Chemical characterization of a chelator-treated soil humate by solution-state multinuclear two-dimensional NMR with FTIR and pyrolysis-GCMS

摘要

A California forest soil used for contaminant bioavailability studies was extracted for humic substances (HS) and then treated with 4,5-dihydroxy-1,3-benzene disulfonate ("Tiron") to remove exchangeable metal ions. This yielded HS that was readily water-soluble at neutral pH without residual Tiron contamination, and the gel electrophoretic pattern was very similar to an international reference HS. The improved solubility facilitated analysis of HS by solution-state 1-D and 2-D {left sup}1H, {left sup}13C, {left sup}31P and {left sup}13C-{left sup}1H NMR. The amino acids Gly, Ala, Leu, lIe, Val, Asp, Ser, Thr, Glu, and Pro were identified in intact HS as peptidic from scalar coupling in TOCSY and dipolar interactions in NOESY and then confirmed by acid digestion of HS with 2-D {left sup}1H NMR and GCMS analysis. The presence of peptides was also corroborated by FT-IR and pyrolysis-GCMS results. Carbohydrates containing α- and β-pyranoses, methoxy-phenylpropanyl structures, phosphate mono/diesters, polyphosphates, plus phosphatidic acid esters were also evident. Furthermore, the 1H NOESY, TOCSY, and HSQC together indicated that the peptidic side chains were mobile, whereas aromatic groups were relatively rigid. Thus the peptidic moieties may be more readily accessible to aqueous contaminants than aromatic groups.