Eco-Mechanical Optimization of Composite-Amended Sandy Substrate for Alhagi sparsifolia in Arid Regions
Meixue Zhang, Qinglin Li, Xiaofei Yang, Penghu Feng, Wenjuan Chen, Guang Yang

TL;DR
This study optimizes a composite soil amendment to improve plant growth and slope stability in arid sandy regions using Alhagi sparsifolia.
Contribution
A novel composite-amended sandy substrate is proposed to enhance plant adaptation and ecological restoration in arid bank slopes.
Findings
A composite with 0.5% CMC, 1.0% SF, and 5.0% FA improved root development and plant adaptation in sandy soils.
The optimized substrate reduced slope disturbance risks while maintaining sand-fixing root functions.
Plants regulated aboveground growth to balance resource acquisition and environmental constraints.
Abstract
In response to the problems of loose soil structure and insufficient water and nutrient retention capacity of sandy bank slopes in arid regions, which constrain vegetation establishment and long-term slope stability, this study focuses on typical sandy soils in arid northwestern China. The desert plant Alhagi sparsifolia, characterized by clonal root sucker reproduction, was selected as the study species to construct and optimize a composite-amended sandy substrate suitable for ecological restoration of bank slopes. Based on an orthogonal experimental design, carboxymethyl cellulose sodium (CMC), straw fibers (SF), and fly ash (FA) were combined at different proportions to assess (i) the vertical distribution of soil water and nutrients in the A. sparsifolia growth habitat, (ii) aggregate structure, (iii) plant trait responses to environmental regulation, and (iv) the shear strength of…
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Taxonomy
TopicsTree Root and Stability Studies · Biocrusts and Microbial Ecology · Soil Carbon and Nitrogen Dynamics
