Abstract
Since the last century, the rapidly increasing global population, along with industrialization and urbanization, has increased the type and amount of pollutants in the atmosphere. Particularly, the dependency on fossil fuels for energy production, transportation, and industrial activities has become one of the main sources of air pollution. This has led to an air pollution problem that negatively affects the quality of life in urban areas. However, in this study conducted in the Turhal district of Tokat, an optimistic development has been observed in recent years. Based on the data obtained from the air quality monitoring stations located in the region, the concentrations of pollutants such as PM10, NO2, NOX, and SO2 have been thoroughly examined. The analysis results indicate a significant decreasing trend in the concentrations of these pollutants from 2020 to 2023. This positive trend can be attributed to the increasing awareness of environmental protection, technological innovations, and societal consciousness. The study demonstrates the positive impacts on regional air quality during this period.
References
- [1] I. Manisalidis, E. Stavropoulou, A. Stavropoulos, and E. Bezirtzoglou, “Environmental and health impacts of air pollution: a review,” Front. public Heal., vol. 8, p. 14, 2020.
- [2] P. J. Rimmer, “Urbanization problems in Thailand’s rapidly industrializing economy,” in Thailand’s Industrialization and its Consequences, Springer, 1995, pp. 183–217.
- [3] F. F. Mendels, “Proto-industrialization: the first phase of the industrialization process,” J. Econ. Hist., vol. 32, no. 1, pp. 241–261, 1972.
- [4] R. Allen, “Agriculture during the industrial revolution,” Econ. Hist. Britain since, vol. 1700, no. 3, pp. 96–123, 1994.
- [5] P. C. Bhattacharya, “Rural–urban migration in economic development,” J. Econ. Surv., vol. 7, no. 3, pp. 243–281, 1993.
- [6] M. McCatty, “The process of rural-urban migration in developing countries,” An honours essay Submitt. fulfilment degree Bachelor Arts to Dep. Econ. Carlet. Univ. Ottawa, Ontario, 2004.
- [7] T. Litman, “Determining optimal urban expansion, population and vehicle density, and housing types for rapidly growing cities,” in Proceedings of the World Conference on Transport Research, Shanghai, China, 2016, pp. 10–15.
- [8] F. Amato et al., “Urban air quality: the challenge of traffic non-exhaust emissions,” J. Hazard. Mater., vol. 275, pp. 31–36, 2014.
- [9] F. Golbabaei and M. Khadem, “Air pollution in welding processes—Assessment and control methods,” Curr. air Qual. issues, pp. 33–63, 2015.
- [10] L. A. Barrie, “Arctic air pollution: An overview of current knowledge,” Atmos. Environ., vol. 20, no. 4, pp. 643–663, 1986.
- [11] L. Flower, “Environmental pollution-especially air pollution-and public health,” AU JT, vol. 10, no. 1, pp. 29–37, 2006.
- [12] K. Zhang and S. Batterman, “Air pollution and health risks due to vehicle traffic,” Sci. Total Environ., vol. 450, pp. 307–316, 2013.
- [13] W. H. Organization, Air quality guidelines for Europe. World Health Organization. Regional Office for Europe, 2000.
- [14] E. Brambilla, W. D. Travis, T. V Colby, B. Corrin, and Y. Shimosato, “The new World Health Organization classification of lung tumours,” Eur. Respir. J., vol. 18, no. 6, pp. 1059–1068, 2001.
- [15] A. Dimitriou and V. Christidou, “Causes and consequences of air pollution and environmental injustice as critical issues for science and environmental education,” Impact Air Pollut. Heal. Econ. Environ. Agric. Sources, pp. 215–238, 2011.
- [16] A. K. Jain and K. A. S. Hayhoe, “Global air pollution problems,” Handb. Atmos. Sci., pp. 339–371, 2003.
- [17] S. R. Mudakkar, K. Zaman, M. M. Khan, and M. Ahmad, “Energy for economic growth, industrialization, environment and natural resources: living with just enough,” Renew. Sustain. Energy Rev., vol. 25, pp. 580–595, 2013.
- [18] K. Bilen et al., “Energy production, consumption, and environmental pollution for sustainable development: A case study in Turkey,” Renew. Sustain. Energy Rev., vol. 12, no. 6, pp. 1529–1561, 2008.
- [19] A. J. Cohen et al., “The global burden of disease due to outdoor air pollution,” J. Toxicol. Environ. Heal. Part A, vol. 68, no. 13–14, pp. 1301–1307, 2005.
- [20] K. R. Cromar, M. Ghazipura, L. A. Gladson, and L. Perlmutt, “Evaluating the US Air Quality Index as a risk communication tool: Comparing associations of index values with respiratory morbidity among adults in California,” PLoS One, vol. 15, no. 11, p. e0242031, 2020.
