• Home
  • Evaluation of drought in South Khorasan province (Iran) using normal precipitation index (PNPI) and standardized method index (Z)

Share To

Article Url


Manuscript ID : 14562 Visit : 156 Page: 45 - 59

10.22034/jest.2019.14562

Article Type: Original Research

Evaluation of drought in South Khorasan province (Iran) using normal precipitation index (PNPI) and standardized method index (Z)

Subject Areas : environmental management

Mohammad Hossein Jahangir 1 , Mohammad Saranirad 2

1 - Assistant Professor, Faculty of New Sciences and Technologies, University of Tehran, Tehran, Iran. *(Corresponding Author)
2 - MSc in Ecohydrology, Faculty of New Sciences and Technologies, University of Tehran, Tehran, Iran.

Received: 2016-10-29 Accepted : 2017-07-19 Published : 2019-06-22

Keywords: Drought intensity, South Khorasan, Percent of Normal Precipitatio, Z index,

Abstract :

Background and Objective: Drought is among the natural disasters which happens in a long period of time and intermittently makes problems for human societies and consequently the economy through negative effects on water resources and agriculture compared to other natural phenomena. Thus, the basic step in drought studies is to select appropriate indicators for each area based on severity, duration and magnitude of drought in the study area. The aim of this study is to select appropriate indicators to classify and determine the degree of severity of the drought and wet and to identify the drought prone regions in South Khorasan province for planning and better management of drought. The values of drought severity were calculated by the desired index for each station using Matlab software. Then, based on the tables for each index, the drought and wet intensities were determined. Method: In this study, the situation of drought in South Khorasan province was evaluated using the drought index, weather percent of normal precipitation (PNPI) and standard methods of index (Z). Since most stations do not cover the long-term (30 years) statistics of precipitation data, the available stations with the precipitation data for period of 24 years (2014- 1990) were used. Findings: PNPI index results showed that among the studied stations, Khor Birjand stations with 5 months, Boshrooyeh, Ghain and Ferdous stations with 4 months and Birjand and Nehbandan stations with 3 months has the longest wet period. Drought is in the range of moderate drought to moderate humidity in most stations. The highest Z (wet 1/84) belongs to Nehbandan station in March and most of the stations experience moderate drought in June, July, August, September and October. Discussion and Conclusion: The two methods show that the drought is in the range of moderate drought to moderate humidity in most of the stations. According to the results of hypothesis evaluation, the drought has been very severe and has led to occurrence of minimum annual precipitation. In this study, PNPI index was found to be a more appropriate index for the region.  

References:


