Abstract
The impact of reforestation on soil organic carbon (OC), especially in deep layer, is poorly understood and deep soil OC stabilization in relation with aggregation and vegetation type in afforested area is unknown. Here, we collected topsoil (0–15 cm) and deep soil (30–45 cm) from six paired coniferous forests (CF) and broad-leaved forests (BF) reforested in the early 1990s in subtropical China. Soil aggregates were separated by size by dry sieving and OC stability was measured by closed-jar alkali-absorption in 71 incubation days. Soil OC concentration and mean weight diameter were higher in BF than CF. The cumulative carbon mineralization (Cmin, mg CO2-C kg-1 soil) varied with aggregate size in BF and CF topsoils, and in deep soil, it was higher in larger aggregates than in smaller aggregates in BF, but not CF. The percentage of soil OC mineralized (SOCmin, % SOC) was in general higher in larger aggregates than in smaller aggregates. Meanwhile, SOCmin was greater in CF than in BF at topsoil and deep soil aggregates. In comparison to topsoil, deep soil aggregates generally exhibited a lower Cmin, and higher SOCmin. Total nitrogen (N) and the ratio of carbon to phosphorus (C/P) were generally higher in BF than in CF in topsoil and deep soil aggregates, while the same trend of N/P was only found in deep soil aggregates. Moreover, the SOCmin negatively correlated with OC, total N, C/P and N/P. This work suggests that reforested vegetation type might play an important role in soil OC storage through internal nutrient cycling. Soil depth and aggregate size influenced OC stability, and deep soil OC stability could be altered by vegetation reforested about 20 years.
Highlights
Forest stores more than 80% of aboveground and up to 70% of belowground terrestrial carbon [1]
The organic carbon (OC) concentration, total N and carbon to phosphorus (C/P) were higher in broad-leaved forests (BF) than in coniferous forests (CF), and decreased with increasing soil depths in both forests
Soil OC concentration and storage were higher in BF than in CF at topsoil and deep soil
Summary
Forest stores more than 80% of aboveground and up to 70% of belowground terrestrial carbon [1]. Reforestation or afforestation has the potential to contribute to C storage directly through living biomass and soil organic carbon (OC) accumulation [2,3] and indirectly as an alternative. Silver et al [6] reported that the aboveground biomass and soil OC increased the first 100 years after reforestation and soil OC accumulated at faster rates during the first 20 years (1.3 Mg C ha-1 yr-1) and at a rate of 0.41 Mg ha-1 yr-1 over a 100-year period in tropical area. In order to maximize the potential for carbon sequestration, the factors influencing soil OC in plantation require further analysis. Assessing the contribution of reforestation to soil OC is complicated by the influence of additional factors such as tree species, climate conditions, soil properties and exogenous disturbances [4,5,9]. The impact of reforestation on soil OC has previously been investigated in situ and in laboratories [10], the mechanisms by how soil OC is influenced by reforestation is not fully understood [11]
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