Characterizing anisotropic scale-specific variations in soil salinity from a reclaimed marshland in China

In the recent past, much of the marshland in China has been reclaimed for agriculture and to create urban buffer zones. Information about the variability of soil properties (e.g. salinity) in these reclaimed areas is mostly limited, but is crucial for improving agricultural production as well as sus...

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Published inCatena (Giessen) Vol. 131; pp. 64 - 73
Main Authors Huang, Jingyi, Shi, Zhou, Biswas, Asim
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.08.2015
Subjects
agricultural land
Anisotropy
China
clay fraction
ecosystem services
Empirical mode decomposition
nitrogen content
Reclamation
salinity
Scale
soil heterogeneity
soil map
soil salinity
variance
Wetlands
China
Empirical mode decomposition
Scale
Anisotropy
China
Reclamation
Wetlands
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Abstract In the recent past, much of the marshland in China has been reclaimed for agriculture and to create urban buffer zones. Information about the variability of soil properties (e.g. salinity) in these reclaimed areas is mostly limited, but is crucial for improving agricultural production as well as sustaining their environmental benefits. Characterization of variations in soil salinity and their correlation with other soil properties at different scales can improve the use of these reclaimed areas, as well as assess the efficacy of the reclamation process. In this study, we examined variations in soil salinity at different directions using anisotropic analysis (AA) and separated the variations at different scales using empirical mode decomposition (EMD). The AA identified two pairs of major and minor axes along which variations in soil salinity were dominant. The EMD separated the variations in soil salinity along these axes into six intrinsic mode functions according to the dominant scales of variations. The importance of these scale components were assessed based on their percent variance contribution towards the overall variance. Large variations in soil salinity were observed mainly at 200–500m and 3500–4500m scales. The scale-specific variations in soil salinity and their correlation with other soil properties were direction-specific. A strong correlation between the large scale components of soil salinity (>5km) and soil total nitrogen and clay content were identified along the directions from inland to the ocean. This may be attributed to the distance from the ocean as well as the length of time for which reclaimed land has been cultivated. Information about this variability at different scales and directions acquired by combining AA and EMD provided a unique way to characterize reclaimed lands for agricultural or environmental use. This information will be helpful in developing future sampling strategies and preparing detailed digital soil maps for improved management decisions. •Spatial variability in soil salinity in reclaimed marshlands is characterized.•Anisotropic analyses are combined with empirical mode decomposition in this study.•Variations in soil salinity are quantified at multiple scales along major directions.•Soil salinity in reclaimed marshlands is scale- and direction-dependent.•Reclamation time and use of reclaimed lands are responsible for major variations.
AbstractList In the recent past, much of the marshland in China has been reclaimed for agriculture and to create urban buffer zones. Information about the variability of soil properties (e.g. salinity) in these reclaimed areas is mostly limited, but is crucial for improving agricultural production as well as sustaining their environmental benefits. Characterization of variations in soil salinity and their correlation with other soil properties at different scales can improve the use of these reclaimed areas, as well as assess the efficacy of the reclamation process. In this study, we examined variations in soil salinity at different directions using anisotropic analysis (AA) and separated the variations at different scales using empirical mode decomposition (EMD). The AA identified two pairs of major and minor axes along which variations in soil salinity were dominant. The EMD separated the variations in soil salinity along these axes into six intrinsic mode functions according to the dominant scales of variations. The importance of these scale components were assessed based on their percent variance contribution towards the overall variance. Large variations in soil salinity were observed mainly at 200–500m and 3500–4500m scales. The scale-specific variations in soil salinity and their correlation with other soil properties were direction-specific. A strong correlation between the large scale components of soil salinity (>5km) and soil total nitrogen and clay content were identified along the directions from inland to the ocean. This may be attributed to the distance from the ocean as well as the length of time for which reclaimed land has been cultivated. Information about this variability at different scales and directions acquired by combining AA and EMD provided a unique way to characterize reclaimed lands for agricultural or environmental use. This information will be helpful in developing future sampling strategies and preparing detailed digital soil maps for improved management decisions. •Spatial variability in soil salinity in reclaimed marshlands is characterized.•Anisotropic analyses are combined with empirical mode decomposition in this study.•Variations in soil salinity are quantified at multiple scales along major directions.•Soil salinity in reclaimed marshlands is scale- and direction-dependent.•Reclamation time and use of reclaimed lands are responsible for major variations.
In the recent past, much of the marshland in China has been reclaimed for agriculture and to create urban buffer zones. Information about the variability of soil properties (e.g. salinity) in these reclaimed areas is mostly limited, but is crucial for improving agricultural production as well as sustaining their environmental benefits. Characterization of variations in soil salinity and their correlation with other soil properties at different scales can improve the use of these reclaimed areas, as well as assess the efficacy of the reclamation process. In this study, we examined variations in soil salinity at different directions using anisotropic analysis (AA) and separated the variations at different scales using empirical mode decomposition (EMD). The AA identified two pairs of major and minor axes along which variations in soil salinity were dominant. The EMD separated the variations in soil salinity along these axes into six intrinsic mode functions according to the dominant scales of variations. The importance of these scale components were assessed based on their percent variance contribution towards the overall variance. Large variations in soil salinity were observed mainly at 200–500m and 3500–4500m scales. The scale-specific variations in soil salinity and their correlation with other soil properties were direction-specific. A strong correlation between the large scale components of soil salinity (>5km) and soil total nitrogen and clay content were identified along the directions from inland to the ocean. This may be attributed to the distance from the ocean as well as the length of time for which reclaimed land has been cultivated. Information about this variability at different scales and directions acquired by combining AA and EMD provided a unique way to characterize reclaimed lands for agricultural or environmental use. This information will be helpful in developing future sampling strategies and preparing detailed digital soil maps for improved management decisions.
Author Biswas, Asim
Shi, Zhou
Huang, Jingyi
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Keywords Empirical mode decomposition
Scale
Anisotropy
China
Reclamation
Wetlands
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Snippet In the recent past, much of the marshland in China has been reclaimed for agriculture and to create urban buffer zones. Information about the variability of...
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StartPage 64
SubjectTerms agricultural land
Anisotropy
China
clay fraction
ecosystem services
Empirical mode decomposition
nitrogen content
Reclamation
salinity
Scale
soil heterogeneity
soil map
soil salinity
variance
Wetlands
Title Characterizing anisotropic scale-specific variations in soil salinity from a reclaimed marshland in China
URI https://dx.doi.org/10.1016/j.catena.2015.03.011
https://www.proquest.com/docview/2000153481
Volume 131
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