We are pleased to share that AUC Geographica was awarded an Impact Factor of 0.5 in the 2023 Journal Citation Reports™ released by Clarivate in June 2024. AUC Geographica ranks in Q3 in the field of Geography.
AUC Geographica (Acta Universitatis Carolinae Geographica) is a scholarly academic journal continuously published since 1966 that publishes research in the broadly defined field of geography: physical geography, geo-ecology, regional, social, political and economic geography, regional development, cartography, geoinformatics, demography and geo-demography.
AUC Geographica also publishes articles that contribute to advances in geographic theory and methodology and address the questions of regional, socio-economic and population policy-making in Czechia.
Periodical twice yearly.
Release dates: June 30, December 31
All articles are licenced under Creative Commons Attribution 4.0 International licence (CC BY 4.0), have DOI and are indexed in CrossRef database.
AUC Geographica is covered by the following services: WOS, EBSCO, GeoBibline, SCOPUS, Ulrichsweb and Directory of Open Access Journals (DOAJ).
The journal has been covered in the SCOPUS database since 1975 – today
https://www.scopus.com/source/sourceInfo.uri?sourceId=27100&origin=recordpage
The journal has been selected for coverage in Clarivate Analytics products and services. Beginning with V. 52 (1) 2017, this publication will be indexed and abstracted in Emerging Sources Citation Index.
The journal has been indexed by the Polish Ministry of Science and Higher Education (MSHE) on the list of scientific journals recommended for authors to publish their articles. ICI World of Journals; Acta Universitatis Carolinae, Geographica.
Journal metrics 2023
Web of Science
Impact factor (JCR®): 0.5
Journal Citation Indicator (JCI): 0.20
Rank (JCI): Q3 in Geography
Scopus
Cite Score: 1.2
Rank (ASJC): Q3 in Geography, Planning and Development; Q3 in General Earth and Planetary Sciences
The journal is archived in Portico.
AUC GEOGRAPHICA, Vol 58 No 2 (2023), 157–171
Air pollution and topography in Tehran
Faezeh Afarideh, Mohammad Hossein Ramasht, Graham Mortyn
DOI: https://doi.org/10.14712/23361980.2023.12
zveřejněno: 20. 10. 2023
Abstract
Tehran is one of the most polluted cities in the world with 48 days of air pollution exceeding the admissible threshold (AQI > 150) for 3 months of the 15 years studied. This period coincides with the time when Tehran’s inversion reaches its maximum stability. The purpose of this study was to determine the height of air pollution in Tehran in the days when pollution exceeds the permissible limit. Continuing to study the pressure and temperature conditions of these days, we then considered the geographical and topographic conditions, and finally identified the best of these cells for potential theoretical air turbulence. The results of this study, based on the Harmonic Analysis method and based on Tehran temperature and pressure data over a 15-year period (2003–2017), show that the highest elevation of Tehran inversion does not exceed 1800 m on polluted days. Only within 6 days of those beyond the admissible threshold, temperature and pressure cells with the highest Newtonian mass are formed. The center of these cells formed with a compressive difference of 32 mg in November, 7 mg in January, 11 mg in December, and temperature difference of 1.1° in November, 4.4° in January, and 1.9° in December. Generally, we considered the formed cells by the temperature and pressure difference and the gradient between them, as well as the difference in height between the cells and their location. This information, combined with the local winds causing the differences in temperature and pressure, allows us to elucidate conditions for creating air turbulence in Tehran and mitigating the amount and degree of air pollution.
klíčová slova: inversion; air pollution; thermal cells; pressure cells; air quality
reference (27)
1. Abbey, D. E., Nishino, N., McDonnell, W. F., Burchette, R. J., Knutsen, S. F., Beeson, W. L., Yang, J. X. (1999): Long-term inhalable particles and other air pollutants related tomortality in nonsmokers. American Journal of Respiratory and Critical Care Medicine 159(2), 373-382. CrossRef
2. Beelen, R., Hoek, G., van der Brandt, P., Goldbohm, R. A., Fisher, P., Shouten, L. J., Jerret, M., Hughes, E., Armstrong, B., Brunekreef, B. (2008): Long-term effects of traffic-related air pollution on mortality in a Dutch cohort (NLCS-Air Study). Environmental Health Perspectives 116(2), 196-202. CrossRef
3. Bidokhty, A. A., Tajedin, B. H. (1998): Urban mix layer and air pollution. Geography Research Quartery 20(3), 41-62.
4. Bityukova, V. R., Kasimov, N. S. (2012): Atmospheric pollution of Russia's cities: Assessment of emissions and immissions based on statistical data. Geofizika 29(1), 53-67, https://hrcak.srce.hr/84995.
5. Buchholz, S., Junk, J., Krein, A., Heinemann, G., Hoffmann, L. (2010): Air pollution characteristics associated with meso scale atmospheric patterns in northwest continental Europe. Atmospheric Environment 44(39), 5183-5190. CrossRef
6. Cheragi, M. (1999: Study and comparison air quality between Tehran and Isfahan in 1998 and presentation solution for improvement. MA thesis Environment. Faculty of Natural Resources, University of Tehran.
