Respiration and physiological state in marine bacteria |
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Authors: | J. P. Christensen T. G. Owens A. H. Devol T. T. Packard |
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Affiliation: | (1) Department of Oceanography, WB-10, University of Washington, 98195 Seattle, Washington, USA;(2) Present address: Division of Oceanographic Science, Brookhaven National Laboratory, Associated Universities, Inc., Upton, 11973 Long Island, New York, USA;(3) Present address: College of Fisheries, WH-10, University of Washington, 98195 Seattle, Washington, USA;(4) Present address: Bigelow Laboratory for Ocean Sciences, McKown Point, 04575 West Boothbay Harbor, Maine, USA |
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Abstract: | The relationship between oxygen consumption (R) and respiratory electron-transport-system (ETS) activity was investigated in batch cultures of 5 species of marine bacteria, Vibrio adaptatus, V. anguillarum, a partially identified Vibrio sp. SA774, Serratia marinorubra, and Pseudomonas perfectomarinus. Although cellular levels of R and ETS varied widely among the species tested, the R:ETS ratios for growing or senescent populations were relatively constant among the species; these ratios were 5.02 in growth and 0.426 in senescence, with coefficients of variation of 29 and 20%, respectively. The lower senescent-phase R:ETS ratio was due to a depression of the respiration rates following growth termination. The regression log (R per cell) = 0.832 log (ETS per cell) + 0.727 for the growing populations was similar to that determined for marine zooplankton. The slight dependency of the R:ETS ratio on organism dry weight found for zooplankton was supported by our data. Planktonic respiration rates estimated from measured ETS-depth profiles in the eastern tropical North Pacific Ocean using the senescent-phase R:ETS ratio were similar to published oxygen consumption rates in the deep sea.Contribution No. M79-61 from the University of Washington's Department of Oceanography, and No. 79032 from the Bigelow Laboratory for Ocean Sciences. |
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