Characterizing spatial-temporal patterns and abrupt changes in deep soil moisture across an intensively managed watershed

Soil moisture content (SMC) is highly variable in space and time due to the combined effects of natural processes and human influences. This study was conducted to explore the temporal-spatial patterns of deep SMC and detect possible abrupt changes in SMC in deep soil layers across an intensively ma...

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Published inGeoderma Vol. 341; pp. 181 - 194
Main Authors Wang, Yunqiang, Sun, Hui, Zhao, Yali
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.05.2019
Subjects
best management practices
China
Deep soils
humans
issues and policy
Land restoration
Land use change
Meteorological variable
ravines
Robinia pseudoacacia
roots
soil depth
soil profiles
soil water
soil water content
Soil water management
space and time
The Loess Plateau
vegetation
watersheds
China
Land restoration
The Loess Plateau
Meteorological variable
Soil water management
Deep soils
Land use change
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Abstract Soil moisture content (SMC) is highly variable in space and time due to the combined effects of natural processes and human influences. This study was conducted to explore the temporal-spatial patterns of deep SMC and detect possible abrupt changes in SMC in deep soil layers across an intensively managed watershed. We monitored SMC to a depth of 500 cm from 2016 to 2017 at the Gutun watershed (N = 89) on the Chinese Loess Plateau and determined related soil and vegetation properties. The mean SMC on the slopes at different depths were lower than in the gullies at the intensively managed areas affected by the “Grain for Green” project and the “Gully Land Consolidation” project. With increasing soil depth, slope SMCs gradually increased to 14%, while gully SMCs reached 40%. The spatial structures and patterns of mean SMCs within the 0–500 cm profile were similar but differed among different sub-layers. The detected fast changing layers (FCLs) of SMC (mean thickness = 76 cm) often occurred on the slopes of the watershed, while the relatively stable layers of SMC (mean thickness = 257 cm) were often located in the gullies. In deep soil layers (below 300 cm), we detected deep-FCLs at eight sites (mean thickness = 60 cm) which were all located on the slopes and under the same species (Robinia pseudoacacia L.). The mean SMCs within each of the eight deep-FCLs demonstrated a decreasing trend with time, which may be caused by the distribution of fresh roots. Human management had a profound impact on the spatial and temporal patterns of SMC in deep soil profiles at the watershed scale. This information should be considered by hydrologists and policy makers when developing eco-hydrology models and best management practices at multiple scales in a watershed. •Spatial-temporal changes in deep SMC were explored at an intensively managed watershed•Upper fast-changing layers of SMC often occurred on slopes, while the relatively stable layers occurred in gullies•Below 300-cm, deep-FCLs were detected at 8 sites on slopes and under the same plant species•Mean SMCs within each deep-FCL demonstrated a decreasing trend with time•Plant root patterns had a profound impact on SMC in deep soils
AbstractList Soil moisture content (SMC) is highly variable in space and time due to the combined effects of natural processes and human influences. This study was conducted to explore the temporal-spatial patterns of deep SMC and detect possible abrupt changes in SMC in deep soil layers across an intensively managed watershed. We monitored SMC to a depth of 500 cm from 2016 to 2017 at the Gutun watershed (N = 89) on the Chinese Loess Plateau and determined related soil and vegetation properties. The mean SMC on the slopes at different depths were lower than in the gullies at the intensively managed areas affected by the “Grain for Green” project and the “Gully Land Consolidation” project. With increasing soil depth, slope SMCs gradually increased to 14%, while gully SMCs reached 40%. The spatial structures and patterns of mean SMCs within the 0–500 cm profile were similar but differed among different sub-layers. The detected fast changing layers (FCLs) of SMC (mean thickness = 76 cm) often occurred on the slopes of the watershed, while the relatively stable layers of SMC (mean thickness = 257 cm) were often located in the gullies. In deep soil layers (below 300 cm), we detected deep-FCLs at eight sites (mean thickness = 