We investigated how the degradation of 7-C-BaP aged in sediments by HO treatment was influenced by the chemical structures, compositions, and microporosity of sedimentary organic carbon (SOC). Unstable OC (USOC), stable OC (STOC), mineral-protected OC (MOC), and chemically resistant OC (ROC) fractions were fractionated. The chemical structures and microporosity of the ROC fractions were characterized by C solid-state nuclear magnetic resonance (NMR) and CO adsorption technique, respectively. A first-order, two-compartment kinetics model described the degradation process very well (R > 0.980). The BaP degradation ratios increased with the increasing USOC contents and decreased with the increasing ROC contents. The BaP parent compound in the aqueous solution was almost completely degraded. The considerable portions of oxidized intermediates were detected in different SOC fractions, which represented either oxidized intermediates or parent compounds. The very good multivariate regressions among the degradation kinetics parameters, SOC structures and micropore volumes demonstrated that ROC-bulk, aliphatic moieties, and microporosity played crucial roles in protecting sorbed BaP from being degraded by HO. The results showed that ROC, aliphatic moieties, and microporosity played vital roles in Bap degradation process in sediments during HO treatment, which is reported for the first time in this study.
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