Liang, XL; Radosevich, M; Loffler, F; Schaeffer, SM; Zhuang, J in [Liang, Xiaolong; Radosevich, Mark; Loffler, Frank; Schaeffer, Sean M.; Zhuang, Jie] Univ Tennessee, Dept Biosyst Engn & Soil Sci, Knoxville, TN 37996 USA; [Loffler, Frank] Univ Tennessee, Dept Microbiol, Dept Civil & Environm Engn, Ctr Environm Biotechnol, Knoxville, TN 37996 USA; [Loffler, Frank] Oak Ridge Natl Lab, Biosci Div, Oak Ridge, TN 37831 USA published Impact of microbial iron oxide reduction on the transport of diffusible tracers and non-diffusible nanoparticles in soils in 2019, Cited 60. Recommanded Product: 2,6-Difluorobenzoic acid. The Name is 2,6-Difluorobenzoic acid. Through research, I have a further understanding and discovery of 385-00-2.
In subsurface bioremediation, electron donor addition promotes microbial Fe(lII)-oxide mineral reduction that could change soil pore structure, release colloids, and alter soil surface properties. These processes in turn may impact bioremediation rates and the ultimate fate of contaminants. Columns packed with water-stable, Fe-oxide-rich soil aggregates were infused with acetate-containing artificial groundwater and operated for 20 d or 60 d inside an anoxic chamber. Soluble Fe(II) and soil colloids were detected in the effluent within one week after initiation of the acetate addition, demonstrating Fe(III)-bioreduction and colloid formation. Diffusible Br-, less diffusible 2,6-difluorobenzoate (DFBA), and non-diffusible silica-shelled silver nanoparticles (SSSNP) were used as tracers in transport experiments before and after the bioreduction. The transport of Br- was not influenced by the bioreduction. DFBA showed earlier breakthrough and less tailing after the bioreduction, suggesting alterations in flow paths and soil surface chemistry during the 20-d bioreduction treatment. Similarly, the bioreduction increased the transport of SSSNP very significantly, with mass recovery increasing from 1.7% to 25.1%. Unexpectedly, the SSSNP was completely retained in the columns when the acetate injection was extended from 20 to 60 d, while the mass recovery of DFBA decreased from 89.1% to 84.1% and Br showed no change. The large change in the transport of SSSNP was attributed to soil aggregate breakdown and colloid release (causing mechanical straining of SSSNP) and the exposure of iron oxide surfaces previously unavailable within aggregate interiors (facilitating attachment of SSSNP). These results suggest a time dependent fashion of microbial effect on the transport of diffusivity-varying tracers. (C) 2018 Elsevier Ltd. All rights reserved.
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