Response of soil organic carbon and nitrogen stocks to soil erosion and land use types in the Loess hilly–gully region of China

•SOC and TSN contents are mainly concentrated in the surface layer among land types.•Soil erosion, land-use change and landscape position have great effects on SOC and TSN stocks at a landscape scale.•Artificial forestland is an optimal choice to increase C and N sequestration. Erosion influences th...

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Published inSoil & tillage research Vol. 166; pp. 1 - 9
Main Authors Li, Zhongwu, Liu, Chun, Dong, Yuting, Chang, Xiaofeng, Nie, Xiaodong, Liu, Lin, Xiao, Haibing, Lu, Yinmei, Zeng, Guangming
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.03.2017
Subjects
afforestation
Caesium-137
cesium
China
grasslands
Land use
landscapes
loess
Loess hilly region
nitrogen
radionuclides
Robinia pseudoacacia
Soil erosion
Soil organic carbon
soil profiles
Total soil nitrogen
China
BD
Soil erosion
SOC
AGL
AFL
TSN
Land use
NGL
C/N ratio
DOC
Total soil nitrogen
Loess hilly region
Caesium-137
Soil organic carbon
SWC
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Abstract •SOC and TSN contents are mainly concentrated in the surface layer among land types.•Soil erosion, land-use change and landscape position have great effects on SOC and TSN stocks at a landscape scale.•Artificial forestland is an optimal choice to increase C and N sequestration. Erosion influences the vertical and horizontal distribution patterns of soil and soil organic carbon (SOC) at a landscape scale. To further understand the effect of erosion on SOC and total soil nitrogen (TSN) stocks in relation to land use types after the implementation of the “Grain for Green” program in the Loess hill-gully region, the SOC, TSN, and Caesium-137 (137Cs) contents were analyzed at three selected landscape positions under three land-use types: artificial grassland (AGL), native grassland (NGL) and artificial plantation of Robinia pseudoacacia (AFL). The results showed that all land uses experienced considerable net erosion since the mid-1950s, with an average total loss depth of 2.05cm for AFL, 1.49cm for AGL, and 0.54cm for NGL. The SOC stocks in AFL and NGL were 72.3% and 26.2% lower, respectively, than that in AGL in the 0–100cm soil layer, and significant positive correlation between SOC and TSN stocks on each layer in the soil profile was observed (R2>0.90). The result showed that compared with other land-use types, AGL had a greater SOC and TSN sequestration capacity. The contents of SOC and TSN were positively correlated with the amount of 137Cs in AFL and NGL (R2=0.97, 0.97 for AFL, respectively, and R2=0.90, 0.90 for NGL, respectively; n=3), whereas no significant correlation was found in AGL (R2=0.41, 0.01, respectively; n=3). The results indicated that AGL was an optimal choice to mitigate soil carbon and nitrogen loss and to increase C and N sequestration in the Loess hilly–gully region. A complex process should be considered for the distribution patterns of SOC and TSN after afforestation since 1999.
AbstractList •SOC and TSN contents are mainly concentrated in the surface layer among land types.•Soil erosion, land-use change and landscape position have great effects on SOC and TSN stocks at a landscape scale.•Artificial forestland is an optimal choice to increase C and N sequestration. Erosion influences the vertical and horizontal distribution patterns of soil and soil organic carbon (SOC) at a landscape scale. To further understand the effect of erosion on SOC and total soil nitrogen (TSN) stocks in relation to land use types after the implementation of the “Grain for Green” program in the Loess hill-gully region, the SOC, TSN, and Caesium-137 (137Cs) contents were analyzed at three selected landscape positions under three land-use types: artificial grassland (AGL), native grassland (NGL) and artificial plantation of Robinia pseudoacacia (AFL). The results showed that all land uses experienced considerable net erosion since the mid-1950s, with an average total loss depth of 2.05cm for AFL, 1.49cm for AGL, and 0.54cm for NGL. The SOC stocks in AFL and NGL were 72.3% and 26.2% lower, respectively, than that in AGL in the 0–100cm soil layer, and significant positive correlation between SOC and TSN stocks on each layer in the soil profile was observed (R2>0.90). The result showed that compared with other land-use types, AGL had a greater SOC and TSN sequestration capacity. The contents of SOC and TSN were positively correlated with the amount of 137Cs in AFL and NGL (R2=0.97, 0.97 for AFL, respectively, and R2=0.90, 0.90 for NGL, respectively; n=3), whereas no significant correlation was found in AGL (R2=0.41, 0.01, respectively; n=3). The results indicated that AGL was an optimal choice to mitigate soil carbon and nitrogen loss and to increase C and N sequestration in the Loess hilly–gully region. A complex process should be considered for the distribution patterns of SOC and TSN after afforestation since 1999.
