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  1. Article: Using multi-fractal analysis to characterize the variability of soil physical properties in subsided land in coal-mined area

    Jing, Zhaorui / Wang, Jinman / Wang, Ping / Wang, Ruogu

    Geoderma. 2020 Mar. 01, v. 361

    2020  

    Abstract: Underground coal-mining activities can result in severe land subsidence; the soils are severely damaged and the hydrological process is disturbed. Understanding the spatial variability of soil physical properties is helpful to analyze the effects of ... ...

    Abstract Underground coal-mining activities can result in severe land subsidence; the soils are severely damaged and the hydrological process is disturbed. Understanding the spatial variability of soil physical properties is helpful to analyze the effects of underground mining on these properties and select suitable land rehabilitation measures. In the present study, multi-fractal analysis was used to reveal the effects of land subsidence and rehabilitation on the spatial variability of soil physical properties. Three plots from Pingshuo coal mine area in Shanxi Province of China, including one unmined plot (UMP), one subsided plots (SUP), and one rehabilitated plot (RHP), were selected for the study. Sixteen sampling points were identified in each plot. Four typical soil physical properties, namely bulk density (BD), field capacity (FC), saturated hydraulic conductivity (Ks), and soil disintegration rate (SDR) at depths of 0–20, 20–40, 40–60 and 60–80 cm at each sampling point were measured. Generalized dimensions and singularity spectra of the distributions of different soil physical properties were calculated for each plot. Parameters D1 and ΔD of the generalized dimensions, and Δα and Δf of singularity spectra, were extracted. Multi-fractal analysis is highly sensitive to the spatial variability of soil physical properties and provides valuable information for depicting spatial variability of these properties, including the concentration degree, dispersion degree, local variability degree, overall non-uniformity, and symmetry degree of spatial distribution. Land subsidence increased the spatial variability of soil physical properties, especially in terms of Ks and SDR, whereas land rehabilitation had the opposite effect. Compared to the UMP, the degree of local variability of Ks and SDR distributions increased by 191% and 132% in the SUP, respectively, whereas these factors decreased by 41% and 51% after land rehabilitation, respectively. The spatial variability of soil physical properties in the SUP was the highest compared to UMP and RHP. It is feasible to utilize multi-fractal techniques to assess the spatial variability of soil physical properties at the scale of a subsided plot in a coal-mined area. Information on the variability of soil physical properties at a small scale is required to more accurately restore soil environment and soil function through rehabilitation.
    Keywords bulk density ; coal ; edaphic factors ; field capacity ; land restoration ; saturated hydraulic conductivity ; soil function ; subsidence ; underground mining ; China
    Language English
    Dates of publication 2020-0301
    Publishing place Elsevier B.V.
    Document type Article
    ZDB-ID 281080-3
    ISSN 1872-6259 ; 0016-7061
    ISSN (online) 1872-6259
    ISSN 0016-7061
    DOI 10.1016/j.geoderma.2019.114054
    Database NAL-Catalogue (AGRICOLA)

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    In stock of ZB MED Bonn / Germany

    Z 2363: Show issues

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  2. Article: Effects of land subsidence resulted from coal mining on soil nutrient distributions in a loess area of China

    Jing, Zhaorui / Jinman Wang / Yucheng Zhu / Yu Feng

    Journal of cleaner production. 2018 Mar. 10, v. 177

    2018  

    Abstract: Underground coal-mining results in severe land subsidence then changes soil nutrient distributions. Soil organic matter (SOM) and total nitrogen (TN) are critical indicators of soil quality and play a key role for plant growth. However, fewer scholars ... ...

    Abstract Underground coal-mining results in severe land subsidence then changes soil nutrient distributions. Soil organic matter (SOM) and total nitrogen (TN) are critical indicators of soil quality and play a key role for plant growth. However, fewer scholars pay attention to the soil nutrient distributions in mining subsidence areas. In this study, a total of 64 soil sampling points, taken from 4 different plots (one unmined plot, two subsided plots and one reclaimed plot), were collected from No.3 Anjialing underground coal mine in the loess area of China. SOM and TN at the depths of 0–20, 20–40, 40–60 and 60–80 cm in these sampling plots were measured. The classical statistics and geo-statistics were used to analyze the vertical and horizontal spatial variability of SOM and TN. The mechanisms of the effects of coal mining subsidence on soil nutrient distribution were revealed based on the distribution of the surface cracks of subsided plots. All of SOM and TN at the depth of 0–20 cm in subsided plots were less than those in unmined plot. Below the depth of 20 cm, TN in subsided plots were higher than those in unmined plot and SOM were less than those in unmined plot. SOM in reclaimed plot were higher than those in subsided plots; however, TN did not exhibit a clear regularity. Land subsidence increased horizontal spatial heterogeneity of SOM and TN distributions. The crack width, crack depth and the distance between sampling point and edge of crack were the main influence factors resulting in horizontal spatial heterogeneity of SOM and TN. This study can provide a theoretical and technical reference for land rehabilitation in subsided lands in loess area.
    Keywords coal ; land restoration ; loess ; mining ; nitrogen content ; plant growth ; soil nutrients ; soil organic matter ; soil quality ; soil sampling ; spatial variation ; statistics ; subsidence ; China
    Language English
    Dates of publication 2018-0310
    Size p. 350-361.
    Publishing place Elsevier Ltd
    Document type Article
    ISSN 0959-6526
    DOI 10.1016/j.jclepro.2017.12.191
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  3. Article: Three-dimensional quantification of macropore networks of different compacted soils from opencast coal mine area using X-ray computed tomography

    Feng, Yu / Bai, Zhongke / Jing, Zhaorui / Reading, Lucy / Wang, Jinman

    Soil & tillage research. 2020 Apr., v. 198

    2020  

    Abstract: Heavy machinery compaction in mining area is widespread, and seriously jeopardizes soil restoration. Characterization of soil macropores with three-dimensional methods is essential for understanding the reclaimed minesoil (RMS) development. The aim of ... ...

