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The Effects of Natural Disasters on the Health Sector in Iran

Shahpari, Ghazal (2018): The Effects of Natural Disasters on the Health Sector in Iran. Published in:

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Abstract

In the last decades, natural disasters have burdened many economic and physical losses to the countries. After disaster, the level of capital stock decreases strongly and household assets will be at risk seriously, and by decreasing the amount of income and saving, it will lead to lower the levels of welfare. According to the study of the natural disasters that had happened in Iran, earthquake and drought are the main disasters that can affect economies. After disaster happened, government’s expenditure will increase to help victims. While, by an accurate programming to reduce risks before the disaster, the loss will decline dramatically. In this dissertation, by applying computable general equilibrium models, economic effects of earthquake and drought on the macroeconomic variables, health sector and household welfare have been studied. Decreasing in the amount of capital stock and decreasing in the amount of available water are the scenarios that have been investigated in this dissertation. According to the results, both earthquake and drought lead to decline of GDP and also change the production of health sector. Since the consumption, saving and income of household decrease, it can be concluded that the household welfare also declines. The amount of capital in the building sector in comparison with the whole investment is high in Iran. Earthquake is the major reason for buildings to be destroyed, therefore finding an appropriate solution to save the national wealth seems necessary. Then, by presenting a conceptual method, insurance has been introduced as the most effective solutions for facing with losses of disasters, and especially earthquake. By using legal requirements, appropriate and justly pricing for premium and government supports of some groups of the society, the shortage of demand for the earthquake insurance must be solved and by increasing in the liquidity, the insurance industry will be developed. And also, in the long run, earthquake insurance will lead to reinforced and standard building that will lower the losses down as much as possible. For drought, in addition to the insurance, managing water resources accurately should be considered. Studying the consequences of dam constructions, moving or displacement of the rivers, building installations are necessary. In recent years these kinds of actions have severe negative effects on the water resources and ecosystem and lead to drought. Besides studying on the economic efficiency of importing agriculture product is that needs lots of water, is another solution of saving water.

Item Type: MPRA Paper
Original Title: The Effects of Natural Disasters on the Health Sector in Iran
Language: English
Keywords: Natural Disasters, Health Sector, Earthquake, Drought, Computable General Equilibrium Models.
Subjects: I - Health, Education, and Welfare > I1 - Health > I15 - Health and Economic Development
Q - Agricultural and Natural Resource Economics ; Environmental and Ecological Economics > Q2 - Renewable Resources and Conservation > Q25 - Water
Q - Agricultural and Natural Resource Economics ; Environmental and Ecological Economics > Q5 - Environmental Economics > Q54 - Climate ; Natural Disasters and Their Management ; Global Warming
Q - Agricultural and Natural Resource Economics ; Environmental and Ecological Economics > Q5 - Environmental Economics > Q57 - Ecological Economics: Ecosystem Services ; Biodiversity Conservation ; Bioeconomics ; Industrial Ecology
Item ID: 123563
Depositing User: Ghazal Shahpari
Date Deposited: 11 Feb 2025 16:45
Last Modified: 11 Feb 2025 16:45
References:

A) Persian References

1. Imamgholipour Sefid Dashti, Sara (2008). The Impact of Natural Disasters on Selected Macroeconomic Variables in Iran. Doctoral Dissertation, Tarbiat Modares University.

2. Imamgholipour Sefid Dashti, Sara (2014). Economics of Natural Disasters, Noor Elm Publications.

3. Emkachi, Hamideh (1993). The Determining Role of Insurance in the Construction Industry. Insurance Industry Quarterly, pages 43 to 50.

4. Ali, Ahmad, Masiha Madani, and Hamid Ahmadi Balo (2009). Drought and Ways to Counteract It. Agricultural Jihad Organization of West Azerbaijan Province, Publisher: Agricultural Education and Research Promotion Organization, Agricultural Jihad Organization Extension Management, First Edition.

