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Manuscript ID : JEST-1701-3314 (R1) Visit : 158 Page: 1 - 12

10.22034/jest.2020.24033.3314

Article Type: Original Research

Detecting the Route and Source of Atmospheric Pollutants Movement in High-Level Air Pollution Periods by Utilizing MODIS and HYSPLIT Model in Tehran Metropolis

Subject Areas : Air Pollution

Motahhareh Zargari 1 , Abbas Mofidi 2 , Azar Zarrin 3

1 - M.Sc., Climatology, Department of Geography, Ferdowsi University of Mashhad, Iran
2 - Associate Professor, Climatology, Department of Geography, Ferdowsi University of Mashhad, Iran * (Corresponding Author)
3 - Associate Professor, Climatology, Department of Geography, Ferdowsi University of Mashhad, Iran

Received: 2017-01-16 Accepted : 2017-04-30 Published : 2020-02-20

Keywords: Tehran, MODIS, GIS, HYSPLIT, High Level Air Pollution Periods,

Abstract :

Background and Objective: Air pollution is one of the significant problems that have become one of the main issues. In this study, we focus on detecting the route and source of atmospheric pollutant movement in high-level air pollution periods in Tehran. Method: Air pollution data, Terra MODIS satellite image data, and FNL data were used. The PSI calculated high-level air pollution periods for PM10 and O3. Moreover, the origin of pollutants was detected by the HYSPLIT model and satellite images. HYSPLIT model determined the origin of widespread pollution. It could detect them with the backward method in three levels, which included 10, 1500, and 5000 meters. Some maps were produced for satellite images and HYSPLIT models drawn in GIS. Findings: In the extratropical pattern, the dust from Syria, northeast to south-east Saudi Arabia, central, northern and southern Iraq and parts of Turkey have affected Tehran. According to HYSPLIT model outputs, at a lower level of the atmosphere and the middle level of the atmosphere, not only the local situation but also the regional situation had a considerable role. At the upper level of the atmosphere, environmental pollution could become into Tehran by streams. In the compound pattern, Saudi Arabia, Iraq, Syria, Jordan, and some parts of Turkey had an important function. In the HYSPLIT model, the North-East and North-West of Iran have attempted to influence Tehran in the lower level of the atmosphere. In the middle level of the atmosphere, the local situation is more remarkable. At the upper level of the atmosphere, the origin of dust was western to eastern parts of Iraq and the northeast part of Iraq. Further, the dust on the north-eastern of Syria, Jordan, and parts of Turkey is more notable. Conclusion: These maps were categorized into two main synoptic patterns, including extratropical and intricate patterns.

