Physical Crust Formation on Sandy Soils and Their Potential to Reduce Dust Emissions from Croplands
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2020-12-08
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Abstract
The sandy croplands in the Free State have been identified as one of the main dust sources
in South Africa. The aim of this study was to investigate the occurrence and strength of physical
soil crusts on cropland soils in the Free State, to identify the rainfall required to form a stable
crust, and to test their impact on dust emissions. Crust strength was measured using a fall cone
penetrometer and a torvane, while laboratory rainfall simulations were used to form experimental
crusts. Dust emissions were measured with a Portable In-Situ Wind Erosion Laboratory (PI-SWERL).
The laboratory rainfall simulations showed that stable crusts could be formed by 15 mm of rainfall.
The PI-SWERL experiments illustrated that the PM10 emission flux of such crusts is between 0.14%
and 0.26% of that of a non-crusted Luvisol and Arenosol, respectively. The presence of abraders on
the crust can increase the emissions up to 4% and 8% of the non-crusted dust flux. Overall, our study
shows that crusts in the field are potentially strong enough to protect the soil surfaces against wind
erosion during a phase of the cropping cycle when the soil surface is not protected by plants.
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Reference:
Vos, Heleen C., Fister, W., Eckardt, Frank D., Palmer, Anthony R. & Kuhn, Nikolaus J. 2020. Physical Crust Formation on Sandy Soils and Their Potential to Reduce Dust Emissions from Croplands. Land. 9(12) http://hdl.handle.net/11427/35232