A wind-tunnel study on saltation and PM10 emission from agricultural soils
2016
Abstract PM 10 emission depends on the texture and the aggregation state of a soil. A decisive but less studied factor is the saltation fraction of the soil (fraction between 100 and 500 μm). Six soils of contrasting textures were selected, and a wind tunnel study was carried out under three different saltation conditions: increased saltation, in which a sample of the saltation fraction was added to the air stream prior to the soil bed; no saltation added, in which the soil bed eroded without the addition of extra saltation fraction; and only saltation, in which the saltation fraction was injected into the air stream in the absence of the soil bed. Results indicated that the saltation efficiency for PM 10 emission increased with the fine fraction content of the soil and decreased with the sand content, but this process showed a complex behavior depending on the cohesion and stability of the aggregates. An index for describing the saltation efficiency of the studied soils was proposed based on the combination of three parameters: the PM 10 content, the amount of saltation fraction available in the soil surface, and an aggregation parameter ( clay × organic matter content ). Increasing the saltation rate increased the PM 10 emission from the eroding soil bed, except for the sandy soil. Results suggest that the main mechanisms of PM 10 emission under saltation conditions differ according to the soil texture: detachment of the PM 10 adhered to the grains of sand predominates on sandy soils and fragmentation on finer soils, but both processes occur together on high-emitting soils of intermediate textures.
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