Factors affecting the formation and oxidation of sulphides in a polluted estuary

Factors affecting the formation and destruction of sulphide in the Thames Estuary have been discussed. Measurements of oxidation-reduction potentials show that the effect of oxygen in the water on conditions in deposits of mud is limited to the surface layer. The rate of formation of sulphide increases with temperature, doubling approximately for each 10° C. rise. Reduction of sulphate to sulphide will occur at temperatures as low as 5° C., but even at 25° C. is inhibited by traces of dissolved oxygen. Mud in suspension in the estuary can produce as much sulphide as compact layers of similar mud which might be more anaerobic.Oxidation of sulphide in the Thames Estuary is shown to be of a purely chemical nature; the rate of oxidation, when oxygen is present, is increased by the presence of suspended matter and iron. In the Thames Estuary, however, the rate is limited by the rate at which oxygen enters the water.Much of the experimental work described in this paper was carried out by Miss A. Laird, Mr A. E. Sutton and Mr R. B. Peel of this Laboratory. The paper is published by permission of the Department of Scientific and Industrial Research.

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Simultaneous Measurement of Dissolved Oxygen and Oxidation-Reduction Potentials in the Aerobic Culture

Agricultural and Biological Chemistry ◽

10.1080/00021369.1974.10861538 ◽

1974 ◽

Vol 38 (12) ◽

pp. 2407-2411

Author(s):

Hiroshiro Shibai ◽

Ayaaki Ishizaki ◽

Kaetsu Kobayashi ◽

Yoshio Hirose

Keyword(s):

Dissolved Oxygen ◽

Simultaneous Measurement ◽

Reduction Potentials ◽

Aerobic Culture ◽

Oxidation Reduction

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THE OXIDATION-REDUCTION POTENTIAL OF THE LUCIFERIN-OXYLUCIFERIN SYSTEM

The Journal of General Physiology ◽

10.1085/jgp.10.3.385 ◽

1927 ◽

Vol 10 (3) ◽

pp. 385-393 ◽

Cited By ~ 5

Author(s):

E. Newton Harvey

Keyword(s):

Dissolved Oxygen ◽

Reduction Potential ◽

Water Solution ◽

Considerable Reduction ◽

Reduction Potentials ◽

Oxidation Reduction ◽

Oxidation Reduction Potential ◽

Apparent Reduction ◽

Reduction And Oxidation

The oxidation-reduction potential of the Cypridina luciferin-oxyluciferin system determined by a method of "bracketing" lies somewhere between that of anthraquinone 2-6-di Na sulfonate (Eo' at pH of 7.7 = –.22) which reduces luciferin, and quinhydrone (Eo' at pH of 7.7 = +.24), which oxidizes luciferin. Systems having an Eo' value between –.22 and +.24 volt neither reduce oxyluciferin nor oxidize luciferin. If the luciferin-oxyluciferin system were truly reversible considerable reduction and oxidation should occur between –.22 and +.24. The system appears to be an irreversible one, with both "apparent oxidation" and "apparent reduction potentials" in Conant's sense. Hydrosulfites, sulfides, CrCl2, TiCl3, and nascent hydrogen reduce oxyluciferin readily in absence of oxygen but without luminescence. Luminescence only appears in water solution if luciferin is oxidized by dissolved oxygen in presence of luciferase. Rapid oxidation of luciferin by oxygen without luciferase or oxidation by K3Fe(CN)6 in presence of luciferase but without oxygen never gives luminescence.

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