Production and Consumption of Hydrogen in a Eutrophic Lake

Abstract

The vertical distribution of H2 was measured in the Loclat, a eutrophic and holomictic lake near Neuchatel, Switzerland, before and during summer stratification. H2 concentrations decreased with depth in the anaerobic hypolimnion and were often below the detection limit (2.5 nl of H2 l-1) in the water adjacent to the lake sediment. H2 was apparently not released from the lake sediment. The highest H2 concentrations (> 4 .mu.l of H2 l-1) were observed in the aerobic water of the epilimnion and metalimnion. There, the H2 concentrations changed with time, indicating a turnover of H2. The H2 production processes could not be studied in the laboratory since incubation of water samples in light or darkness did not result in H2 production but rather always in H2 consumption. The possible role of cyanobacteria and algae for H2 production is discussed. Aerobic or anaerobic H2 consumption activities were observed at all depths of the water column, with highest activities in the hypolimnion. Aerobic H2 consumption activity was insensitive to azide inhibition, but sensitive to heat, mercuric chloride or cyanide. It was restricted to a particle fraction of 0.2-3.0 .mu.m in size, so that it must be due to single bacterial cells. Aerobic hydrogen bacteria occurred in clusters of > 3.0 .mu.m. The hydrogen bacteria could not have caused the H2 consumption in lake water. The aerobic H2 consumption activity followed Michaelis-Menten kinetics, with a Km of 67 nM H2. This is an exceptionally low value compared with Km values of hydrogenases in hydrogen bacteria and other species, but is similar to that for H2-decomposing abiontic soil hydrogenases.