(Detwiler and Hall, 1988; Bouwman a

(Detwiler and Hall, 1988; Bouwman and Leemans, 1995; Richter et al., 1995; Sedjo, 1992; Jaba ́ggy and Jackson, 2000). Land use change causes perturbation of the ecosystem and can influence the C stocks and fluxes. In particular, conversion of forest to agricul- tural ecosystems affects several soil properties but especially soil organic carbon (SOC) concentration and stock. The conversion to an agricultural land use invariably results in the depletion of SOC stock by 20–50% (Schlesinger, 1985; Post and Mann, 1990; Davidson and Ackerman, 1993). The depletion of SOC stock is attributed to numerous factors including: decrease in the amount of biomass (above- and below- ground) returned to the soil, change in soil moisture and temperature regimes which accentuate the rate of decomposition of organic matter, high decomposa- bility of crop residues due to differences in C:N ratio and lignin content, tillage-induced perturbations, decrease in soil aggregation and reduction in physical protection of the soil organic matter, and increase in soil erosion. Thus, agricultural soils and especially eroded agricultural soils usually contain lower SOC stock than their potential capacity. Afforestation of agricultural land can reverse some of the degradation processes and cause enhancement or sequestration of SOC stock (Ross et al., 2002; Silver et al., 2000).
Interest in the ability of forest soils to sequester atmospheric CO2 derived from fossil fuel combustion has increased because of the threat of projected climate change. Thus, understanding the mechanisms and factors of SOC dynamics in forest soils is important to identifying and enhancing natural sinks for C sequestration to mitigate the climate change.
This manuscript synthesizes available information on forest soils as a sink for atmospheric CO2, and identifies the management options that may enhance the capacity for C capture/storage in forest soils. The
manuscript focuses on SOC stock in forest soils and factors affecting its dynamics, assesses the role of forest management on SOC sequestration, outlines soil sampling and analytical procedures and modeling options, describes the likely effects of projected climate change on SOC stock in forest soils, and outlines challenges of achieving the potential. Rather than being a comprehensive literature review, the focus is to highlight the principle issues and opportunities and build upon previous reviews on the topic (e.g. Bouwman, 1990; McFee and Kelly, 1995; Lal, 2001; Kimble et al., 2003).