Autor: |
Chen, Sigen, Franklin, Ralph E., Johnson, Alan D. |
Zdroj: |
Soil Science; February 1997, Vol. 162 Issue: 2 p91-96, 6p |
Abstrakt: |
Soil nutrient retention and groundwater contamination are concerns in agricultural and environmental science. Preferential flow can either increase or decrease the residence time of solutes in soil, depending on the location of solutes relative to macropores. Clay films that form on ped surfaces may affect ion transport and retention during flow events. These possibilities were investigated by studying the transport of strontium and bromide in soil columns with artificial macropores that had been coated with clay films. The disappearance of Sr and Br from solution percolating through the pore and subsequent lateral transport into a soil matrix were measured. Clay films retarded Sr removal from solution, thus reducing Sr retention by the soil matrix. Br was uniformly distributed laterally across the soil matrix (5.2-cm2) 1 day after the flow event, whereas 30 days were required for Sr to become uniformly distributed. In a second phase, leaching of SrBr2from the soil into the pore was retarded by clay films. A slow flow rate, 0.25 pore volumes per min, was more effective in leaching solutes from the soil matrix than a faster flow rate of 0.51 pore volumes per min. Leaching loss of Br was about twice that of Sr. |
Databáze: |
Supplemental Index |
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