Remote Sensing (Mar 2022)

Soil Salinity Detection and Mapping in an Environment under Water Stress between 1984 and 2018 (Case of the Largest Oasis in Africa-Morocco)

  • Abdellatif Rafik,
  • Hassan Ibouh,
  • Abdelhafid El Alaoui El Fels,
  • Lhou Eddahby,
  • Daoud Mezzane,
  • Mohamed Bousfoul,
  • Abdelhakim Amazirh,
  • Salah Ouhamdouch,
  • Mohammed Bahir,
  • Abdelali Gourfi,
  • Driss Dhiba,
  • Abdelghani Chehbouni

DOI
https://doi.org/10.3390/rs14071606
Journal volume & issue
Vol. 14, no. 7
p. 1606

Abstract

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Water stress is one of the factors controlling agricultural land salinization and is also a major problem worldwide. According to FAO and the most recent estimates, it already affects more than 400 million hectares. The Tafilalet plain in Southeastern Morocco suffers from soil salinization. In this regard, the GIS tools and remote sensing were used in the processing of 19 satellite images acquired from Landsat 4–5, (Landsat 7), (Landsat 8), and (Sentinel 2) sensors. The most used indices in the literature were (16 indices) tested and correlated with the results obtained from 25 samples taken from the first soil horizon at a constant depth of 0.20 m from the 2018 campaign. The linear model, at first, allows the selection of five better indices of the soil salinity discrimination (SI-Khan, VSSI, BI, S3, and SI-Dehni). These last indices were the subject of the application of a logarithmic model and polynomial models of degree two and four to increase the prediction of saline soil.. After studies and analysis, we concluded that the second-degree polynomial model of the salinity index (SI-KHAN) is the most efficient one for detecting and mapping soil salinity in the Tafilalet oasis, with a coefficient of determination (R2) and the Nash–Sutcliffe efficiency (NSE) equal to 0.93 and 0.86, respectively. Percent bias (PBIAS) calculated for this model equal was 1.868% 2, respectively, while a decrease of about 50% is observed during the periods of 1996–2000 and 2005–2018.

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