Soil nitrogen distributions for different land uses and landscape positions in a small watershed on Loess Plateau, China

•Land uses and landscape position significantly influenced soil nitrogen.•Soil nitrogen patterns showed high variability in the small watershed studied.•There was a significant positive correlation between soil nitrogen and soil organic carbon.•Soil nitrogen was negatively correlated with soil pH an...

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Bibliographic Details
Published in:Ecological engineering 2013-11, Vol.60, p.204-213
Main Authors: Xue, Zhijing, Cheng, Man, An, Shaoshan
Format: Article
Language:English
Subjects:
abandoned land
ammonium nitrogen
Animal, plant and microbial ecology
Applied ecology
Biological and medical sciences
Carbon
Conservation, protection and management of environment and wildlife
Correlation
ecological restoration
Environmental degradation: ecosystems survey and restoration
Farmlands
Fundamental and applied biological sciences. Psychology
Grasslands
Land use
land use change
Landscape position
Landscapes
Loess
mineralization
nitrate nitrogen
nitrogen
orchards
Restoration
shrublands
Soil (material)
soil density
soil depth
Soil nitrogen
soil organic carbon
soil pH
soil quality
valleys
Watersheds
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Summary:•Land uses and landscape position significantly influenced soil nitrogen.•Soil nitrogen patterns showed high variability in the small watershed studied.•There was a significant positive correlation between soil nitrogen and soil organic carbon.•Soil nitrogen was negatively correlated with soil pH and soil bulk density.•Vegetation restoration on the Loess Plateau was beneficial with soil nitrogen increasing. The comprehensively managed Shanghuang watershed has been subjected to vegetation restoration since 1982 and is continuing through the Grain for Green project. Because land use and landscape position are the most important factors that influence soil nitrogen, understanding the effects of landforms and slope position on the distribution of soil nitrogen is an important prerequisite for estimating soil quality on the Loess Plateau. The results of our study showed that soil total nitrogen, nitrate nitrogen and ammonium nitrogen were highly variable in the small watershed. The soil nitrogen concentrations declined in the following order: natural grassland>shrub land>abandoned farmland>orchard>farmland>man-made grassland. Among the different landscape positions, soil nitrogen showed the highest values in valleys. There was a significant positive correlation between soil nitrogen and soil organic carbon, which were negatively correlated with soil pH and soil bulk density. The total soil nitrogen concentration decreased with increasing soil depth, and the highest nitrate nitrogen content and lowest ammonium nitrogen concentration were detected in the 10–30-cm layer. Regarding land use conversion, farmland to shrub land and abandoned farmland was more effective than orchard and man-made grassland for increasing total soil nitrogen and promoting soil nitrogen mineralization, which plays an essential role in ecological restoration. The potential contribution of land use change on soil organic carbon (SOC) and total N concentration could be estimated by assessing the land use conversion in the Shanghuang watershed. It was found that the implemented projects on the Chinese Loess Plateau were successful with regard to benefiting soil nitrogen.
ISSN:0925-8574
1872-6992
DOI:10.1016/j.ecoleng.2013.07.045