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_||_

  1. UNEP /WHO.1992. Urban Air Pollution In Megacities of the World. United Nations Environment Programme / World Health Orgainsation, Oxford, Blackwell.
    2.
  2. WRI. 1998. China’s health and environment, air pollution and health effects. in World Resources 1998-99: Environmental change and human health, World Resource Institute, A joint publication by the World Resources Institute, the United Nations Environment Programme, the United Nations Development Programme, and The World Bank.
    3.
  3. UNEP/WHO. 1988. Guidelines for monitoring the quality of coastal recreational and shellfish-growing waters (Draft). Reference Methods for Marine Pollution Studies No. 1 Rev. 1. UNEP, (37 pages).
    4.
  4. WHO. 2000. Air Quality Guidelines for Europe. Second Edition. WHO Regional Publications, European Series.
    5.
  5. WHO. 2014. Public Health, Enviromental and Social Deteminates of Health (PHE). WHO DEPARTMENT OF PUBLIC HEALTH, ENVIRONMENTAL AND SOCIAL DETERMINANTS OF HEALTH (PHE), Issue 63 / March 2014.
    6.
  6. WHealtO. 2012. Burden of disease from the joint effects of Household and Ambient Air Pollution for 2012", WHO Technical Report.  Available: http://www.who.int/phe/health_topics/outdoorair/databases/AP_jointeffect_BoD_results_March 2014.pdf.
    7.
  7. Yang.G.. Wang.Y.. Zeng.Y.. Gao.GF.. Liang.X... Zhou.M.. Wan.X.. Yu.Sh.. Jiang.Y.. Naghavi.M..  Vos.T.. Wang.H.. Lopez.A. D. Murray.. Ch. JL.. 2013. Rapid health transition in China, 1990–2010: findings from the Global Burden of Disease Study 2010. Lancet, volume 381, Issue 9882, 8–14 June 2013, Pages 1987-2015.
    8.
  8. Chitkara.S.. 1997. Air pollution in India – An exploratory study. National Compendium Statistics, New Delhi, India.
    9.
  9. Agarwal.A.. Naryan.S.. Sen.S.. 1999. Citizens’ Fifth Report part I and part II. State of India’s environment, Centre for Science and Environment, New Delhi.
    10.
  10. Sikdar.P.K… Mondal.S.. 1999. Air pollution management programme of Calcutta. Journal of Environmental Studies and Policy, 2 (2): 71-86.  
    11.
  11. Romieu.I.. M.H.Avila.. 2003. Air pollution and health in developing countries – A review of epidemiological evidence"; In Air Pollution and Health in Rapidly Developing Countries edited by Frank Murray and Gordon McGranahan, Earthscan Publications, London.
    12.
  12. Saksena.S.. K.R.Smith.. 2003. Indoor air pollution. In Air Pollution and Health in Rapidly Developing Countries edited by Frank Murray and Gordon McGranahan, Earthscan, London.
    13.
  13. Safari.H.. 20 .Introduction to Iranian Cities. Vol. I, Zarghalam Publications, Kayhan Publishing. (In Persian).
    14.
  14. Zhao.T.X.P.. Ackerman.S.. Guo.W.. 2010. Dust and smoke detection for multi-channel imagers. Remote Sensing, 2(10), 2347-2368.
    15.
  15. Wang.Y..  Stein.A.F.. Draxler.R.R.. Jesús.D.. Zhan.X.. 2011. Global sand and dust storms in 2008. observation and HYSPLIT model verification Atmospheric Environment, volume 45, Issue 35, November 2011, Pages 6368-6381.
    16.
  16. Karimi.N.. Moridnejad.A.. Golian.S.. ValiSamani.J.M.. Karimi. D.. Javadi,.S.. 2012. Comparison of dust source identification techniques over land in the Middle East region using MODIS data. Canadian Journal of Remote Sensing, volume 38, 2012 - Issue 5: 586-599.
    17.
  17. Wan..C.. Liu. Q.. Ying. N.. Wang. X.. Ma. J.. 2013 .Air quality evaluation on an urban scale based on MODIS satellite images. Atmospheric Research, volumes 132–133, October–November 2013, Pages 22-34.
    18.
  18.  Gewichi.R.. 2011 .Determination desorption sources of different dust storms and their contribution to PM10 concentrations in Tehran. Master's thesis, Sharif University of Technology, Faculty of Civil Engineering, Environmental Engineering. (In Persian).
    19.
  19. Gewichi.R.. Arhami. M.. Tajrishi. M.. 2011 .Determination of desorption storms of dust storms and estimating the contribution of each of them to PM10 concentrations in Tehran. Fifth Specialized Conference on Environmental Engineering, Iran University of Science and Technology , Faculty of Civil Engineering, November 21, 2011 to November 22, 2011. (In Persian).
    20.
  20. Karimi.Kh.. Taheri. Shahriini. H.. Habibi. Nokhandan. M.. Hafezi. Moghadas. N.. 2012. Identifying the origin of dust storm production in the Middle East using remote sensing. Climatology Research - 2012 - Volume: 2 - Issue: 7th and 8th - Page: 57-72. (In Persian).
    21.
  21. Mohammadi.F.. Zargari. M.. 2014 .Analysis of the Spatial Distribution of Dust in Tehran. The first National Conference of Geography, Planning and Sustainable Development, Tehran, Iran  February 27, 2014. (In Persian).
    22.
  22. Ranjbar.Saadat Abadi. A.. Darvishzadeh. S ..2013 .Study of atmospheric patterns and determining the sources of dust in the very unhealthy conditions of Tehran's air quality. Environmental Research, Vol. 4, No. 7, Spring & Summer 2013, p. 147-160. (In Persian).
    23.
  23. Zargari.M.. Mofidi.A.. Zarrin.A.. 2015 .Synoptic Analysis of High Level Air Pollution Episodes in Tehran Metropolis .The First International Conference of Geographic Sciences (ICGS2015), The Institute of Science and Technology Al-Khwarizmi Shiraz, Shiraz, Iran, Thursday, August 6, 2015. (In Persian).
    24.
  24. Zargari. M.. Mofidi. A.. Zarrin. A ..2015 .Effective Atmospheric Processes in formation High Level Air Pollution Episodes in Tehran .The first Congress of the development and promotion of agriculture, natural resources and the environment, Tehran, Iran, Saturday, October 3, 2015. (In Persian).
    25.
  25. Zargari. M.. 2015. Numerical Simulation of High Level Air Pollution Episodes in Tehran Metropolitan .Ferdowsi University of Mashhad. (In Persian).
    26.
  26. NASA.2009 .http:// MODIS. gsfc. NASA. Gov /sci_ team/meetings /200610/atmos Agenda. Pdf. NCAR Tech. Note/TN-275+STR, 72pp., Natl. Cent. For Atmos. Res., Boulder, Colo.
    27.
  27. Gupta.P.Ch.S.A.. Box.M.A.. Box.G.P.. 2007.Multiyear satellite remote sensing of particulate matter air quality over Sydney, Australia .International Journal of Remote Sensing, volume 28, 2007 - Issue 20: 4483–4498.
    28.
  28. Stunder.B.J.B.. 1997. NCEP Model Output – FNL ARCHIVE DATA, TD.
    29.
  29. Ott.W.R.. Hunt.Jr.W.F.. 1976 .A quantitative evaluation of the pollutant standards index .Journal of the Air Pollution Control Association, 26(11), 1050-1054.
    30.
  30. CHENG.W.L.. CHEN.Y.S.. ZHANG.J.. LYONS.T.. PAI.J.L.. CHANG.S. H. 2007.Comparison of the revised air quality index with the PSI and AQI indices. Science of the Total Environment, volume 382, Issues 2–3, 1 September 2007, Pages 191-198.
    31.
  31. Nikravan.M..Husseini.E..Hashemi .S.H.. 2010. Pollutant Standard Index (PSI). Comparing the published and real values in Tehran", In 5th National Congress on Civil Engineering (p. 8).
    32.
  32. United States Environmental Protection Agency (US-EPA).. 1998. Guideline for Reporting of Daily Air QualityPollutant Standards Index (PSI). EPA Draft, Office of Air Quality Planning and Standards, North Carolina 27711, 28 pp.
    33.

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