5. Babaei, Mohammad; Laki Rohani, Ali (2011). Comparison of Modern Concrete Beam Reinforcement Methods (FRP Reinforcements) with Older Methods, Sixth National Civil Engineering Congress, Semnan University, Iran.

6. Badri, Seyed Ali; Mousavi, Sirous (2010). An Analysis of Trends in the Changes of Certain Rural Housing Characteristics in Iran. Proceedings of the Fourth International Congress of Geographers of the Islamic World.

7. Barkhordari, Sajad; Mehrgan, Nader (2010). General Equilibrium Models and Their Application in Economics. Noor Elm Publications, First Edition.

8. Barfishe, Mari (2012). An Introduction to Computable General Equilibrium Models. Translated by Fatemeh Bazazan and Maryam Soleimani Moayyad, Tehran, Nashr Ney.

9. Bazazan, Fatemeh; Mohammadi, Parisa (2016). Modeling Regional Economic Losses Due to Natural Disasters: A Case Study of the Tehran Earthquake. Iranian Economic Research Quarterly, 21st Year, Issue 68, Fall, pages 99-127.

10. Bastami, Morteza (2010). A Review of Earthquake Insurance Development in Japan for the Building and Housing Sector. Journal of Seismology and Earthquake Engineering, 13th Year, Issues 3 and 4, pages 53 to 62.

11. Iran Meteorological Organization Website: www.irimo.ir

12. Pourriyahi, Parvaneh (1989). The Use of Insurance in Compensating for Earthquake Damage. Central Insurance Quarterly, 4th Year, Issue 2, pages 38 to 54.

13. Pirmardian, Nader (2008). Estimating the Return Period of Drought Using the Standardized Precipitation Index (SPI) in Fars Province. New Agricultural Science, 4th Year, Issue 17, pages 7 to 21.

14. Tafazzoli, Fereydoun (1993). History of Economic Thoughts. Tehran, Nashr Ney, First Edition, pages 118-120.

15. Javadnia, Islam; Mebashari, Mohammadreza (2007). Review of Agricultural Drought Assessment Methods Using Remote Sensing Techniques. Khajeh Nasir University of Technology.

16. Khalaji, Mahtab; Ebrahimi, Eisa; Hashemizadeh, Hasti, et al. (2016). Water Quality Assessment of Zayanderud Dam Lake Using the WQI Index. Iranian Fisheries Science Journal, 25th Year, Issue 5, pages 51-64.

17. Khiz, Zahra (2013). The Effects of Drought on Iran's Economy: A Computable General Equilibrium Analysis. Master's Thesis, Faculty of Agriculture, Shiraz University.

18. Darijani, Ali; Hosseini, Seyed Safdar; Ghorbani, Mohammad (2008). Estimating the Damage Value of Drought to Wheat Production in Golestan Province. Journal of Agricultural Economics and Development, Issue 64, Winter, pages 83 to 96.

19. Macro Water and Wastewater Planning Office (2015). Statistical Yearbook of Water in the Country 91-1390. Ministry of Energy, Tehran.

20. Planning and Development Office, Statistical Analysis Department, Central Insurance of the Islamic Republic of Iran (2016). Statistical Yearbook of the Insurance Industry for 1394. Central Insurance of the Islamic Republic of Iran, First Edition.

21. Razavi Neshat, Najmeh and Mehdi Masoudi Far (2016). The Effects of Drought and Ways to Counteract It, Agricultural Jihad Organization of Kerman.

22. Geological Survey and Mineral Exploration Organization of Iran Website: www.gsi.ir

23. Shakari, Abbas (2016). An Introduction to the Economy of Iran, Rafe Publishing, First Edition.

24. Shahpari, Ghazal, Hossein Sadeghi, Abbas Asari, and Mohammad Hassanzadeh (2016). Insurance: An Effective Solution for Managing Natural Hazards. Environmental Hazard Management Journal, Vol. 3, Issue 4, pages 345-364.

