Frontiers in Environmental Science (Aug 2024)

Soil compounding promotes the improvement of aeolian sandy soil in the Mu Us Sandy Land

  • Shichao Chen,
  • Shichao Chen,
  • Xue Chen,
  • Xue Chen,
  • Hejun Zuo,
  • Hejun Zuo,
  • Min Yan,
  • Min Yan,
  • Haibing Wang,
  • Haibing Wang,
  • Xiaole Li,
  • Xiaole Li

DOI
https://doi.org/10.3389/fenvs.2024.1435618
Journal volume & issue
Vol. 12

Abstract

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Aeolian sandy soil and loess soil of the Mu Us Sandy Land are used as the research material in this study to investigate the effect of soil compounding on the improvement of aeolian sandy soil and to provide a feasible approach for sand prevention and sand control. In particular, loess soils were compounded at 0%, 20%, 40%, 60%, 80%, and 100% by volume percentage of the compounded soils. The improvement benefits of compounded soils on their textural properties, water-holding capacity, and fertilizer-retention capacity at different blending ratios were evaluated. The results showed that following the compounding of aeolian sandy and loess soils, with the increase of the loess proportion, the texture type of the compounded soil transforms from sandy soil to loamy sandy soil to sandy loam to loamy soil to powdery loam. Moreover, granular gradation was observed, the bulk density gradually decreased, the capillary porosity gradually increased, and the performance of water- and fertilizer-holding properties gradually increased and strengthened. The spatial variability of compounded soil bulk density, capillary porosity, and the water-holding and fertilizer-retention properties was almost entirely controlled by the proportion of loess soil. A theoretical basis is provided in this study for aeolian sandy soil improvement in the Mu Us Sandy Land that can be extended to similar areas, providing a feasible sand management approach.

Keywords