Reference

  1. Morid, S., Smakhtin, V. and Moghadasi, M. (2006). "Comparison of seven meteorological indices for drought monitoring in Iran" International journal of climatology, 26, 971-985.
    2.
  2. Michelle and Stormman (2003). "Drought Monitoring Using Several Highly Used Indices and Estimating the Best Indicator", Case Study of Abadan City (persian).
    3.
  3. Forestry, Rangeland and Watershed Management Organization (2004). National Action Plan for Desertification and Reducing the Drought Effects of the Islamic Republic of Iran, Puneh, Tehran, p. 7, (persian).
    4.
  4. Siof, (1385). "Climate change and drought", Hormozgan University, (persian).
    5.
  5. Umran Komuscu, A. (1999). Using the SPI to analyze spatial and temporal patterns of drought in Turkey. Drought Network News (1994-2001), 49.
    6.
  6. Good Faith, F (1376). "Investigation of Temporary Drought and Threats Patterns in Iran", Quarterly Journal of Geographic Research, Serial No. 45, (persian).
    7.
  7. Zare Abyaneh, H., Bayat Workishi, M., Sabzi-e Parvar, A., Zarafi, P., Qasemi, A. (2010). "Evaluation of Different Methods for Estimating the Convergence and Reproduction of Reference Plants in Iran", Natural Geographic Researches, No. 74, pp. 95-109, (persian).
    8.
  8. Sohrabi, R. A., Sohrabi, H. And Arab, d. R., (1387). "The study of drought monitoring indicators from the evolutionary landscape, nature and performance, and suggesting the process of selecting the index appropriate to the conditions of the regions." Proceedings of Third Conference on Water Resources Management, Faculty of Civil Engineering, Tabriz, Iran, (persian).
    9.
  9. Obasi, G. O. P. (1994). WMO's role in the international decade for natural disaster reduction. Bulletin of the American Meteorological Society, 75(9), 1655-1661.
    10.
  10. Bruce, J. P. (1994). Natural disaster reduction and global change. Bulletin of the American Meteorological Society, 75(10), 1831-1835.
    11.
  11. Wilhite, D. A. (2000). Drought as a natural hazard: concepts and definitions.
    12.
  12. Austin, R. B., Cantero-Martınez, C., Arrúe, J. L., Playán, E., & Cano-Marcellán, P. (1998). Yield–rainfall relationships in cereal cropping systems in the Ebro river valley of Spain. European Journal of Agronomy, 8(3), 239-248.
    13.
  13. Leilah, A. A., & Al-Khateeb, S. A. (2005). Statistical analysis of wheat yield under drought conditions. Journal of Arid environments, 61(3), 483-496.
    14.
  14. DeGaetano, A. T. (1999). A temporal comparison of drought impacts and responses in the New York city metropolitan area. Climatic Change, 42(3), 539-560.
    15.
  15. Nicholson, S. E., Tucker, C. J., & Ba, M. B. (1998). Desertification, drought, and surface vegitation: An example from the West African Sahel. Bulletin of the American Meteorological Society, 79(5), 815.
    16.
  16. Khorshid Dost, A.M., Ghavidel Rahimi, Y. (2004). "Study of precipitation fluctuations, prediction and determination of wet and dry seasons in East Azarbaijan Province", Journal of Geographical Research, Spring 2004, No. 72, pp. 25-36, (persian).
    17.
  17. Courts of Suc, M. And Honorable, A., (1391). "Designing the process of selecting the appropriate index based on the assessment of meteorological drought indices in a number of dry and semi-arid regions of Iran". Journal of Soil and Water Sciences and Agriculture. Vol. 26, No. 2, p. 414-426 (persian).
    18.
  18. Karimi, Habibnejad Roshan, M., Abkar, A., (2010). "Evaluation of Meteorological Drought Indices in Mazandaran Synoptic Stations", Journal of Irrigation and Water Engineering, (persian).
    19.
  19. Ensafe Moghaddam, T., (2007). "Evaluation of Several Climate Drought Indicators and Determining the Most Appropriate Indicator in the Salt Lake Basin", Journal of Research in Rangeland and Desert of Iran, Vol. 14, No. 2, pp. 288-271, (persian).
    20.
  20. Mashari Eshghabad, S., Omidvar, E., & Solaimani, K. (2014). Efficiency of Some Meteorological Drought Indices in Different Time Scales (Case Study: Tajan Basin, Iran). ECOPERSIA, 2(1), 441-453.
    21.
  21. Quiring, S. M., and Papakryiakou, T. N. (2003). "An evaluation of agricultural drought indices for the Canadian    prairies" Journal of Agricultural and Forest Meteorology, 118 ,1-2, 49-62.
    22.
  22. Steinmann, A. (2003). "Drought indicators and triggers: A stochastic approach to evaluation" Journal of the American Water Resources Association (JAWRA). 39, 5, 1217-1233.
    23.
  23. Fal Soleiman, M. (1993). "Drought and semi-arid areas, based on water resources constraints", Case study of Birjand Basin, Master thesis, Ferdowsi University of Mashhad.
    24.
  24. Khosravi M., Akbari M., (2009). "Investigating the Drought Characteristics of South Khorasan Province", Geography and Development, No. 14.
    25.
  25. Willeke, G. E., Guttman, N. B., Hosking, J. R. M., & Wallis, J. R. (1994). National drought atlas developed. Eos, Transactions American Geophysical Union, 75(8), 89-90.
    26.
  26. Khalighi Sigarodi, Sh., (2009). "Investigating the Evaluation of Drought and Dirty Diseases in a Case Study of Mazandaran Province", Journal of Rangeland and Desert Research, Volume 16, Number 1, (persian).
    27.
  27. Heim and Kotyl, (1995). "Drought and Wetness Analysis and Prediction of Climate Change in Birjand Region Using Statistical Model", (persian).
    28.
  28. Khalili, AS Sowing, J., (1382). "Evaluation of the Efficiency of Multi-Drought Meteorological Indexes in Different Climatic Species of Iran", Scientific and Technical Journal of Nivar, Nos. 48 and 49, Spring and Summer, p. 93-79, (persian).
    29.
  29. Elder, H., Rahdari, and., Maleki, S., (2012). "Study and comparison of the efficiency of four meteorological drought indexes in drought risk management in Sistan & Balouchestan province", Journal of Irrigation and Water Engineering, No 11, Spring 2013, (persian).
    30.
  30. MARD, Report of drought mitigation on Vietnam Southern Central, Central Highland and Eastern South Regions under El Nino phenomenon (in Vietnamese), 2016.
    31.

