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W4313334433 startingPage "116304" @default.
W4313334433 abstract "Water redistribution profoundly affects the dryland ecosystem’s function. Biological soil crusts (BSCs or biocrusts), which cover a large part of soil surface in arid land, significantly affect the water redistribution, but the results are conflicting at regional scale. In this study, the effects of different biocrusts on soil hydraulic properties, including soil water retention curve, soil water sorptivity, soil hydrophobicity and unsaturated hydraulic conductivity, were clarified in Tengger Desert. The results showed that the presence of BSCs significantly changed soil hydraulic properties. Compared to sand, BSCs increased water holding capacity and soil hydrophobicity, and decreased soil water sorptivity and unsaturated hydraulic conductivity. The enrichment of fine particles during the change from the less to the more developed BSCs contributed to the enhancement of water holding capacity, but this effect was mainly limited at 3-cm layer of soil underneath the ground surface. Soil hydrophobicity decreased with crust development, which contributed to the increase of soil water sorptivity. Unsaturated hydraulic conductivity decreased during the change from the less to the more developed BSCs, which exerted some negative effect on water infiltration. Our results highlight the important role of BSCs in hydraulic properties, and consideration of biocrusts and its hydrological behavior could help us better understand the distribution, movement and retention of soil water in this area." @default.
W4313334433 created "2023-01-06" @default.
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W4313334433 date "2023-02-01" @default.
W4313334433 modified "2023-10-15" @default.
W4313334433 title "The effect of different biocrusts on soil hydraulic properties in the Tengger Desert, China" @default.
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W4313334433 cites W1965460120 @default.
W4313334433 cites W1969856616 @default.
W4313334433 cites W1971498184 @default.
W4313334433 cites W1973388512 @default.
W4313334433 cites W1981014936 @default.
W4313334433 cites W1989885602 @default.
W4313334433 cites W1998764710 @default.
W4313334433 cites W2004473230 @default.
W4313334433 cites W2005385524 @default.
W4313334433 cites W2010478816 @default.
W4313334433 cites W2010752891 @default.
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W4313334433 cites W2015616364 @default.
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W4313334433 cites W2026516701 @default.
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W4313334433 cites W2052225688 @default.
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W4313334433 cites W2074862447 @default.
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W4313334433 cites W2110618187 @default.
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W4313334433 cites W2326411667 @default.
W4313334433 cites W2341509418 @default.
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W4313334433 cites W2344264389 @default.
W4313334433 cites W2382304044 @default.
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W4313334433 cites W2416801680 @default.
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W4313334433 doi "https://doi.org/10.1016/j.geoderma.2022.116304" @default.
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