25. Sadeghi, Hossein (2001). The Cost of Power Outages in the Agricultural Sector, Ministry of Energy, Economic Research Institute, Tarbiat Modares University.

26. Sadeghi, Hossein and Imamgholipour Sefid Dashti, Sara (2008). Study of the Impact of Natural Disasters on Non-Oil GDP in Iran, Journal of Economic Research, Issue 83, pages 115 to 136.

27. Sahat, Saeed; Akrami, Hamid (2014). Reasons for the Lack of Earthquake Insurance Development in Iran and the Need for Its Expansion. Monthly Insurance World News, Issues 190 to 200, pages 53 to 61.

28. Ziaei Saman, et al. (2013). Simulation of the Effects of Drought on the Agriculture Subsector Nationwide. Agricultural Economics and Development, 21st Year, Issue 81, pages 203 to 229.

29. Tabiei, Omid (2006). Ecological Footprint: The Impact of Humans on Nature, First Specialized Conference on Environmental Engineering, Tehran, University of Tehran, Faculty of Environment, https://www.civilica.com/Paper-CEE01-CEE01_229.html

30. Tayebi, Seyed Kamal and Shirin Masri Nejad (2006). Methodology of Computable General Equilibrium (CGE) Model: Theory and Application. Economic Studies Quarterly, Vol. 3, Issue 1.

31. Alizadeh, Maliheh (2013). Calculating the Fuzzy Drought Index and Examining Its Impact on GDP. Master's Thesis, Faculty of Management and Economics, Tarbiat Modares University.

32. Ghafouri Ashtiani (2010). Risk Management of Natural Disasters and Insurance in Iran. 17th National Conference and 3rd International Conference on Insurance and Development.

33. Fattahi, Maryam; Abbas Asari; Hossein Sadeghi, and Hossein Asgharpoor (2013). The Impact of Air Pollution on Public Health Costs: A Comparative Study of Developing and Developed Countries. Quarterly Journal of Economic Development Research, Issue 11, pages 111 to 132.

34. Ghanbari, Yusef (2001). Economic and Social Impacts of Drought on the Qashqai Nomads. Proceedings of the First National Conference on Examining Strategies to Combat Water Crisis, pages 273 to 281.

35. Ghahramani, Fereshta (2012). Measuring the Economic and Social Impacts of Drought Using the Modified Social Accounting Matrix (SAM) Supply-Side Model. Master's Thesis, Faculty of Management and Economics, Tarbiat Modares University.

36. Kazemi, Leila; Kalantari, Mohsen (2011). Analysis of Factors Affecting Earthquake Insurance for Residential Buildings in Zanjan City. Quarterly Journal of Geography and Urban Planning, Zagros Perspective, 3rd Year, Issue 7, pages 99 to 117.

37. Karimi, Seyed Mohammad (2013). Evaluation of the Performance of the Country's Insurance Industry and the Definition of Future Prospects. Quarterly Journal of Fiscal and Economic Policies, Special Issue on Economic Report of the Government, 1st Year, Issue 2, pages 183 to 202.

38. Keshavarz Haddad, Gholamreza; Mortezazadeh, Hamed (2010). Analyzing the Allocation Effects of Gasoline Price Stabilization within a Computable General Equilibrium Model. Iranian Economic Research, 14th Year, Issue 42, pages 25-54.

39. Koshafar, A. (1999). Study of Changes and Concentration of Physicochemical Factors in Dez Dam Lake and Determining Its Water Balance. Master's Thesis, University of Science and Research, Ahvaz Unit.

40. Mokhtari, Darius and Iraj Saleh (2007). Economic and Social Effects of Drought on Rural Households in the Sistan Region. Iran Journal of Agricultural Extension and Education Sciences, Vol. 3, Issue 1, pages 99 to 114.

41. Road, Housing, and Urban Development Research Center (2014). Earthquake Design Code for Buildings, Standard 2800, Fourth Edition, Permanent Committee for Reviewing the Earthquake Design Code for Buildings.

