Abstract
Modelling land degradation vulnerability (LDV) in the newly-reclaimed desert oases is a key factor for sustainable agricultural production. In the present work, a trial for using remote sensing data, GIS tools, and Analytic Hierarchy Process (AHP) was conducted for modeling and evaluating LDV. The model was then applied within 144,566 ha in Farafra, an inland hyper-arid Western Desert Oases in Egypt. Data collected from climate conditions, geological maps, remote sensing imageries, field observations, and laboratory analyses were conducted and subjected to AHP to develop six indices. They included geology index (GI), topographic quality index (TQI), physical soil quality index (PSQI), chemical soil quality index (CSQI), wind erosion quality index (WEQI), and vegetation quality index (VQI). Weights derived from the AHP showed that the effective drivers of LDV in the studied area were as follows: CSQI (0.30) > PSQI (0.29) > VQI (0.17) > TQI (0.12) > GI (0.07) > WEQI (0.05). The LDV map indicated that nearly 85% of the total area was prone to moderate degradation risks, 11% was prone to high risks, while less than 1% was prone to low risks. The consistency ratio (CR) for all studied parameters and indices were less than 0.1, demonstrating the high accuracy of the AHP. The results of the cross-validation demonstrated that the performance of ordinary kriging models (spherical, exponential, and Gaussian) was suitable and reliable for predicting and mapping soil properties. Integrated use of remote sensing data, GIS, and AHP would provide an effective methodology for predicting LDV in desert oases, by which proper management strategies could be adopted to achieve sustainable food security.
Highlights
The new atlas of desertification [1] defined dryland as regions where the aridity index is lower than 0.65, including hyper-arid, arid, semi-arid, and sub-humid regions
The model based on the integration of data collected from climate conditions, geological maps, remote sensing imageries, field observations and laboratory analyses with
Analytic Hierarchy Process (AHP) is to be used under geographic information system (GIS) environment
Summary
The new atlas of desertification [1] defined dryland as regions where the aridity index (the ratio between the total annual precipitation to the annual potential evapotranspiration) is lower than 0.65, including hyper-arid, arid, semi-arid, and sub-humid regions. A desert oasis is a promising area for establishing new communities and economic development [4]. It is an efficient eco-geographical landscape, which allows flourishing vegetation or human settlement owing to a stable water supply [5,6]. Farafra Oasis was included in the New Valley project in the 1960s aiming at exploiting the groundwater of the Nubian Sandstone aquifer (NSA) [9] This oasis is characterized by the presence of a large quantity of groundwater with good quality, many of which appear on the surface of the earth in the wintertime, and resulted in many farmlands on flat areas [10]
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