Erosion influences the vertical and horizontal distribution patterns of soil and soil organic carbon (SOC) at a landscape scale. To further understand the effect of erosion on SOC and total soil nitrogen (TSN) stocks in relation to land use types after the implementation of the “Grain for Green” program in the Loess hill-gully region, the SOC, TSN, and Caesium-137 (137Cs) contents were analyzed at three selected landscape positions under three land-use types: artificial grassland (AGL), native grassland (NGL) and artificial plantation of Robinia pseudoacacia (AFL). The results showed that all land uses experienced considerable net erosion since the mid-1950s, with an average total loss depth of 2.05cm for AFL, 1.49cm for AGL, and 0.54cm for NGL. The SOC stocks in AFL and NGL were 72.3% and 26.2% lower, respectively, than that in AGL in the 0–100cm soil layer, and significant positive correlation between SOC and TSN stocks on each layer in the soil profile was observed (R2>0.90). The result showed that compared with other land-use types, AGL had a greater SOC and TSN sequestration capacity. The contents of SOC and TSN were positively correlated with the amount of 137Cs in AFL and NGL (R2=0.97, 0.97 for AFL, respectively, and R2=0.90, 0.90 for NGL, respectively; n=3), whereas no significant correlation was found in AGL (R2=0.41, 0.01, respectively; n=3). The results indicated that AGL was an optimal choice to mitigate soil carbon and nitrogen loss and to increase C and N sequestration in the Loess hilly–gully region. A complex process should be considered for the distribution patterns of SOC and TSN after afforestation since 1999.
Author Dong, Yuting
Xiao, Haibing
Li, Zhongwu
Zeng, Guangming
Nie, Xiaodong
Liu, Chun
Chang, Xiaofeng
Lu, Yinmei
Liu, Lin
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  organization: College of Environmental Science and Engineering, Hunan University, Changsha 410082, PR China
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  fullname: Dong, Yuting
  email: hwtsdyt@163.com
  organization: State Key Laboratory of Soil Erosion and Dryland Farming on the Loess Plateau, Institute of Soil and Water Conservation, Chinese Academy of Sciences, Yangling, Shanxi 712100, PR China
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  givenname: Xiaofeng
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  organization: State Key Laboratory of Soil Erosion and Dryland Farming on the Loess Plateau, Institute of Soil and Water Conservation, Chinese Academy of Sciences, Yangling, Shanxi 712100, PR China
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  fullname: Liu, Lin
  organization: State Key Laboratory of Soil Erosion and Dryland Farming on the Loess Plateau, Institute of Soil and Water Conservation, Chinese Academy of Sciences, Yangling, Shanxi 712100, PR China
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  fullname: Xiao, Haibing
  organization: College of Environmental Science and Engineering, Hunan University, Changsha 410082, PR China
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  surname: Lu
  fullname: Lu, Yinmei
  organization: College of Environmental Science and Engineering, Hunan University, Changsha 410082, PR China
– sequence: 9
  givenname: Guangming
  surname: Zeng
  fullname: Zeng, Guangming
  organization: College of Environmental Science and Engineering, Hunan University, Changsha 410082, PR China
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IsPeerReviewed true
IsScholarly true
Keywords BD
Soil erosion
SOC
AGL
AFL
TSN
Land use
NGL
C/N ratio
DOC
Total soil nitrogen
Loess hilly region
Caesium-137
Soil organic carbon
SWC
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Snippet •SOC and TSN contents are mainly concentrated in the surface layer among land types.•Soil erosion, land-use change and landscape position have great effects on...
Erosion influences the vertical and horizontal distribution patterns of soil and soil organic carbon (SOC) at a landscape scale. To further understand the...
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SubjectTerms afforestation
Caesium-137
cesium
China
grasslands
Land use
landscapes
loess
Loess hilly region
nitrogen
radionuclides
Robinia pseudoacacia
Soil erosion
Soil organic carbon
soil profiles
Total soil nitrogen
Title Response of soil organic carbon and nitrogen stocks to soil erosion and land use types in the Loess hilly–gully region of China
URI https://dx.doi.org/10.1016/j.still.2016.10.004
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Volume 166
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