Ronald Oremland (Former Employee)
Science and Products
Filter Total Items: 120
Biogeochemical transformations of selenium in anoxic environments Biogeochemical transformations of selenium in anoxic environments
No abstract available.
Authors
Ronald S. Oremland
Isolation, growth, and metabolism of an obligately anaerobic, selenate- respiring bacterium, strain SES-3 Isolation, growth, and metabolism of an obligately anaerobic, selenate- respiring bacterium, strain SES-3
A gram-negative, strictly anaerobic, motile vibrio was isolated from a selenate-respiring enrichment culture. The isolate, designated strain SES-3, grew by coupling the oxidation of lactate to acetate plus CO2 with the concomitant reduction of selenate to selenite or of nitrate to ammonium. No growth was observed on sulfate or selenite, but cell suspensions readily reduced selenite to...
Authors
Ronald S. Oremland, Jodi S. Blum, Charles W. Culbertson, P.T. Visscher, Laurence G. Miller, P. Dowdle, F.E. Strohmaier
Aspects of the biogeochemistry of methane in Mono Lake and the Mono Basin of California Aspects of the biogeochemistry of methane in Mono Lake and the Mono Basin of California
Above-ambient levels of methane and higher hydrocarbons were detected in the atmosphere of the Mono Basin. These gases emanated from several different sources, including natural gas seeps (thermogenic and biogenic), and methanogenic activity in sediments. Seeps were distributed over nearly 33% of the lake bottom and were also present in the exposed former lakebed. They originated from...
Authors
Ronald S. Oremland, Laurence G. Miller, Charles Colbertson, S.W. Robinson, Richard L. Smith, Derek R. Lovley, Michael J. Whiticar, G. King, Ronald P. Kiene, Niels Iversen, Melinda Sargent
Meromixis in hypersaline Mono Lake, California. 3. Biogeochemical response to stratification and overturn Meromixis in hypersaline Mono Lake, California. 3. Biogeochemical response to stratification and overturn
Mono Lake is a terminal, saline lake that became ectogenically meromictic in 1982–1983 and remained stratified until November 1988. During this period, the monimolimnion remained anoxic and nearly isothermal, while the upper mixolimnion was well oxygenated and exhibited a seasonal thermal regime. Dissolved sulfide and methane increased in the monimolimnion as a result of diffusive flux...
Authors
Laurence G. Miller, R. Jellison, Ronald S. Oremland, Charles W. Culbertson
Nitrate is a preferred electron acceptor for growth of freshwater selenate-respiring bacteria Nitrate is a preferred electron acceptor for growth of freshwater selenate-respiring bacteria
An anaerobic, freshwater enrichment grew with either nitrate or selenate as an electron acceptor. With both ions present, nitrate reduction preceded selenate reduction. An isolate from the enrichment grew on either ion, but the presence of nitrate precluded the reduction of selenate. Stock cultures of denitrifiers grew anaerobically on nitrate but not on selenate.
Authors
Nisan A. Steinberg, Jodi Switzer Blum, Lawrence Hochstein, Ronald S. Oremland
Importance of methane-oxidizing bacteria in the methane budget as revealed by the use of a specific inhibitor Importance of methane-oxidizing bacteria in the methane budget as revealed by the use of a specific inhibitor
METHANE is a greenhouse gas whose concentration in the atmosphere is increasing. Much of this methane is derived from the metabolism of methane-generating (methanogenic) bacteria and over the past two decades much has been learned about the ecology of methanogens; specific inhibitors of methanogenesis, such as 2-bromoethanesulphonic acid, have proved useful in this regard. In contrast...
Authors
Ronald S. Oremland, Charles W. Culbertson
Science and Products
Filter Total Items: 120
Biogeochemical transformations of selenium in anoxic environments Biogeochemical transformations of selenium in anoxic environments
No abstract available.
Authors
Ronald S. Oremland
Isolation, growth, and metabolism of an obligately anaerobic, selenate- respiring bacterium, strain SES-3 Isolation, growth, and metabolism of an obligately anaerobic, selenate- respiring bacterium, strain SES-3
A gram-negative, strictly anaerobic, motile vibrio was isolated from a selenate-respiring enrichment culture. The isolate, designated strain SES-3, grew by coupling the oxidation of lactate to acetate plus CO2 with the concomitant reduction of selenate to selenite or of nitrate to ammonium. No growth was observed on sulfate or selenite, but cell suspensions readily reduced selenite to...
Authors
Ronald S. Oremland, Jodi S. Blum, Charles W. Culbertson, P.T. Visscher, Laurence G. Miller, P. Dowdle, F.E. Strohmaier
Aspects of the biogeochemistry of methane in Mono Lake and the Mono Basin of California Aspects of the biogeochemistry of methane in Mono Lake and the Mono Basin of California
Above-ambient levels of methane and higher hydrocarbons were detected in the atmosphere of the Mono Basin. These gases emanated from several different sources, including natural gas seeps (thermogenic and biogenic), and methanogenic activity in sediments. Seeps were distributed over nearly 33% of the lake bottom and were also present in the exposed former lakebed. They originated from...
Authors
Ronald S. Oremland, Laurence G. Miller, Charles Colbertson, S.W. Robinson, Richard L. Smith, Derek R. Lovley, Michael J. Whiticar, G. King, Ronald P. Kiene, Niels Iversen, Melinda Sargent
Meromixis in hypersaline Mono Lake, California. 3. Biogeochemical response to stratification and overturn Meromixis in hypersaline Mono Lake, California. 3. Biogeochemical response to stratification and overturn
Mono Lake is a terminal, saline lake that became ectogenically meromictic in 1982–1983 and remained stratified until November 1988. During this period, the monimolimnion remained anoxic and nearly isothermal, while the upper mixolimnion was well oxygenated and exhibited a seasonal thermal regime. Dissolved sulfide and methane increased in the monimolimnion as a result of diffusive flux...
Authors
Laurence G. Miller, R. Jellison, Ronald S. Oremland, Charles W. Culbertson
Nitrate is a preferred electron acceptor for growth of freshwater selenate-respiring bacteria Nitrate is a preferred electron acceptor for growth of freshwater selenate-respiring bacteria
An anaerobic, freshwater enrichment grew with either nitrate or selenate as an electron acceptor. With both ions present, nitrate reduction preceded selenate reduction. An isolate from the enrichment grew on either ion, but the presence of nitrate precluded the reduction of selenate. Stock cultures of denitrifiers grew anaerobically on nitrate but not on selenate.
Authors
Nisan A. Steinberg, Jodi Switzer Blum, Lawrence Hochstein, Ronald S. Oremland
Importance of methane-oxidizing bacteria in the methane budget as revealed by the use of a specific inhibitor Importance of methane-oxidizing bacteria in the methane budget as revealed by the use of a specific inhibitor
METHANE is a greenhouse gas whose concentration in the atmosphere is increasing. Much of this methane is derived from the metabolism of methane-generating (methanogenic) bacteria and over the past two decades much has been learned about the ecology of methanogens; specific inhibitors of methanogenesis, such as 2-bromoethanesulphonic acid, have proved useful in this regard. In contrast...
Authors
Ronald S. Oremland, Charles W. Culbertson