Tellus: Series A, Dynamic Meteorology and Oceanography (Jan 2020)

A novel spatially weighted accumulative procedure for regional drought monitoring

  • Rizwan Niaz,
  • Ijaz Hussain,
  • Zulfiqar Ali,
  • Muhammad Faisal,
  • Elsayed Elsherbini Elashkar,
  • Alaa Mohamd Shoukry,
  • Showkat Gani,
  • Fares Fawzi Al-Deek

DOI
https://doi.org/10.1080/16000870.2020.1838194
Journal volume & issue
Vol. 72, no. 1
pp. 1 – 13

Abstract

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A variety of drought monitoring tools are being used for early warning systems and formulating drought mitigation policies. Standardized Drought Indices (SDI) are the most commonly used. However, the use of SDI at multiple stations located in a homogenous climatic region with internally similar characteristics and contagious in space arises several problems due to spatial and temporal behaviour in data preliminaries. Therefore, a comprehensive procedure is required to accumulate information coming from multiple stations. In this paper, we proposed a new procedure for regional drought monitoring: the Spatially Weighted Accumulated Drought Index (SWADI). The potential of the proposed procedure is based on steady-state probabilities, which were used as a weighting scheme for the prospective of accumulating information from different stations. We employed the proposed procedure on six meteorological stations of the Northern areas of Pakistan. The performance of the proposed procedure is observed based on three commonly used drought indices at a one-month time scale. This research provides a basis for the development and enhancement of drought hazards' characterization, motivates researchers and policymakers to use the accurate and more representative temporal characterization of drought hazard in a specific homogenous climatic region.

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