Stable and radioactive carbon in forest soils of Chhattisgarh, Central India: Implications for tropical soil carbon dynamics and stable carbon isotope evolution

Abstract

Soils from two sites viz. Kotumsar and Tirathgarh, located ∼5km apart in a tropical reserve forest (18°52′N, 81°56′E) in central India, have been explored for soil organic carbon (SOC) content, its mean residence time (MRT) and the evolution of stable carbon isotopic composition (δ13C). SOC stocks in the upper 30cm of soil layers are ∼5.3kg/m2 and ∼3.0kg/m2; in the upper 110m are ∼10.7kg/m2 and ∼7.8kg/m2 at Kotumsar and Tirathgarh, respectively. SOC decreases with increasing depth. Bomb carbon signature is observed in the upper ∼10cm. Organic matters in the top soil layers (0–10cm) have MRTs of the order of a century which increases gradually with depths, reaching 3500–5000yrs at ∼100cm. δ13C values of SOC increase with depth, the carbon isotopic fractionation is obtained to be −1.2‰ and −3‰ for soils at Kotumsar and Tirathgarh, respectively, confirmed using Rayleigh isotopic fractionation model. The evolution of δ13C in soils was also studied using a modified Rayleigh fractionation model incorporating a continuous input into the reservoir: the depth profiles of δ13C for SOC show that the input organic matter from surface into the deeper soil layers is either insignificant or highly labile and decomposes quite fast in the top layers, thus making little contribution to the residual biomasses of the deeper layers. This is an attempt to understand the distillation processes that take place in SOC, assess the extent of decomposition by microbes and effect of percolation of fresh organic matter into dipper soil layers which are important for stable isotope based paleoclimate and paleovegetation reconstruction and understanding the dynamics of organic carbon in soils.