Spatial heterogeneity and sources of soil carbon in southern African savannas

Abstract

Knowledge of the southern Africa soil carbon pool, its heterogeneity, sources (from trees or grasses), and potential response to climate is extremely limited. In this study the Kalahari Transect (KT) was used as a representative savanna ecosystem to quantitatively evaluate the spatial heterogeneity of the soil carbon pool and its contributing sources. The KT encompasses a dramatic aridity gradient on relatively homogenous soils. Two sites were chosen along the KT, representing dry and wet conditions. In February–March 2005, soil samples were collected at each site along a 300 m transect. Stable carbon isotope (δ 13C) and organic carbon content (%C) of the soils were utilized in the assessment in conjunction with geostatistical analysis of the spatial patterns of soil δ 13C and %C. At the dry savanna site, well-defined patterns in both δ 13C and %C were observed that were related to the distribution of woody vegetation. At the wet savanna site, the spatial patterns of δ 13C and %C were somewhat less pronounced, but still were impacted by the distribution of woody vegetation. The relative contributions from C 3 and C 4 vegetation to the soil carbon pool at the wet site were independent of tree locations, but dependent on woody plant locations at the dry site. At the dry site, ~ 40% of the soil carbon was derived from C 3 vegetation, whereas at the wet site ~ 90% of the soil carbon originated from C 3 vegetation. These results represent an important step in understanding the impact of regional climate change (e.g., rainfall variations) on carbon sequestration in southern Africa by providing quantitative information on soil carbon spatial distributions and sources under different climatic conditions (e.g., different rainfall regimes).