    Abstract Heavy machinery compaction in mining area is widespread, and seriously jeopardizes soil restoration. Characterization of soil macropores with three-dimensional methods is essential for understanding the reclaimed minesoil (RMS) development. The aim of this study was to demonstrate the application of X-ray computed tomographic (CT) scanning for analyzing soil macropore structure and to explore how soil compaction affects soil macropore properties. To achieve this, soil samples collected from Pingshuo opencast coalmine were tested through a laboratory scheme, which was conducted to simulate the real soil pore situation under increasing soil bulk density treatments of 1.3, 1.4, 1.5, 1.6, 1.7, and 1.8 g cm−3 (T1.3-T1.8). Three-dimensional (3D) macropore networks were observed via CT, and macroporosity, macropore number, area, volume and its connectivity were characterized. Soil compaction had a major impact on soil macropore characteristics. The macropores of the 1.3 g cm−3 treatment were well connected, whereas those of the 1.8 g cm−3 treatment were poorly connected and isolated from each other. Macropore number and macroporosity decreased significantly as the soil compaction increased. Moreover, a 3D visualization of soil pore connectivity results suggested that the macropore connectivity markedly decreased with increasing compaction level, with average Euler number increasing from 0.677 in the 1.3 g cm−3 treatment to 0.999 in the 1.8 g cm−3 treatment. Soil bulk density was negatively correlated with macropore throat number and thickness, indicating that the soil compaction causes a loss of pore connectivity. Despite using a coarse resolution, the combination of laboratory simulation tests and 3D visualization of soil macropores provides valuable data for identifying the differences in soil pore structure among compacted RMSs and monitoring the persistent effects of soil compaction caused by heavy machinery in the mining area. Furthermore, we recommend a new method combining 3D visualization techniques and hydraulic analysis in the study of compacted soils, and the establishment of soil restoration measurements to avoid further compaction in mining areas.
    Keywords coal ; compacted soils ; computed tomography ; macropores ; mined soils ; mining ; monitoring ; soil compaction ; soil density ; soil restoration ; soil sampling
    Language English
    Dates of publication 2020-04
    Publishing place Elsevier B.V.
    Document type Article
    ZDB-ID 406698-4
    ISSN 0167-1987
    ISSN 0167-1987
    DOI 10.1016/j.still.2019.104567
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    In stock of ZB MED Bonn / Germany

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  4. Article: Effect of soil compaction on hydraulic properties and macropore structure: Evidence from opencast mines in the Loess Plateau of China

    Liu, Biao / Jing, Zhaorui / Wang, Jinman / Feng, Yu

    Ecological Engineering. , p.106988-

    Page(s) 106988–

    Abstract: Affected by heavy machinery, the soil compaction in the opencast coal mine area is serious, which will change the characteristics of soil macropores, then affect the soil hydraulic properties and damage the ecological environment in mining area. In this ... ...

    Abstract Affected by heavy machinery, the soil compaction in the opencast coal mine area is serious, which will change the characteristics of soil macropores, then affect the soil hydraulic properties and damage the ecological environment in mining area. In this study, the disturbed soil samples from the dumping area of Pingshuo opencast coal mine of China were collected. The soil samples were processed in bulk density from 1.30 g·cm⁻³ to 1.70 g·cm⁻³, and the soil hydraulic properties were measured, and the soil macropore characteristics were obtained using computerized tomography scanning in laboratory. The path analysis method was applied to analyze the effect of macropore characteristics caused by compaction on soil hydraulic properties. Soil compaction resulted in severe effects on soil hydraulic characteristics and macropore properties. Under same soil suction, the water contents remained in soil decreased with increasing compaction. The explanatory variables (average Euler number (AEN), macropore throat number (MTN), and macropore fractal dimension (MFD)) were main determinants of soil-water characteristic curve (SWCC), and the indirect path coefficient of macroporosity. The effects of AEN and MFD on soil infiltration properties were relatively high. The bulk density of 1.4 g·cm⁻³ was a critical point of affecting macropore properties then affecting soil hydraulic properties, and some soil reclamation measures should be conducted to make bulk density < 1.4 g·cm⁻³ for compacted soil in opencast coal mining area. This study provides a basis for selecting technology of land reclamation and the subsequent monitoring and maintenance of soil quality in mining areas.
    Keywords bulk density ; coal ; compacted soils ; computed tomography ; disturbed soils ; fractal dimensions ; land restoration ; macropores ; path analysis ; soil compaction ; soil quality ; soil restoration ; soil water characteristic ; throat ; China ; Retention curve ; Saturated hydraulic conductivity ; Soil moisture diffusivity ; Hydraulic properties ; Macropore structure ; Computerized tomography scanning ; X-ray
    Publishing place Elsevier B.V.
    Document type Article
    Note Pre-press version
    ZDB-ID 1127407-4
    ISSN 0925-8574
    ISSN 0925-8574
    DOI 10.1016/j.ecoleng.2023.106988
    Database NAL-Catalogue (AGRICOLA)

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    In stock of ZB MED Bonn / Germany

    Z 5865: Show issues

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