Degradation of atrazine by manganese-catalysed ozonation - Influence of radical scavengers

The effect of radical scavengers such as bicarbonate and tert-butanol on th e Mn-II catalysed ozonation of atrazine, an important herbicide and well-es tablished radical probe substance, was studied using a conventional gas bub ble-contacting column. It was found that the presence of a small amount of Mn-II (0.3-1.2 mg/l) greatly increased the degradation rate of atrazine, wi th the formation of byproduct compounds of a lower molecular weight and a g reater polarity (as indicated by shorter retention times in HPLC chromatogr aphy). However, the presence of either bicarbonate or tert-butanol had a ne gative effect on the degradation of atrazine. With an increase of bicarbona te concentration, the oxidation rate of atrazine by Mn-II-catalysed ozone w as substantially reduced and a correspondingly higher residual ozone was ob served. In the presence of tert-butanol, greater reductions of the degradat ion rate of atrazine were observed and the decomposition of ozone was great ly retarded, resulting in a higher residual ozone; this was the case for ei ther ozone oxidation alone or Mn-II catalysed ozone oxidation. These result s appear to confirm that the degradation of atrazine by ozone in the presen ce of Mn-II follows a radical mechanism. It is believed that Mn-II catalyse s the decomposition of ozone through the formation of intermediate manganes e species (such as Mn-IV), leading to the generation of hydroxyl radicals. (C) 2000 Elsevier Science Ltd. All rights reserved.