Vascular plants and biocrusts ameliorate soil properties serving to increase the stability of the Great Wall of China

Author:
Liu Y., Ren J., Wang W., Shi Y., Gao Y., Zhan H., Luo Y. & Jia R.
Year:
2024
Journal:
Science of the Total Environment
Pages:
951: 175506 [12 p.]
Url:
https://doi.org/10.1016/j.scitotenv.2024.175506
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• Vascular plants and biocrusts exhibit high species diversity and resilience to harsh conditions on the Great Wall. • Vascular plants and biocrusts promote the stability of aggregates by facilitating the accumulation of SOC, Feo and Alo. • Vascular plants and biocrusts represent an effective nature-based method for protecting the Great Wall from erosion. erosion from wind and rain. Vascular plants and biocrusts are the main coverings of the Great Wall, and their role in mitigating soil erosion has attracted increased amounts of attention; however, the understanding of their underlying mechanisms is limited. Here, we conducted an extensive survey of vascular plants, biocrusts, soil properties (soil organic and inorganic binding materials, aggregates, and texture), soil aggregate stability, and soil erodibility at the top of the Great Wall in four different defensive zones in Northwest China. Vascular plants covered 13.6 % to 63.9 % of the tops of the Great Wall, and their rich diversity was mainly derived from perennial herbs. Moss, lichen, and cyanobacterial crusts collectively covered 36.3 % to 67.8 % of the top of the Great Wall. Redundancy analysis and structural equation modeling revealed that the synergistic effects of vascular plants and biocrusts enhanced soil aggregation stability (including geometric mean diameter, GMD; water-stable macroaggregate content, R) by increasing the accumulation of soil organic carbon (SOC), amorphous iron oxide (Feo), and amorphous alumina (Alo) and promoting the formation of macroaggregates (ASD>0.25 mm) and microaggregates (ASD0.053-0.25 mm). Furthermore, soil erodibility was primarily influenced negatively by the synergistic promotion of SOC accumulation by vascular plants and biocrusts and positively by the reduction in soil sand (PSD>0.05 mm) content by biocrusts. Our work highlights the mechanisms and importance of vascular plants and biocrusts as natural covers for altering the intrinsic properties of soil for the protection of the Great Wall. These findings provide reliable theoretical support for the protection of the Great Wall from erosion by vascular plants and biocrusts and offer new insights for the conservation of global earthen sites and similar wall habitats. Keywords: Soil aggregate stability; Soil mechanical composition; Soil erodibility factors; Soil organic carbon; Iron‑aluminum oxides.
Id:
36747
Submitter:
zpalice
Post_time:
Thursday, 12 September 2024 10:28