7. Crosignani, P., Borgini, A., Cadum, E., Mirabelli, D., Porro, E. (2002): New directions: air pollution - how many victims? Atmospheric Environment 36(29), 4705-4706. CrossRef
8. Dockery, D. W., Pope III, C. A., Xu, X., Spengler, J. D., Ware, J. H., Fay, M. E., Ferris, B. G., Speizer, F. E. (1993): An association between Air Pollution and Mortality in Six U.S. Cities. New England Journal of Medicine 329, 1753-1759. CrossRef
9. Esa, L., Ali, A., Shah, M., Behzad, B., Siravan, A.M. (2012): Special vulnerability and air pollution disaster in Tehran. Third National Urban Development Conference, Islamic Azad University. Sanandaj.
10. Gwilliam, K., Kojima, M., Johnson, T. (2004): Reducing Air Pollution from Urban Transport. The International Bank for Reconstruction and Development/THE WORLD BANK, https://www.esmap.org/sites/default/files/esmap-files/urban%20pollution%20entire%20report.pdf.
11. Kejna, M. (2008): Topoclimatic conditions in the vicinity of the Arctowski Station (King George Island, Antarctica) during the summer season of 2006/2007. Polish Polar Research 29(2), 95-116, https://journals.pan.pl/Content/110568/PDF/PPR29-095.pdf.
12. Laden, F., Schwartz, J., Speizer, F.E., Dockery, D.W. (2006): Reduction in Fine Particulate Air Pollution and Mortality. Extended Follow-up of the Harvard Six Cities Study. American Journal of Respiratory and Critical Care Medicine 173(6), 667-672. CrossRef
13. Lashkari, H., Hedayat, P. (2007): Analysis model of synoptic extreme inversion in Tehran. Geography Research Quarterly 56(4), 65-82.
14. Mage, D., Ozolins, G., Peterson, P., Webster, A., Orthofer, R., Vandeweerd, V., Gwynne, M. (1996): Urban air pollution in megacities of the world. Atmospheric Environment 30(5), 681-686. CrossRef
15. Needleman, H. L., Schell, A., Beelinger, D., Leviton, A., Allred, E. N. (1990): The Long-Term Effects of Exposure to Low Doses of Lead in Childhood - An 11-Year Follow-up Report. New England Journal of Medicine 322, 83-88. CrossRef
16. Patel, T. (1994): Killer smog stalks the Boulevards. New Scientist 1947.
17. Prüss-Ustün, A., Wolf, J., Corvalan, C., Bos, R., Neira, M. (2016): Preventing disease through healthy environments: a global assessment of the burden of disease from environmental risks. World Health Organization, https://www.who.int/publications/i/item/9789241565196.
18. Sánchez-Coyllo, O. R., de FátimaAndrade, M. (2002): The influence of meteorological conditions on the behavior of Siapaolo Brazil. Environmental Pollution 116(2), 257-263. CrossRef
19. Saneie, R. (2016): Disaster management and planning of Tehran air pollution. PhD thesis. University of Isfahan.
20. Sarraf, M., Heger, M. (2018): Air Pollution in Tehran: Health Costs, Sources, and Policies. Environment and Natural Resources Global Practice Discussion Paper; No. 6. World Bank, Washington, DC, http://hdl.handle.net/10986/29909.
21. Shabazi, H., Ghaniazad, R., Hossieni, V., Hamedi, M. (2017): Investigation the influence of traffic emission reduction plans on Tehran air quality using WRF/CAMx modeling tools. Transportation Research Part D: Transport and Environment 57, 484-495. CrossRef
22. Shahid, M. A. K., Hussain, K. (2013): Atmospheric air pollution and mapping of Faisalabad city using syntax map method. International Journal of Chemistry and Material Science 2(1), 001-009, http://www.academeresearchjournals.org/download.php?id=438603387359772169.pdf&type=application/pdf&op=1.
23. Shariepour, Z., Bidokhti, A. A. (2006): Investigating air pollution in Tehran and its relationship with meteorological characteristics. The first conference on air pollution and its effects on health, Clean Environment Studies Institute, Tehran.
24. Thadathil, P., Gosh, A. K. (1992): Surface layer temperature inversion in the Arabian Sea during winter. Journal of Oceanography 48, 293-304. CrossRef
25. UNEP/WHO (1992): Urban air pollution in megacities of the world. Blackwell Reference, Oxford, https://iris.who.int/handle/10665/39902.
26. Vineis, P., Hoek, G., Krzyzanowski, M., Vigna-Taglianti, F., Veglia, F., Airoldi, L., Autrup, H., Dunning, A., Garte, S., Hainaut, P., Malaveille, C., Matullo, G., Overvad, K., Raaschou-Nielsen, O., Clavel-Chapelon, F., Linseisen, J., Boeing, H., Trichopoulou, A., Palli, D., Peluso, M., Krogh, V., Tumino, R., Panico, S., Bueno-De-Mesquita, H. B., Peeters, P. H., Lund, E. E., Gonzalez, C. A., Martinez, C., Dorronsoro, M., Barricarte, A., Cirera, L., Quiros, J. R., Berglund, G., Forsberg, B., Day, N. E., Key, T. J., Saracci, R., Kaaks, R., Riboli, E. (2006): Air pollution and risk of lung cancer in a prospective study in Europe. International Journal of Cancer 119(1), 169-174. CrossRef
27. Zahedi, M., Zolfagari, H., Torabi, S. (2000): Study effect of climatology factor on formation nucleus air pollution in northern of Tabriz. Second Zonal Meeting on Climate Change. Meteorological Organization, Tehran.
Air pollution and topography in Tehran is licensed under a Creative Commons Attribution 4.0 International License.
210 x 297 mm
vychází: 2 x ročně
cena tištěného čísla: 200 Kč
ISSN: 0300-5402
E-ISSN: 2336-1980