Department of Earth and Space Science, Graduate School of Science, Osaka University, 1-1 Machikaneyama-cho, Toyonaka-shi, Osaka 560-0043, Japan; Japan Society for the Promotion of Science, Japan.
Department of Earth and Space Science, Graduate School of Science, Osaka University, 1-1 Machikaneyama-cho, Toyonaka-shi, Osaka 560-0043, Japan.
Spectrochim Acta A Mol Biomol Spectrosc. 2020 Jun 5;233:118188. doi: 10.1016/j.saa.2020.118188. Epub 2020 Feb 21.
Front face fluorescence spectroscopy of typical Japanese soil powders (soil A: Typic Hapludand; soil H: Typic Hydraquent; soil Y: Typic Paleudult) has been conducted. Three dimensional excitation-emission matrix fluorescence spectra of the 100 wt% soils showed similar fluorescence patterns to each other. The fluorescence patterns were similar between the soil samples and their residues after extraction by NaOH solution for 60 min. In order to examine fluorescence extinction from a view point of whiteness of the soils, the soil powders were mixed with white and black diluents (AlO and FeO) and fluorescence spectra of the mixtures were measured at 450 nm excitation. At low levels of dilution with AlO (2-100 wt% of A; 50-100 wt% of H and Y), the fluorescence intensities increased with dilution. At high levels of dilution with AlO, the fluorescence intensities decreased with dilution. On the other hand, fluorescent intensities decreased by dilution with FeO. These results suggested inner filter effect-like fluorescence extinction by (1) large amount of blackish organic compounds giving high total carbon value and (2) blackish non-fluorescent mineral compounds. In order to correct the fluorescence intensities of the mixtures containing the sample soils and the diluents, we preliminary applied a correction method based on the Kubelka-Munk theory using diffuse reflectance. The corrected fluorescence intensities of samples with white diluents (AlO) were described by a simple fluorescence response model having saturation values.
已对典型日本土壤粉末(土壤 A:典型旱耕人为土;土壤 H:典型潴育人为土;土壤 Y:典型浅色草甸土)进行了正面荧光光谱分析。这三种土壤的 100wt%的三维激发-发射矩阵荧光光谱具有相似的荧光图谱。土壤样本及其用 60 分钟的 NaOH 溶液提取后的残留物之间的荧光图谱也相似。为了从土壤白度的角度检验荧光猝灭,将土壤粉末与白色和黑色稀释剂(AlO 和 FeO)混合,并在 450nm 激发下测量混合物的荧光光谱。在 AlO 低稀释度(A 的 2-100wt%;H 和 Y 的 50-100wt%)下,荧光强度随稀释度的增加而增加。在 AlO 高稀释度下,荧光强度随稀释度的增加而降低。另一方面,稀释度的增加导致 FeO 荧光强度降低。这些结果表明,荧光猝灭类似于内滤效应,由以下两种因素引起:(1)大量黑褐色有机化合物导致总碳值较高;(2)黑褐色非荧光矿物化合物。为了校正含有样品土壤和稀释剂的混合物的荧光强度,我们初步应用了一种基于漫反射的 Kubelka-Munk 理论的校正方法。含有白色稀释剂(AlO)的样品的校正荧光强度可通过具有饱和值的简单荧光响应模型来描述。
