Applying the Empirical Orthogonal Function (EOF) in Analyzing Precipitation Data

Document Type : Original Article

Author

Assistant Professor, Department of Water Science and Engineering, Faculty of Engineering, Sanandaj Branch, Islamic Azad University, Sanandaj, Iran.

Abstract

Climate change in the past decade had serious impacts on food security and livelihoods in different parts of the world. EOF is one of the important methods for studying rainfall patterns in an area. The main objectives of the paper were to determine the best weight coefficients and frequency functions, determine homogeneous regions, model seasonal time series, and find the Severity-Area- Frequency (SAF), Duration-Area-Frequency (DAF), and Meteorological Drought Curves in three basins of Karun, Dez and Karkheh. In order to achieve the above objectives, 69 (Ministry of Energy’s) weather stations were selected in the research basins. After qualitative control, test and reconstruction of data, frequency functions and four weight factors (EOF) were obtained. Then, with the homogenization of the rainfall zone, the 291 cells in the ArcGIS9.3 environments were examined by ordinary kriging interpolation method. The results of the interpolation for first to forth weight functions (EOF) showed that the spherical semi covariogram with second degree of polonomial trend and unisotropy, the Gaussian no-trend with isotropy, the Gaussian with second degree of trend, and the spherical with second degree of trend and no-isotropy have the best distribution respectively. The homogenization of the region showed that the minimum average monthly precipitation in southern parts of Khuzestan Province and some eastern parts of Charmahal-o-Bakhtiari Province was 14.5-24.3 mm and maximum average monthly precipitation in northern parts of Khuzestan Province and south of Lorestan Province was 65.3-80.4 mm. Using the ARMA Stochastic Modeling Method with the SAMS program for each cell for 4 time series of frequency functions (PC), 12.000 rainfall data were obtained and then analysis of droughts was conducted. The results showed that the Gamma and Log-Normal statistical distribution for the return periods of 5, 10, 50, 100 and 200 years were the best fit for the series of relative shortages and drought persistence, respectively.

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References

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Iran-Water Resources Research
Volume 17, Issue 2 - Serial Number 57
September 2021
Pages 31-48

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History

  • Receive Date: 24 January 2018
  • Revise Date: 12 June 2021
  • Accept Date: 05 July 2021

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