Abstract
Since the last century, the rapidly increasing global population, along with industrialization and urbanization, has increased the type and amount of pollutants in the atmosphere. Particularly, the dependency on fossil fuels for energy production, transportation, and industrial activities has become one of the main sources of air pollution. This has led to an air pollution problem that negatively affects the quality of life in urban areas. However, in this study conducted in the Turhal district of Tokat, an optimistic development has been observed in recent years. Based on the data obtained from the air quality monitoring stations located in the region, the concentrations of pollutants such as PM10, NO2, NOX, and SO2 have been thoroughly examined. The analysis results indicate a significant decreasing trend in the concentrations of these pollutants from 2020 to 2023. This positive trend can be attributed to the increasing awareness of environmental protection, technological innovations, and societal consciousness. The study demonstrates the positive impacts on regional air quality during this period.
References
- [1] I. Manisalidis, E. Stavropoulou, A. Stavropoulos, and E. Bezirtzoglou, “Environmental and health impacts of air pollution: a review,” Front. public Heal., vol. 8, p. 14, 2020.
- [2] P. J. Rimmer, “Urbanization problems in Thailand’s rapidly industrializing economy,” in Thailand’s Industrialization and its Consequences, Springer, 1995, pp. 183–217.
- [3] F. F. Mendels, “Proto-industrialization: the first phase of the industrialization process,” J. Econ. Hist., vol. 32, no. 1, pp. 241–261, 1972.
- [4] R. Allen, “Agriculture during the industrial revolution,” Econ. Hist. Britain since, vol. 1700, no. 3, pp. 96–123, 1994.
- [5] P. C. Bhattacharya, “Rural–urban migration in economic development,” J. Econ. Surv., vol. 7, no. 3, pp. 243–281, 1993.
- [6] M. McCatty, “The process of rural-urban migration in developing countries,” An honours essay Submitt. fulfilment degree Bachelor Arts to Dep. Econ. Carlet. Univ. Ottawa, Ontario, 2004.
- [7] T. Litman, “Determining optimal urban expansion, population and vehicle density, and housing types for rapidly growing cities,” in Proceedings of the World Conference on Transport Research, Shanghai, China, 2016, pp. 10–15.
- [8] F. Amato et al., “Urban air quality: the challenge of traffic non-exhaust emissions,” J. Hazard. Mater., vol. 275, pp. 31–36, 2014.
- [9] F. Golbabaei and M. Khadem, “Air pollution in welding processes—Assessment and control methods,” Curr. air Qual. issues, pp. 33–63, 2015.
- [10] L. A. Barrie, “Arctic air pollution: An overview of current knowledge,” Atmos. Environ., vol. 20, no. 4, pp. 643–663, 1986.
- [11] L. Flower, “Environmental pollution-especially air pollution-and public health,” AU JT, vol. 10, no. 1, pp. 29–37, 2006.
- [12] K. Zhang and S. Batterman, “Air pollution and health risks due to vehicle traffic,” Sci. Total Environ., vol. 450, pp. 307–316, 2013.
- [13] W. H. Organization, Air quality guidelines for Europe. World Health Organization. Regional Office for Europe, 2000.
- [14] E. Brambilla, W. D. Travis, T. V Colby, B. Corrin, and Y. Shimosato, “The new World Health Organization classification of lung tumours,” Eur. Respir. J., vol. 18, no. 6, pp. 1059–1068, 2001.
- [15] A. Dimitriou and V. Christidou, “Causes and consequences of air pollution and environmental injustice as critical issues for science and environmental education,” Impact Air Pollut. Heal. Econ. Environ. Agric. Sources, pp. 215–238, 2011.
- [16] A. K. Jain and K. A. S. Hayhoe, “Global air pollution problems,” Handb. Atmos. Sci., pp. 339–371, 2003.
- [17] S. R. Mudakkar, K. Zaman, M. M. Khan, and M. Ahmad, “Energy for economic growth, industrialization, environment and natural resources: living with just enough,” Renew. Sustain. Energy Rev., vol. 25, pp. 580–595, 2013.
- [18] K. Bilen et al., “Energy production, consumption, and environmental pollution for sustainable development: A case study in Turkey,” Renew. Sustain. Energy Rev., vol. 12, no. 6, pp. 1529–1561, 2008.
- [19] A. J. Cohen et al., “The global burden of disease due to outdoor air pollution,” J. Toxicol. Environ. Heal. Part A, vol. 68, no. 13–14, pp. 1301–1307, 2005.
- [20] K. R. Cromar, M. Ghazipura, L. A. Gladson, and L. Perlmutt, “Evaluating the US Air Quality Index as a risk communication tool: Comparing associations of index values with respiratory morbidity among adults in California,” PLoS One, vol. 15, no. 11, p. e0242031, 2020.
Details
| Primary Language | Turkish |
|---|---|
| Subjects | Information Systems Development Methodologies and Practice, Air Pollution Modelling and Control |
| Journal Section | Articles |
| Authors | |
| Publication Date | December 31, 2023 |
| Submission Date | November 9, 2023 |
| Acceptance Date | December 27, 2023 |
| Published in Issue | Year 2023 Volume: 7 Issue: 2 |