42. Road, Housing, and Urban Development Research Center (2017). Urgent Report on the November 21, 2017 Earthquake in Kermanshah-Sarpole Zahab.

43. National Climate Research Center, Climate Research Institute, Website: www.cri.ac.ir

44. National Drought and Crisis Management Center (2017). Meteorological Drought Status Report of the Country, Agricultural Year 96-1395. Iran Meteorological Organization.

45. Mazinani, Atefeh (2015). Targeting Subsidies for the Health Sector in Iran. Doctoral Dissertation, Tarbiat Modares University.

46. Mostafavi, Seyed Mohammad Hassan; Mehrgan, Nader; Rezaei, Rohollah (2013). Earthquake and Its Effects on the Employment Structure of Bam. Scientific and Research Journal of Economic Policy, 5th Year, Issue 9, Spring and Summer.

47. Mostafizadeh, Reza; Mohsen Zibahi (2016). Analysis and Comparison of SPI and SPEI Indices in Meteorological Drought Assessment Using R Software (Case Study: Kurdistan Province). Earth and Space Physics, Vol. 42, Issue 3, pages 633-643.

48. Moghimi, Ebrahim (2015). Risk Knowledge for a Better Life and a More Sustainable Environment. Tehran University Press, Second Edition.

49. Agricultural Planning, Economic Research, and Rural Development Institute (2015). Summary Report of the Agricultural and Natural Resources Sector Program in the Sixth Development Plan.

50. National Seismological Center Website, University of Tehran, Geophysics Institute.

51. Ministry of Energy (2018). Daily Precipitation Report by First and Second-Order Watersheds, Iran Water Resources Management Company, Water Resources Basic Studies Office.

b. References in English 52. Aaron, Popp (2006). The Effects of Natural Disasters on Long Run Growth. Major Themes in Economics. 61-82.

53. Achour, N. et al. (2011), “Earthquake induced structural and non-structural damage in hospitals”, Earthquake Spectra, Vol. 27 No. 3 pp. 617-634.

54. Al-Riffai, P. and Clemens Breisinger (2012). Droughts in Syria: an Assessment of Impacts and Options for Improving the Resilience of the Poor. Quarterly Journal of International Agriculture 51 (2012), No. 1: 21-49.

55. Amdt, C. Hussain, A. et al. (2016). “Effects of food price shocks on child malnutrition: the Mozambican expierence 2008/2009”. Economics and human biology, vol. 22, pp. 1-13.

56. Anbarci, Nejat et al (2004). Earthquake Fatalities: the Interaction of Nature and Political Economy. Journal of Public Economics, 89, pp. 1907-1933.

57. Bauer J. M., Mburu S. (2017). “Effects of drought on child health in Marsabit District, Northern Kenya”. Economics & Human Biology, vol. 24, issue C, pp. 74-79.

58. Bayer, L. J. and Reinhard Mechler (2008). Insurance against losses from natural disasters in developing countries, Reviewed for DESA publication.

59. Benson, Ch., and E. J. Clay (2004). Understanding the Economic and Financial Impacts of Natural Disasters, Disaster Risk Management Series, No. 4, World Bank.

60. Born, Patricia (2006). The catastrophic effects of natural disasters on insurance markets. J. uncertainty, vol. 33, pp. 55-72.

61. Carrera, L. (2015). Assessing direct and indirect economic impacts of a flood event through the integration of spatial and computable general equilibrium modelling. Environmental modelling and Software, 63, 109-122.

62. CCME. (2001). “Canadian water quality guidelines for the protection of aquatic life: Canadian Water Quality Index 1.0 Technical Report.” In Canadian environmental quality guidelines. 1999. Winnipeg.

63. Chen, J. (2011). Dads, disease, and death: determinants of daughter discrimination. Journal of Population Economics, 24.

