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Title

Soil Organic Carbon Stock and Distribution in Cultivated Land Converted to Grassland in a Subtropical Region of China.

Authors

Zhang, J.; Li, F.; Wang, Y.; Xiong, D.

Abstract

Land-use change from one type to another affects soil carbon (C) stocks which is associated with fluxes of CO to the atmosphere. The 10-years converted land selected from previously cultivated land in hilly areas of Sichuan, China was studied to understand the effects of land-use conversion on soil organic casrbon (SOC) sequestration under landscape position influences in a subtropical region of China. The SOC concentrations of the surface soil were greater ( P < 0.001) for converted soils than those for cultivated soils but lower ( P < 0.001) than those for original uncultivated soils. The SOC inventories (1.90-1.95 kg m) in the 0-15 cm surface soils were similar among upper, middle, and lower slope positions on the converted land, while the SOC inventories (1.41-1.65 kg m) in this soil layer tended to increase from upper to lower slope positions on the cultivated slope. On the whole, SOC inventories in this soil layer significantly increased following the conversion from cultivated land to grassland ( P < 0.001). In the upper slope positions, converted soils (especially in 0-5 cm surface soil) exhibited a higher C/N ratio than cultivated soils ( P = 0.012), implying that strong SOC sequestration characteristics exist in upper slope areas where severe soil erosion occurred before land conversion. It is suggested that landscape position impacts on the SOC spatial distribution become insignificant after the conversion of cultivated land to grassland, which is conducive to the immobilization of organic C. We speculate that the conversion of cultivated land to grassland would markedly increase SOC stocks in soil and would especially improve the potential for SOC sequestration in the surface soil over a moderate period of time (10 years).

Subjects

SICHUAN Sheng (China); CHINA; HUMUS; GRASSLANDS; CARBON in soils; SOIL composition; SOIL erosion

Publication

Environmental Management, 2014, Vol 53, Issue 2, p274

ISSN

0364-152X

Publication type

Academic Journal

DOI

10.1007/s00267-013-0181-y

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