Analyzing and estimating soil organic carbon(SOC)storage and changes in deep layers under different land uses and landforms may play a pivotal role in comprehending the balance and cycle mechanisms of C cycling, and comprehending the capacity of C sequestration in the terrestrial ecosystem. The study mainly emphasized on effects of landforms and land uses on vertical distribution characteristic of SOC sampled to a depth of 200 cm at the Wangdonggou watershed on the tableland region of Loess Plateau, China. For the top soil of 0-20 cm, the order of SOC contents was gully(10.0 g·kg-1)> tableland(7.8 g·kg-1)and slopeland(8.2 g·kg-1). For the subsoil, SOC in tableland was higher than that in gully and slopeland. For slopeland and gully, SOC decreased with increasing depth, while for tableland, SOC decreased initially, then increased, lastly decreased. Meanwhile, for tableland, the order of SOC appeared approximately manmade grassland > cropland > orchard with the effecting depth of land uses for 40 cm, and for slopeland the order was native grassland(4.3 g·kg-1)> manmade woodland(3.8 g·kg-1)> manmade grassland(3.3 g·kg-1)> orchard(3.3 g·kg-1)with the depth for 100 cm, while for gully, there was no significantly difference(p >0.05)among different land uses. SOC storage in the profile of 20-200 cm accounted for 67.6% sampled to a depth of 100 cm, while for 100-200cm, SOC storage accounted 37.3% in 0-200 cm equaled to 63.8% of the SOC storage in 0-100 cm. The results revealed that landforms and land uses highly significantly(p < 0.05)affected the vertical distribution of SOC at a small watershed scale and considerable amounts of C were stored at deeper depths. |