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Soil organic carbon and total nitrogen stocks under different land uses in a hilly ecological restoration area of North China

•Shrub and forestlands increases more soil organic carbon stock than cropland.•Soil organic carbon and total nitrogen declines with the soil depth increase.•The topsoil layer contained an average of 40% soil organic carbon stock.•Litter and live biomass play significant role in carbon and nitrogen a...

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Bibliographic Details
Published in:Soil & tillage research 2016-11, Vol.163, p.176-184
Main Authors: Wang, Tian, Kang, Fengfeng, Cheng, Xiaoqin, Han, Hairong, Ji, Wenjing
Format: Article
Language:English
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Summary:•Shrub and forestlands increases more soil organic carbon stock than cropland.•Soil organic carbon and total nitrogen declines with the soil depth increase.•The topsoil layer contained an average of 40% soil organic carbon stock.•Litter and live biomass play significant role in carbon and nitrogen accumulation.•Bulk density and pH value had significant negative impact on soil organic carbon. In hilly area of North China, massive deforestation of natural forests and extensive use of agricultural lands have resulted in severe soil degradation. Soil organic carbon (SOC) and total nitrogen (STN) are crucial to soil quality. However, knowledge on the efficiency of changes in SOC under various land uses in these areas is very limited. To address this problem, a study was conducted in Songjiagou Catchment of Mount. Taiyue to evaluate the impact of land use change on SOC sequestration and STN accumulation. The results showed that compared with cropland, the SOC stock of shrub land was 10.8% higher and that of forestland 39.8% higher. Comparative values were 55.9% and 64.7% higher for nitrogen accumulation over the entire soil profile. Among that, the topsoil layer in cropland contained 40.7% of the SOC stock and this layer of the secondary shrub 43.6%. It appears that inappropriate tillage practices and anthropogenic disturbances imply a considerable loss of carbon sequestration. Ground litter biomass and live biomass were considered as the main influence factors of STN and SOC variance in surface soil. As well, soil properties, such as bulk density and pH value, were found to have significant and negative effect on SOC and STN concentrations. Therefore, we conclude that the change of land use from cropland to secondary shrub and restoration of forest plantation can improve SOC and STN concentrations and stocks.
ISSN:0167-1987
1879-3444
DOI:10.1016/j.still.2016.05.015