grize L, Infanger D, Künzli N, Sommer H, Alt GM, Schindler C. 2015. Associations of daily levels of PM10 and NO2 with emergency hospital admissions and mortality in Switzerland: Trends and missed prevention potential over the last decade. Environmental research, 140, 554-561. https://doi.org/10.1016/j.envres.2015.05.005
Tonyaloğlu EE, Atak BK, Yiğit M. 2021. Examination of air quality, one of the regulating ecosystem services, in the Efeler-Aydın example. Adnan Menderes University Faculty of Agriculture Journal, 18(1), 119-125. https://doi.org/10.25308/aduziraat.867541
Tonyaloğlu Ersoy E. 2020. Spatiotemporal Dynamics of Urban Ecosystem Services in Turkey: The Case of Bornova, Izmir. Urban Forestry and Urban Greening 49: 126631. https://doi.org/10.1016/j.ufug.2020.126631
Turalioğlu FS. 2011. Changes in ozone, nitrogen dioxide and sulfur dioxide, which are harmful to plants, in the Erzurum atmosphere. Journal of Agricultural Faculty of Gaziosmanpaşa University (JAFAG), 2011(1), 73-77.
Tursun N, Üremiş İ, Bozdoğan O, Doğan, MN. 2018. Investigation of the responses of some important weeds to temperature and CO2 increases. Erciyes University Institute of Science and Technology Journal of Science, 34(3), 26-35.
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