 

_||_

Reference

  1. Morid, S., Smakhtin, V. and Moghadasi, M. (2006). "Comparison of seven meteorological indices for drought monitoring in Iran" International journal of climatology, 26, 971-985.
    2.
  2. Michelle and Stormman (2003). "Drought Monitoring Using Several Highly Used Indices and Estimating the Best Indicator", Case Study of Abadan City (persian).
    3.
  3. Forestry, Rangeland and Watershed Management Organization (2004). National Action Plan for Desertification and Reducing the Drought Effects of the Islamic Republic of Iran, Puneh, Tehran, p. 7, (persian).
    4.
  4. Siof, (1385). "Climate change and drought", Hormozgan University, (persian).
    5.
  5. Umran Komuscu, A. (1999). Using the SPI to analyze spatial and temporal patterns of drought in Turkey. Drought Network News (1994-2001), 49.
    6.
  6. Good Faith, F (1376). "Investigation of Temporary Drought and Threats Patterns in Iran", Quarterly Journal of Geographic Research, Serial No. 45, (persian).
    7.
  7. Zare Abyaneh, H., Bayat Workishi, M., Sabzi-e Parvar, A., Zarafi, P., Qasemi, A. (2010). "Evaluation of Different Methods for Estimating the Convergence and Reproduction of Reference Plants in Iran", Natural Geographic Researches, No. 74, pp. 95-109, (persian).
    8.
  8. Sohrabi, R. A., Sohrabi, H. And Arab, d. R., (1387). "The study of drought monitoring indicators from the evolutionary landscape, nature and performance, and suggesting the process of selecting the index appropriate to the conditions of the regions." Proceedings of Third Conference on Water Resources Management, Faculty of Civil Engineering, Tabriz, Iran, (persian).
    9.
  9. Obasi, G. O. P. (1994). WMO's role in the international decade for natural disaster reduction. Bulletin of the American Meteorological Society, 75(9), 1655-1661.
    10.
  10. Bruce, J. P. (1994). Natural disaster reduction and global change. Bulletin of the American Meteorological Society, 75(10), 1831-1835.
    11.
  11. Wilhite, D. A. (2000). Drought as a natural hazard: concepts and definitions.
    12.
  12. Austin, R. B., Cantero-Martınez, C., Arrúe, J. L., Playán, E., & Cano-Marcellán, P. (1998). Yield–rainfall relationships in cereal cropping systems in the Ebro river valley of Spain. European Journal of Agronomy, 8(3), 239-248.
    13.
  13. Leilah, A. A., & Al-Khateeb, S. A. (2005). Statistical analysis of wheat yield under drought conditions. Journal of Arid environments, 61(3), 483-496.
    14.
  14. DeGaetano, A. T. (1999). A temporal comparison of drought impacts and responses in the New York city metropolitan area. Climatic Change, 42(3), 539-560.
    15.
  15. Nicholson, S. E., Tucker, C. J., & Ba, M. B. (1998). Desertification, drought, and surface vegitation: An example from the West African Sahel. Bulletin of the American Meteorological Society, 79(5), 815.
    16.
  16. Khorshid Dost, A.M., Ghavidel Rahimi, Y. (2004). "Study of precipitation fluctuations, prediction and determination of wet and dry seasons in East Azarbaijan Province", Journal of Geographical Research, Spring 2004, No. 72, pp. 25-36, (persian).
    17.
