Magnetic powder is regarded as an effective and economical tracer for estimating soil erosion.However,the principle and application for using magnetic powder to estimate soil erosion are still not fully developed.In t...Magnetic powder is regarded as an effective and economical tracer for estimating soil erosion.However,the principle and application for using magnetic powder to estimate soil erosion are still not fully developed.In this study,magnetic powders with mean diameters of both 30 and 1μm were mixed into three soils at different mass proportion.The relationship between magnetic susceptibility and the mass proportion of the introduced magnetic powder in the tagged soil,and the binding ability of magnetic powder to soil particles after both dry and wet sieving were investigated.The accuracy of tracking soil loss by using magnetic powder as a tracer was assessed.The results showed that there was a significant linear relationship between the magnetic susceptibility and the mass proportion of the introduced magnetic powder in the tagged soil.The relationship between the amount of soil captured by a magnet and the mass proportion of magnetic powder in the tagged soil indicated that soils were readily magnetized by magnetic powder,especially fine fractions.The magnetic susceptibility of magnetic powder in different sizes of soil aggregates was variable.A majority of magnetic powder of both 30 and 1μm diameters was strongly bound with fine particles<0.05 mm in dry and wet sieving.Using the estimated tracer mass proportions,the relative errors between measured and estimated soil losses with enrichment correction factor were less than 18.3%under the simulated rain events.This study not only reveal the principle of Fe_(3)O_(4) powder in soil erosion,but also improve its estimated precision of soil loss,which can make the tracing method by Fe_(3)O_(4) magnetic powder more useable in future.展开更多
基金supported by the Strategic Priority Research Program of the Chinese Academy of Sciences(Grant No.XDA23060502)the Natural Science Foundation of China(Grant No 42177326 and U2243210).
文摘Magnetic powder is regarded as an effective and economical tracer for estimating soil erosion.However,the principle and application for using magnetic powder to estimate soil erosion are still not fully developed.In this study,magnetic powders with mean diameters of both 30 and 1μm were mixed into three soils at different mass proportion.The relationship between magnetic susceptibility and the mass proportion of the introduced magnetic powder in the tagged soil,and the binding ability of magnetic powder to soil particles after both dry and wet sieving were investigated.The accuracy of tracking soil loss by using magnetic powder as a tracer was assessed.The results showed that there was a significant linear relationship between the magnetic susceptibility and the mass proportion of the introduced magnetic powder in the tagged soil.The relationship between the amount of soil captured by a magnet and the mass proportion of magnetic powder in the tagged soil indicated that soils were readily magnetized by magnetic powder,especially fine fractions.The magnetic susceptibility of magnetic powder in different sizes of soil aggregates was variable.A majority of magnetic powder of both 30 and 1μm diameters was strongly bound with fine particles<0.05 mm in dry and wet sieving.Using the estimated tracer mass proportions,the relative errors between measured and estimated soil losses with enrichment correction factor were less than 18.3%under the simulated rain events.This study not only reveal the principle of Fe_(3)O_(4) powder in soil erosion,but also improve its estimated precision of soil loss,which can make the tracing method by Fe_(3)O_(4) magnetic powder more useable in future.
