Source and Accumulation of Soil Carbon along Catena Toposequences over 12,000 Years in Three Semi-Natural Miscanthus sinensis Grasslands in Japan

Miscanthus-dominated semi-natural grasslands in Japan appear to store considerable amounts of soil C. To estimate the long-term effect of Miscanthus vegetation on the accumulation of soil carbon by soil biota degradation in its native range, we measured total soil C from the surface to a 1.2 m depth along a catena toposequence in three annually burned grasslands in Japan: Kawatabi, Soni, and Aso. Soil C stock was estimated using a radiocarbon age and depth model, resulting in a net soil C accumulation rate in the soil. C-4-plant contribution to soil C accumulation was further estimated by delta C-13 of soil C. The range of total soil C varied among the sites (i.e., Kawatabi: 379-638 Mg, Soni: 249-484, and Aso: 372-408 Mg C ha(-1)). Catena position was a significant factor at Kawatabi and Soni, where the toe slope soil C accumulation exceeded that of the summit. The soil C accumulation rate of the whole horizon in the grasslands, derived C mainly from C-4 plant species, was 0.05 +/- 0.02 (Average +/- SE), 0.04 +/- 0.00, and 0.24 +/- 0.04 Mg C ha(-1) yr(-1) in Kawatabi, Soni, and Aso, respectively. Potential exists for long-term sequestration of C under M. sinensis, but the difference in the C accumulation rate can be influenced by the catena position and the amount of vegetation.

Automated summary

Miscanthus-dominated semi-natural grasslands in Japan store significant amounts of soil carbon and have long-term effects on soil carbon accumulation. However, the accumulation rate can be influenced by the catena position and vegetation amount.