Litcius/Paper detail

Behavior of soil aggregates in reclaimed farmland with different restoration durations: Mediating factors and mechanisms

Zhaoxinyu Liu, Junying Li, Lina Gao, Xinju Li, Wen Song, Luofan Li, Yulong Zang, G.L. Zhang

2024Geoderma16 citationsDOIOpen Access PDF

Abstract

• Compaction disrupts RMS aggregates, causing SOC loss and reduced microbial activity. • Re-cultivation enhances the proportion and stability of macroaggregates in RMS. • Inorganic minerals are vital for RMS aggregation and OC storage in early reclamation. • As RMS matures, restored POC and microbes gradually dominate RMS aggregation. • Promoting RMS aggregation by soil improvement is crucial for RMS system restoration. The recovery of soil aggregates is crucial for improving soil quality in highly compacted reclaimed farmlands in coal mining subsidence areas. This study aimed to explore the key factors and mechanisms affecting aggregate recovery in reclaimed mine soil (RMS). Surface soil samples (0 ∼ 20 cm) were collected from reclaimed farmlands with varying reclamation durations (0, 2, 6, 12, 16, and 22 years) and adjacent non-subsidence cultivated soil (NCS). A total of 20 soil indicators were analyzed. Complex network theory was then applied to explore their interrelationships and identify critical factors influencing aggregate distribution. The results showed that mechanical compaction during geomorphic reshaping disrupted macroaggregates, reduced aggregate stability, accelerated organic carbon mineralization, and diminished microbial activity. This also resulted in increased complexity and disorder of soil property interactions. After 22 years of reclamation, the proportion of 2 ∼ 0.25 mm aggregates increased by 25.92 %, while 0.25 ∼ 0.053 mm aggregates decreased by 40.93 %. The mean weight diameter and geometric mean diameter increased by 34.48 % and 69.54 %, respectively. Soil organic carbon (SOC) increased by 250.94 %, and microbial biomass by 123.07 %. However, RMS still exhibited differences in aggregate distribution, stability, SOC accumulation, and system functionality compared with the NCS. Soil aggregates, particularly macroaggregates, served as mediators within the RMS system. In the early stages of reclamation, inorganic cementing agents were crucial for maintaining RMS aggregation and SOC sequestration. Over time, particulate organic carbon and microbial activity became dominant in aggregate formation. Iron-aluminum oxides, particularly amorphous forms, facilitated macroaggregate formation and SOC stabilization.

Topics & Concepts

Land reclamationEnvironmental scienceAgroforestryGeographyArchaeologySoil Carbon and Nitrogen DynamicsSoil erosion and sediment transportSoil Management and Crop Yield
Behavior of soil aggregates in reclaimed farmland with different restoration durations: Mediating factors and mechanisms | Litcius