Moon, BR; Kim, TK; Kim, MK; Choi, J; Zoh, KD
The removal and degradation pathways of microcystin-LR (MC-LR, [M+H]+ = 995.6) in UV-B photolysis and UV-B/H2O2processes were examined using liquid chromatography-tandem mass spectrometry. The UV/H2O2process was more efficient than UV-B photolysis for MC-LR removal. Eight by-products were newly identified in the UV-B photolysis ([M+H]+ = 414.3, 417.3, 709.6, 428.9, 608.6, 847.5, 807.4, and 823.6), and eleven by-products were identified in the UV-B/H2O2process ([M+H]+ = 707.4, 414.7, 429.3, 445.3, 608.6, 1052.0, 313.4, 823.6, 357.3, 245.2, and 805.7). Most of the MC-LR by-products had lower [M+H]+values than the MC-LR itself during both processes, except for the [M+H]+value of 1052.0 during UV-B photolysis. Based on identified by-products and peak area patterns, we proposed potential degradation pathways during the two processes. Bond cleavage and intramolecular electron rearrangement by electron pair in the nitrogen atom were the major reactions during UV-B photolysis and UV-B/H2O2processes, and hydroxylation by OH radical and the adduct formation reaction between the produced by-products were identified as additional pathways during the UV-B/H2O2process. Meanwhile, the degradation by-products identified from MC-LR during UV-B/H2O2process can be further degraded by increasing H2O2dose.
By-products; Degradation pathway; LC-MS/MS; Microcystin-LR; UV photolysis; UV/H2O2; Byproducts; Degradation; Free radicals; Liquid chromatography; Mass spectrometry; Photolysis; Degradation pathways; LC-MS/MS; Microcystin-LR; UV photolysis; UV/H2O2; Photodegradation; hydrogen peroxide; hydroxyl radical; microcystin LR; nitrogen; hydrogen peroxide; microcystin; microcystin LR; water pollutant; chemical process; chemical reaction; degradation; electron; hydrogen peroxide; hydroxyl radical; liquid chromatography; mass spectrometry; nitrogen; photolysis; pollutant removal; toxin; ultraviolet radiation; Article; degradation kinetics; electron transport; liquid chromatography-mass spectrometry; photodegradation; photolysis; ultraviolet B radiation; waste component removal; analysis; chemistry; procedures; ultraviolet radiation; water management; water pollutant; Hydrogen Peroxide; Microcystins; Photolysis; Ultraviolet Rays; Water Pollutants; Water Purification