Department of Chemistry, University of Minnesota, 207 Pleasant Street SE, Minneapolis, MN 55455, United States.
Environ Sci Technol. 2012 Feb 7;46(3):1590-7. doi: 10.1021/es203836f. Epub 2012 Jan 20.
Humic acids (HAs) accept and donate electrons in many biogeochemical redox reactions at oxic/anoxic interfaces. The products of oxidation of reduced HAs by O(2) are unknown but are expected to yield reactive oxygen species, potentially including hydroxyl radical (·OH). To quantify the formation of ·OH upon oxidation of reduced HAs by O(2), three HAs were reduced electrochemically to well-defined redox states and were subsequently oxidized by O(2) in the presence of the ·OH probe terephthalate. The formation of ·OH upon oxidation increased with increasing extent of HA reduction. The yield of ·OH ranged from 42 to 160 mmol per mole of electrons donated by the reduced HA. The intermediacy of hydrogen peroxide (H(2)O(2)) in the formation of ·OH was supported by enhancement of ·OH formation upon addition of exogenous H(2)O(2) sources and by the suppression of ·OH formation upon addition of catalase as a quencher of endogenous H(2)O(2). The formation of ·OH in the dark during oxidation of reduced HA represents a previously unknown source of ·OH formation at oxic/anoxic interfaces and may affect the biogeochemical and pollutant redox dynamics at these interfaces.
腐殖酸(HA)在好氧/缺氧界面的许多生物地球化学氧化还原反应中接受和提供电子。还原态 HA 被 O(2)氧化的产物未知,但预计会产生反应性氧物种,可能包括羟基自由基(·OH)。为了量化还原态 HA 被 O(2)氧化时·OH 的形成,三种 HA 被电化学还原到明确的氧化还原状态,随后在·OH 探针对苯二甲酸存在下被 O(2)氧化。随着 HA 还原程度的增加,氧化过程中·OH 的形成增加。·OH 的产率范围为每摩尔还原 HA 提供的电子 42 至 160mmol。过氧化氢(H(2)O(2))在·OH 形成中的中间作用得到了支持,即添加外源 H(2)O(2)源会增强·OH 的形成,而添加过氧化氢酶作为内源 H(2)O(2)的淬灭剂会抑制·OH 的形成。还原态 HA 氧化过程中在黑暗中形成·OH 代表了好氧/缺氧界面上·OH 形成的一个以前未知的来源,可能会影响这些界面的生物地球化学和污染物氧化还原动力学。
