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Dual effects of vegetation restoration models and soil depth on the soil microbial residue carbon accumulation in a red soil erosion area of southern China
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  • qi chang,
  • Shengsheng Xiao,
  • Fangchao Wang,
  • Hongguang Liu,
  • Haijin Zheng,
  • Yunhua Liao,
  • Fusheng Chen,
  • G. Geoff Wang
qi chang
Jiangxi Academy of Water Science and Engineering
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Shengsheng Xiao
Jiangxi Academy of Water Science and Engineering

Corresponding Author:[email protected]

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Fangchao Wang
Jiangxi Agricultural University College of Forestry/School of Landscape and Art
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Hongguang Liu
Jiangxi Academy of Water Science and Engineering
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Haijin Zheng
Jiangxi Academy of Water Science and Engineering
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Yunhua Liao
Jiangxi Agricultural University
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Fusheng Chen
Jiangxi Agricultural University College of Forestry/School of Landscape and Art
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G. Geoff Wang
Clemson University College of Agriculture Forestry and Life Sciences
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Abstract

Microbial residue carbon (MRC) is an important source of soil organic carbon (SOC) formation and plays a vital role in the accumulation and retention of SOC. Vegetation restoration is an effective strategy to restore degraded lands. However, there are no studies on how MRC in the profile changes with vegetation restoration. We evaluated MRC (using amino sugars) accumulation and its contribution to SOC in different soil depths (0-20, 20-50, and 50-100 cm) during vegetation restoration in a severely eroded forest (CK), a restored forest (as ecological restoration management), an orchard (as development management model), and a secondary forest (as ideal control). Microbial biomarkers were extracted from soil profiles and used to measure microbial diversity and microbial community composition (using 16S rRNA). Vegetation restoration, soil depth, and their interaction with each other significantly affected MRC, fungal residue carbon (FRC), and bacterial residue carbon (BRC) contents. The MRC content showed an increasing trend for the four vegetation restoration models in the following order: CK < orchard < restored forest < secondary forest. Furthermore, the contribution of MRC to SOC increased with the increasing soil depth for the restored forest. The rapid accumulation of MRC was substantially influenced by SOC, total nitrogen content, soil pH, bacterial and fungal diversity, bacterial phylum, and fungal phylum. In conclusion, the model of vegetation restoration and soil depth play important roles in the accumulation of soil microbial residue carbon in a red soil erosion area. These findings are pivotal for improving our mechanistic understanding of microbial regulation of SOC preservation during vegetation restoration of a degraded ecosystem.
15 Aug 2024Submitted to Land Degradation & Development
15 Aug 2024Submission Checks Completed
15 Aug 2024Assigned to Editor
05 Oct 2024Review(s) Completed, Editorial Evaluation Pending
06 Oct 2024Reviewer(s) Assigned
03 Nov 2024Editorial Decision: Revise Major