Development of a water erosion tracer using industrial residue as a source of rare earth elements.

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2020
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This study was aimed at developing a water erosion tracer from montmorillonite (MMT) chemically modified with rare earth elements (REE) as chemical signatures to understand the landscape sediment mobilization dy- namics. A new route of development involving the use of an industrial residue from the REE extraction process was evaluated for its REE incorporation efficiency in the clay mineral to enable further tracer applications on a field scale. This industrial residue-modified MMT tracer was compared with a reference tracer based on the chemical modification of MMT with a commercial REE precursor. These REE-modified MMT tracers were characterized by Fourier transform infrared spectroscopy (FTIR) and X-ray fluorescence spectroscopies, in- ductively coupled plasma mass spectrometry (ICP-MS), X-ray diffractometry, scanning electron microscopy (SEM), and N2 physisorption measurements were performed to verify whether the MMT tracer modified with the industrial residue had the same chemical signature (REE) content and chemical stability as those of the com- mercial REE precursor-based tracer. Chemical stability tests under different pH conditions were carried out to evaluate possible REE content variations in the tracers, mainly over the targeted soil pH range (pH = 4.0–7.7). The clay modified with the industrial residue was further submitted to laboratory horizontal mobility tests using a soil flume. The chemical modification method was effective in producing a chemically stable MMT-based tracer that also displayed multi-chemical signature due to the use of the ClLa40-INB solution, which will po- tentially enhance the tracer detection in sediments. The mobility tests confirmed the suitability of the modified clay as a tracer.
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Soil erosion tracers, Rare earth elements, Montmorillonite
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VILLELA, J. M. et al. Development of a water erosion tracer using industrial residue as a source of rare earth elements. Applied Clay Science, v. 195, artigo 105709, 2020. Disponível em: <https://www.sciencedirect.com/science/article/pii/S016913172030274X>. Acesso em: 11 out. 2022.