Abstract
With the increase in setting years in deserts, Salix psammophila sand barriers with different degrees of lodging damage caused by decay are losing wind-prevention and sand-fixation properties. In this study, we focus on the change in chemical properties of soils, and physical and mechanical properties of plants along different setting years; meanwhile, the change in fungal communities has been analyzed using high-throughput sequencing technology. The results show that a change in physical and mechanical properties and the loss of primary chemical components led to the degradation of the protective properties of the barrier to different degrees. After five years of setting, the physical parameters of basic density and shrinkage rate decreased by 44.04% and 28.68%, respectively, and the loss of the modulus of rupture mechanical index declined by 62.72%. After seven years of setting, the mechanical indexes of the modulus of rupture decreased by 76.95%. Five and seven years represented important inflection points in the decay process. Sordariomycetes (53.75%) and Eurotiomycetes (19.78%) were the main fungal groups present during the decay of the sand barrier. The basic density, moisture content, cellulose, and lignin of the sand barrier were the main driving factors affecting the distribution of fungal communities. The mechanism on fungal community to the decay of sand barriers still needs further studies to keep the function of sand barriers in fragile desert ecosystems.
Highlights
Published: 7 July 2021The use of shrub branches as sand barriers to prevent sand damage, control desertification, and improve the fragile ecological environment of desert ecosystems has become an increasingly relevant field of research [1]
The physical and mechanical properties of the S. psammophila sand barriers degenerated to varying degrees, and the main chemical components were lost
After five years of setting, the physical parameters of basic density and shrinkage rate decreased by 44.04% and 28.68%, respectively, while the loss of the modulus of rupture (MOR) mechanical index was 62.72%
Summary
The use of shrub branches as sand barriers to prevent sand damage, control desertification, and improve the fragile ecological environment of desert ecosystems has become an increasingly relevant field of research [1]. Yang) is a typical desert shrub with drought-resistant characteristics and strong growth capacity that can withstand wind erosion, sand burial, and other harsh environmental conditions. It is mainly distributed in mobile and semi-mobile dunes as well as interdune lowlands in northwest China [2,3]. As the duration from the setting of S. psammophila sand barriers increases, the sand barriers experience significant impacts from natural factors, such as changes in the temperature and humidity of the environment, microbial erosion, and so forth.
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