Characterisation of humic substances by acid catalysed transesterification

Abstract

The chemical composition of low molecular weight moieties linked to the core structures of humic substances (HS) are of substantial importance for the understanding of the chemical structures and mode of interactions of HS with other substances in the environment. In this study a novel approach to characterise certain low molecular weight compounds bound to HS is suggested. The method includes transesterification (TE) of ester and amide bound structures, and esterification (E) of free carboxylic groups using acid catalysed methanolysis followed by gas chromatography (GC)–mass spectrometry (MS) and GC-FID analysis. Methanolysis of five HS of different origin, demonstrated the presence of multifunctional hydroxy-substituted benzoic acids, hexoses, and long chain fatty acids. Based on GC-FID and addition of the internal standard before methanolysis, the total amounts of low molecular weight material could be estimated. In case of HS from the aqueous sources the yields were below 1%, whereas in case of the HS derived from lignite the yield was significantly higher. The hydrophobic long chain fatty acids constituted about one-third of this material. Principal component analysis (PCA), which was used for extended data evaluation, differentiated between the samples in terms of chemical composition.