64. Craig E. (2013). Hard market vs. soft market: the insurance industry’s cycle and why we’re currently in a hard market. PSA perspective.

65. Datar, A. et al (2013). The Impact of Natural disasters on child health and investment in rural India. Social Science and Medicine. Volume 76, 83-91.

66. Dervis, K., de Melo J., & Robinson S. (1982). General equilibrium models for development policy. New York: Cambridge University Press, 1982.

67. ECLAC. 1991. Handbook for Estimating the Socio-Economic and Environmental Effects of Natural Disasters: Economic Comission for Latin America and Caribbean.

68. ECLAC. 2003. Manual for Estimating the Socio-Economic and Environmental EFfects of Disasters: Economic Comission for Latin America and Caribbean.

69. Flores P.J., Goltz J.D., Najera G.V. (1985). Earthquake Insurance a public policy dilemma. Southern California Earthquake Preparedness Project. Federal emergency management agency. Earthquake hazard reduction series 7.

70. General Insurance Rating Organization of Japan (2014). Earthquake Insurance in Japan. 3rd edition.

71. Gerdin M, Clarke M, Allen C, Kayabu B, Summerskill W, et al., (2014). Optimal Evidence in Difficult Settings: Improving Health Interventions and Decision Making in Disasters. PLoS Med 11(4): e1001632. doi: 10.1371/journal.pmed.1001632.

72. Gignoux J., (2016). “Benefit in the Wake of Disaster: Long-run Effects of Earthquakes on Welfare in Rural Indonesia”, Journal of Development Economics, vol. 118, issue C, 26-44.

73. Gil, Marina et al (2010). Economic Analysis of drought risk: an application for irrigated agriculture in Spain. Agriculture Water Management, 98, 823-833.

74. Gonzalez, J.F. (2017). The economic impacts pf droughts: a framework for analysis. Ecological economics, Vol. 132, pages 196-204.

75. Gunes, H. (2001). “Gender Differences in Distress Levels, Coping Strategies and Stress Related Growth and Factors Associated with Psychological Distress and Perceived Growth Following the 1999 Marmara Earthquake”, Master Thesis.

76. Haddad E., et al (2015). Economic impacts of natural disasters in megacities: The case of floods in Sao Paulo, Brazil. Habit International, 45, 106-113.

77. Hallegatte, Stephane (2010). The Economics of Natural Disasters: Concepts and Methods. The World Bank. Policy Research Working Paper, 5507.

78. Hisdal, H. and L.M. Kallaksen (2003), Estimation of regional meteorological and hydrological drought characteristics: a case study for Denmark, Journal of Hydrology, 281: 230-247.

79. Huang Michael C. et al. (2014). A General Equilibrium Assessment on a Compound Disaster in Northern Taiwan. GRIPS Discussion Paper 14-06.

80. Kiyoshi, O. (1966). Background of establishment of an earthquake insurance system and outline of the system insurance. Study magazine, 434.

81. Kunreuther H. (1978). Issues on Earthquake Insurance: A Position Paper. Prepared for the J.H. Wiggins Company, Redondo Beach, CA.

82. Lofgren, H. et al. (2002). A Standard Computable Equilibrium (CGE) Model in GAMS. International Food Policy Research Institute TMD Discussion Paper No. 75.

83. March, G. (2002) Natural Disasters and the Impacts on Health, The University of Western Ontario, Faculty of Medicine and Dentistry, Summer Student with ICLR.

84. Nasrabadi T, Maedeh PA. (2014). “Groundwater quality degradation of urban areas (case study: Tehran city, Iran)”. International Journal of Environmental Science and Technology, No. 11, Vol. 2, pp. 293-302.

85. Norris, F. H., (1990). “Screening for the Traumatic Stress: A Scale for Use in the General Population”, Journal of Applied Social Psychology, Vol. 6, No. 1, pp. 115-121.

