Photo-reduction of divalent mercury(Hg(II)) in aquatic systems plays a key role in global biogeochemistry cycling of mercury(Hg) in the Earth's surface environment. The mechanisms of this process with various Clconcentrations([Cl-]) under different pH values and irradiation wavelength ranges are still unclear. In this work,photo-reduction and photo-oxidation experiments of Hg with different [Cl-] and pH values under various light conditions were conducted. The results show that photoreduction rate constants of Hg(II) decrease with the increasing of [Cl-] in neutral solution under full light spectrum. Photo-reduction rate constants of Hg(II) with Cl-is highly dependent on Hg(II) species, which is determined by [Cl-] and pH value. Irradiation wavelength ranges have significant effects on reaction processes of photo-reduction of Hg(II) and photo-oxidation of Hg(0) in the presence of Cl-. When cut off ultraviolet(UV) radiation(280–400 nm), the reduction rate constants decrease without Cl-, and increase with higher [Cl-], and the photooxidation rates of Hg(0) decrease with or without Cl-.Except Cl-complexation stabilize the reducible Hg ions in solutions, photo-oxidation is an important reason for Cllowering photo-reduction rate of Hg(II). The results are of great importance for understanding the photo-redox characters of Hg(II) with Cl-.
