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Filamentous sulfur bacteria of the genus Thioploca occur as dense mats on the continental shelf off the coast of Chile and Peru. Since little is known about their nitrogen, sulfur, and carbon metabolism, this study was undertaken to investigate their (eco)physiology. Thioploca is able to store internally high concentrations of sulfur globules and nitrate. It has been previously hypothesized that these large vacuolated bacteria can oxidize sulfide by reducing their internally stored nitrate. We examined this nitrate reduction by incubation experiments of washed Thioploca sheaths,vith trichomes in combination with N-15 compounds and mass spectrometry and found that these Thioploca samples produce ammonium at a rate of 1 nmol min(-1) mg of protein(-1). Controls showed no significant activity. Sulfate was shown to be the end product of sulfide oxidation and was observed at a rate of 2 to 3 nmol min(-1) mg of protein(-1). The ammonium and sulfate production rates were not influenced by the addition of sulfide, suggesting that sulfide is first oxidized to elemental sulfur, and in a second independent step elemental sulfur is oxidized to sulfate. The average sulfide oxidation rate measured was 5 nmol min(-1) mg of protein(-1) and could be increased to 10.7 nmol min(-1) mg of protein(-1) after the trichomes were starved for 45 h. Incorporation of (CO2)-C-14 was at a rate of 0.4 to 0.8 nmol min(-1) mg of protein(-1), which is half the rate calculated from sulfide oxidation. [2-C-14]acetate incorporation was 0.4 nmol min(-1) mg of protein(-1), which is equal to the CO2 fixation rate, and no (CO2)-C-14 production was detected. These results suggest that Thioploca species are facultative chemolithoautotrophs capable of mixotrophic growth. Microautoradiography confirmed that Thioploca cells assimilated the majority of the radiocarbon from [2-C-14]acetate, with only a minor contribution by epibiontic bacteria present in the samples.