86. Riestra, M., (2015). “The Impact of Natural Disasters on Welfare: Evidence from Chilian Earthquake”, university of SanAndres: Buenous Aires, Victoria.

87. Rose, A., Liao, S. (2011). Modeling Regional Economic Resiliency to Earthquakes: A Computable General Equilibrium Analysis of Lifeline Disruptions, Journal of Regional Science, 45 (1): 75 – 112

88. Sadeghi, H. et al., 2008. “Studying Effects of Natural Disasters on Non-Oil GDP in Iran”, Journal of economic researches, Vol. 83, pp. 115-136 (in Persian).

89. Sadeghi-Bazargani, H. et al., (2015). “Crisis Management Aspects of Bam Catastrophic Earthquake: Review Article”, Health Promotion Perspectives, Vol. 5 No. 1, pp. 3-13.

90. Salami, Habibollah, et al (2008). The economic impacts of drought on the economy of Iran. Ecologocal Economics, No. 68, pp. 1032-1039.

91. Samadi, M.T., Saghi, M.H., Rahmani, A.R. and Torabzadeh, H. (2009). “Zoning of water quality of HamadanDarreh-MoradBeyg River Based on NSFWQI. Index Using Geographic Information System”. Journal of Hamadan University of Medical Sciences, No.16 Vol. 3, pp. 38- 43.

92. Saylor, C. F. et al., 1993. “Children and Disasters: Clinical and Research Issues”, In C. F. Saylor (ED) Children and Disasters, New York: Plenum Press.

93. Shibusawa, H., (2011). “Evaluating the Economic Impacts of a Disaster: A CGE Application to the Tokai Region of Japan”, Regional Science Inquiry, vol. 3, issue 2, pp. 13-25.

94. Shimbon (1980). All about earthquake insurance. General insurance association of Japan.

95. Shoven, J. B., & Whalley, J. (1992). Applying general equilibrium. New York: Cambridge University Press.

96. Skees, J.R. (2000). A role for capital markets in natural disasters: a piece of the food security puzzle. Food Policy. 25, pp. 365-378.

97. Soberon, G. et al., (1986). “The Health Reform in Mexico: Before and After 1985 Earthquakes”, American Journal of public health, Vol. 76. No. 6, pp. 273-280.

98. Steinbrugge, K. (1982). earthquakes, Volcanoes, Tsunamis: An Anatomy of Hazards. New York, Scandi, America Group.

99. The International Disaster Data Base: www.emdat.be (EM-DAT).

100. Toya, H., Skidmore, M. (2005). Economic Development and the Impacts of Natural Disasters. Economic Letters, 94, 20-25.

101. Vicente-Serrano, S. M., Begueria, S. & Lopezmoreno, J. I., (2010). “A multi-scalar drought index sensitive to global warming: the standardized precipitation evapotranspiration index-SPEI”, Journal of Climate, 23(7), 1696-1718.

102. Vogel, J. et al., 1993. “Task force report: Children’s psychological responses to disasters”, Journal of Clinical Child Psychology, Vol. 22 No.4 pp. 464-484.

103. WHO (2007), “Risk Reduction in the Health Sector and Status of Progress in Proceedings, Disaster, Risk Reduction in the Health Sector”, Thematic Workshop, World Health Organization (WHO), Geneva.

104. Winsemius, H. C. (2018). Disaster risk, climate change, and poverty: assessing the global exposure of poor people to floods and droughts. Environment and Development Economics, vol. 23, special issue 3 (Poverty and Climate Change) pages 328-348.

105. World Bank Organization (2007). Natural Disasters: Coping with the Health Impact.

106. Xie, N., Xin, J. and Liu, S. (2014) China’s regional meteorological disaster loss analysis and evaluation based on grey cluster model. Nat Hazards, 71: 1067–1089.

107. Zweifel, P. et al. (2009), “Health Economics”, Springer, second edition, Berlin, Germany.
URI: https://mpra.ub.uni-muenchen.de/id/eprint/123563

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