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Abstract
Measurable changes occurred in the electrical impedance of growing cultures of Desuljovibrio aestuarii as compared with sterile media. The ratio of these changes (electrical impedance ratio, RI ) was measured continuously using a Bactometer 32, a magnetic tape recorder, and a computer for data retrieval. The rate of sulfate reduction correlated with the rate of change in RI in D. aestuarii cultures and sediment slurries from San Francisco Bay. Both sulfide and iron were required for maximal RI response. Molybdate (5–20 mM) totally inhibited both sulfate reduction and changes in RI in D. aestuarii cultures. Molybdate (20 mM) completely inhibited sulfate reduction in sediment slurries as measured by the impedance ratio technique or 35SO4 2‐ reduction. Sulfate reduction in sediment slurries was stimulated by lactate but not by formate, acetate, or pyruvate. The rates of sulfate reduction in San Francisco Bay sediment, estimated in vitro by the impedance ratio technique, ranges from 0.85 to 1.78 mmol/liter/lbday and compared favorably with estimates made by 33SO4 2‐ reduction.
Notes
Present address: Water Resources Division, U.S. Geological Survey, 345 Middlefield Road, Menlo Park, California 94025.