  17. Courts of Suc, M. And Honorable, A., (1391). "Designing the process of selecting the appropriate index based on the assessment of meteorological drought indices in a number of dry and semi-arid regions of Iran". Journal of Soil and Water Sciences and Agriculture. Vol. 26, No. 2, p. 414-426 (persian).
    18.
  18. Karimi, Habibnejad Roshan, M., Abkar, A., (2010). "Evaluation of Meteorological Drought Indices in Mazandaran Synoptic Stations", Journal of Irrigation and Water Engineering, (persian).
    19.
  19. Ensafe Moghaddam, T., (2007). "Evaluation of Several Climate Drought Indicators and Determining the Most Appropriate Indicator in the Salt Lake Basin", Journal of Research in Rangeland and Desert of Iran, Vol. 14, No. 2, pp. 288-271, (persian).
    20.
  20. Mashari Eshghabad, S., Omidvar, E., & Solaimani, K. (2014). Efficiency of Some Meteorological Drought Indices in Different Time Scales (Case Study: Tajan Basin, Iran). ECOPERSIA, 2(1), 441-453.
    21.
  21. Quiring, S. M., and Papakryiakou, T. N. (2003). "An evaluation of agricultural drought indices for the Canadian    prairies" Journal of Agricultural and Forest Meteorology, 118 ,1-2, 49-62.
    22.
  22. Steinmann, A. (2003). "Drought indicators and triggers: A stochastic approach to evaluation" Journal of the American Water Resources Association (JAWRA). 39, 5, 1217-1233.
    23.
  23. Fal Soleiman, M. (1993). "Drought and semi-arid areas, based on water resources constraints", Case study of Birjand Basin, Master thesis, Ferdowsi University of Mashhad.
    24.
  24. Khosravi M., Akbari M., (2009). "Investigating the Drought Characteristics of South Khorasan Province", Geography and Development, No. 14.
    25.
  25. Willeke, G. E., Guttman, N. B., Hosking, J. R. M., & Wallis, J. R. (1994). National drought atlas developed. Eos, Transactions American Geophysical Union, 75(8), 89-90.
    26.
  26. Khalighi Sigarodi, Sh., (2009). "Investigating the Evaluation of Drought and Dirty Diseases in a Case Study of Mazandaran Province", Journal of Rangeland and Desert Research, Volume 16, Number 1, (persian).
    27.
  27. Heim and Kotyl, (1995). "Drought and Wetness Analysis and Prediction of Climate Change in Birjand Region Using Statistical Model", (persian).
    28.
  28. Khalili, AS Sowing, J., (1382). "Evaluation of the Efficiency of Multi-Drought Meteorological Indexes in Different Climatic Species of Iran", Scientific and Technical Journal of Nivar, Nos. 48 and 49, Spring and Summer, p. 93-79, (persian).
    29.
  29. Elder, H., Rahdari, and., Maleki, S., (2012). "Study and comparison of the efficiency of four meteorological drought indexes in drought risk management in Sistan & Balouchestan province", Journal of Irrigation and Water Engineering, No 11, Spring 2013, (persian).
    30.
  30. MARD, Report of drought mitigation on Vietnam Southern Central, Central Highland and Eastern South Regions under El Nino phenomenon (in Vietnamese), 2016.
    31.

 

Sanad

Sanad is a platform for managing Azad University publications

Links

Related Centers

Technical Support

Official pages

The rights to this website are owned by the Raimag Press Management System.
Copyright © 2021-2024

Home| Login| About Us| Contact Us|
[فارسی] [العربية] [fa] [ar]