Application of smart technologies for predicting soil erosion patterns.

Journal: Scientific reports
Published Date: Jul 21, 2025

Abstract

Soil is a critical natural resource, and accurate erosion susceptibility assessment is vital for the optimal management and development of soil resources. Erosion susceptibility assessment is necessary for long-term conservation plans, but the process can be expensive and time-consuming over large areas. It is imperative to examine the impact of water-induced erosion on cultivated lands, as it can cause significant damage. This study evaluates the effectiveness of four data-driven approaches (biogeography-based optimization, earthworm optimization algorithm, symbiotic organisms search, and whale optimization algorithm) combined with artificial neural network models for the assessment of erosion susceptibility. The examined criteria include 14 geographic and environmental criteria, and the data used in a ratio of 70 to 30 for training and testing operations. And its results were measured by AUC values. The evaluation of AUC accuracy indices revealed compelling results. Specifically, in the case of SOS-MLP, the highest AUC values were observed, reaching 0.9973 for test data and 0.9296 for train data. Conversely, for WOA-MLP, the AUC values obtained were slightly lower but still notable, registering at 0.9809 for test data and 0.959 for train data. These values were also calculated for BBO-MLP (0.999 and 0.9327) and EWA-MLP (0.9304 and 0.9296) in the training and testing phases, respectively. Results showed that all four methods could successfully evaluate erosion susceptibility according to AUC values greater than 0.92, especially the BBO-MLP with the highest AUC values. Therefore, the findings of this study have shown that the combined optimization algorithms and Machine Learning used in this research have a suitable ability to optimize the artificial neural network and are very useful for identifying areas sensitive to erosion.

Authors

  • Rana Muhammad Adnan Ikram
    Water Science and Environmental Research Centre, College of Chemistry and Environmental Engineering, Shenzhen University, Shenzhen, 518060, China.
  • Mo Wang
    Doheny Eye Institute, Los Angeles, CA, 90033, USA.
  • Hossein Moayedi
    Department of Energy Resources Engineering, Universiti Teknologi Malaysia, Johor Bahru, Malaysia.
  • Atefeh Ahmadi Dehrashid
    Faculty of Natural Resources, Department of Climatology, University of Kurdistan, Sanandaj, Iran. atefeh.ahmadi@uok.ac.ir.
  • Shiva Gharibi
    Faculty of Natural Resources, Department of Environment, University of Kurdistan, Sanandaj, Iran. Shiva.Gharibi@uok.ac.ir.
  • Jing-Cheng Han
    WaterScience and Environmental Research Centre, College of Chemistry and Environmental Engineering, Shenzhen University, Shenzhen, 518060, China.

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