60 cm) which were all located on the slopes and under the same species (Robinia pseudoacacia L.). The mean SMCs within each of the eight deep-FCLs demonstrated a decreasing trend with time, which may be caused by the distribution of fresh roots. Human management had a profound impact on the spatial and temporal patterns of SMC in deep soil profiles at the watershed scale. This information should be considered by hydrologists and policy makers when developing eco-hydrology models and best management practices at multiple scales in a watershed. •Spatial-temporal changes in deep SMC were explored at an intensively managed watershed•Upper fast-changing layers of SMC often occurred on slopes, while the relatively stable layers occurred in gullies•Below 300-cm, deep-FCLs were detected at 8 sites on slopes and under the same plant species•Mean SMCs within each deep-FCL demonstrated a decreasing trend with time•Plant root patterns had a profound impact on SMC in deep soils
Soil moisture content (SMC) is highly variable in space and time due to the combined effects of natural processes and human influences. This study was conducted to explore the temporal-spatial patterns of deep SMC and detect possible abrupt changes in SMC in deep soil layers across an intensively managed watershed. We monitored SMC to a depth of 500 cm from 2016 to 2017 at the Gutun watershed (N = 89) on the Chinese Loess Plateau and determined related soil and vegetation properties. The mean SMC on the slopes at different depths were lower than in the gullies at the intensively managed areas affected by the “Grain for Green” project and the “Gully Land Consolidation” project. With increasing soil depth, slope SMCs gradually increased to 14%, while gully SMCs reached 40%. The spatial structures and patterns of mean SMCs within the 0–500 cm profile were similar but differed among different sub-layers. The detected fast changing layers (FCLs) of SMC (mean thickness = 76 cm) often occurred on the slopes of the watershed, while the relatively stable layers of SMC (mean thickness = 257 cm) were often located in the gullies. In deep soil layers (below 300 cm), we detected deep-FCLs at eight sites (mean thickness = 60 cm) which were all located on the slopes and under the same species (Robinia pseudoacacia L.). The mean SMCs within each of the eight deep-FCLs demonstrated a decreasing trend with time, which may be caused by the distribution of fresh roots. Human management had a profound impact on the spatial and temporal patterns of SMC in deep soil profiles at the watershed scale. This information should be considered by hydrologists and policy makers when developing eco-hydrology models and best management practices at multiple scales in a watershed.
Author Wang, Yunqiang
Zhao, Yali
Sun, Hui
Author_xml – sequence: 1
  givenname: Yunqiang
  surname: Wang
  fullname: Wang, Yunqiang
  email: wangyq@ieecas.cn
  organization: State Key Laboratory of Loess and Quaternary Geology, Institute of Earth Environment, Chinese Academy of Sciences, Xi'an, Shaanxi 710061, China
– sequence: 2
  givenname: Hui
  surname: Sun
  fullname: Sun, Hui
  organization: State Key Laboratory of Loess and Quaternary Geology, Institute of Earth Environment, Chinese Academy of Sciences, Xi'an, Shaanxi 710061, China
– sequence: 3
  givenname: Yali
  surname: Zhao
  fullname: Zhao, Yali
  organization: State Key Laboratory of Loess and Quaternary Geology, Institute of Earth Environment, Chinese Academy of Sciences, Xi'an, Shaanxi 710061, China
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Keywords Land restoration
The Loess Plateau
Meteorological variable
Soil water management
Deep soils
Land use change
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Snippet Soil moisture content (SMC) is highly variable in space and time due to the combined effects of natural processes and human influences. This study was...
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SubjectTerms best management practices
China
Deep soils
humans
issues and policy
Land restoration
Land use change
Meteorological variable
ravines
Robinia pseudoacacia
roots
soil depth
soil profiles
soil water
soil water content
Soil water management
space and time
The Loess Plateau
vegetation
watersheds
Title Characterizing spatial-temporal patterns and abrupt changes in deep soil moisture across an intensively managed watershed
URI https://dx.doi.org/10.1016/j.geoderma.2019.01.044
https://www.proquest.com/docview/2220840341
Volume 341
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