Ronald Oremland (Former Employee)
Science and Products
Filter Total Items: 120
Arsenic and selenium in microbial metabolism Arsenic and selenium in microbial metabolism
Arsenic and selenium are readily metabolized by prokaryotes, participating in a full range of metabolic functions including assimilation, methylation, detoxification, and anaerobic respiration. Arsenic speciation and mobility is affected by microbes through oxidation/reduction reactions as part of resistance and respiratory processes. A robust arsenic cycle has been demonstrated in...
Authors
John F. Stolz, Partha Basu, Joanne M. Santini, Ronald S. Oremland
Arsenic, microbes and contaminated aquifers Arsenic, microbes and contaminated aquifers
The health of tens of millions of people world-wide is at risk from drinking arsenic-contaminated well water. In most cases this arsenic occurs naturally within the sub-surface aquifers, rather than being derived from identifiable point sources of pollution. The mobilization of arsenic into the aqueous phase is the first crucial step in a process that eventually leads to human...
Authors
Ronald S. Oremland, John F. Stolz
Genus sulfurospirillum Genus sulfurospirillum
No abstract available.
Authors
J.F. Stolz, Ronald S. Oremland, B.J. Paster, F.E. Dewhirst, P. Vandamme
Aminobacter ciceronei sp. nov. and Aminobacter lissarensis sp. nov., isolated from various terrestrial environments Aminobacter ciceronei sp. nov. and Aminobacter lissarensis sp. nov., isolated from various terrestrial environments
The bacterial strains IMB-1T and CC495T, which are capable of growth on methyl chloride (CH3Cl, chloromethane) and methyl bromide (CH3Br, bromomethane), were isolated from agricultural soil in California fumigated with CH3Br, and woodland soil in Northern Ireland, respectively. Two pesticide-/herbicide-degrading bacteria, strains ER2 and C147, were isolated from agricultural soil in...
Authors
I.R. McDonald, P. Kampfer, E. Topp, K.L. Warner, M.J. Cox, Hancock T.L. Connell, L.G. Miller, M.J. Larkin, V. Ducrocq, C. Coulter, D.B. Harper, J.C. Murrell, R.S. Oremland
Microbiology: A microbial arsenic cycle in a salt-saturated, extreme environment Microbiology: A microbial arsenic cycle in a salt-saturated, extreme environment
Searles Lake is a salt-saturated, alkaline brine unusually rich in the toxic element arsenic. Arsenic speciation changed from arsenate [As(V)] to arsenite [As(III)] with sediment depth. Incubated anoxic sediment slurries displayed dissimilatory As(V)-reductase activity that was markedly stimulated by H2 or sulfide, whereas aerobic slurries had rapid As(III)-oxidase activity. An anaerobic
Authors
R.S. Oremland, T.R. Kulp, J.S. Blum, S.E. Hoeft, S. Baesman, L.G. Miller, J.F. Stolz
Whither or wither geomicrobiology in the era of 'community metagenomics' Whither or wither geomicrobiology in the era of 'community metagenomics'
Molecular techniques are valuable tools that can improve our understanding of the structure of microbial communities. They provide the ability to probe for life in all niches of the biosphere, perhaps even supplanting the need to cultivate microorganisms or to conduct ecophysiological investigations. However, an overemphasis and strict dependence on such large information-driven...
Authors
R.S. Oremland, D.G. Capone, J.F. Stolz, J. Fuhrman
Science and Products
Filter Total Items: 120
Arsenic and selenium in microbial metabolism Arsenic and selenium in microbial metabolism
Arsenic and selenium are readily metabolized by prokaryotes, participating in a full range of metabolic functions including assimilation, methylation, detoxification, and anaerobic respiration. Arsenic speciation and mobility is affected by microbes through oxidation/reduction reactions as part of resistance and respiratory processes. A robust arsenic cycle has been demonstrated in...
Authors
John F. Stolz, Partha Basu, Joanne M. Santini, Ronald S. Oremland
Arsenic, microbes and contaminated aquifers Arsenic, microbes and contaminated aquifers
The health of tens of millions of people world-wide is at risk from drinking arsenic-contaminated well water. In most cases this arsenic occurs naturally within the sub-surface aquifers, rather than being derived from identifiable point sources of pollution. The mobilization of arsenic into the aqueous phase is the first crucial step in a process that eventually leads to human...
Authors
Ronald S. Oremland, John F. Stolz
Genus sulfurospirillum Genus sulfurospirillum
No abstract available.
Authors
J.F. Stolz, Ronald S. Oremland, B.J. Paster, F.E. Dewhirst, P. Vandamme
Aminobacter ciceronei sp. nov. and Aminobacter lissarensis sp. nov., isolated from various terrestrial environments Aminobacter ciceronei sp. nov. and Aminobacter lissarensis sp. nov., isolated from various terrestrial environments
The bacterial strains IMB-1T and CC495T, which are capable of growth on methyl chloride (CH3Cl, chloromethane) and methyl bromide (CH3Br, bromomethane), were isolated from agricultural soil in California fumigated with CH3Br, and woodland soil in Northern Ireland, respectively. Two pesticide-/herbicide-degrading bacteria, strains ER2 and C147, were isolated from agricultural soil in...
Authors
I.R. McDonald, P. Kampfer, E. Topp, K.L. Warner, M.J. Cox, Hancock T.L. Connell, L.G. Miller, M.J. Larkin, V. Ducrocq, C. Coulter, D.B. Harper, J.C. Murrell, R.S. Oremland
Microbiology: A microbial arsenic cycle in a salt-saturated, extreme environment Microbiology: A microbial arsenic cycle in a salt-saturated, extreme environment
Searles Lake is a salt-saturated, alkaline brine unusually rich in the toxic element arsenic. Arsenic speciation changed from arsenate [As(V)] to arsenite [As(III)] with sediment depth. Incubated anoxic sediment slurries displayed dissimilatory As(V)-reductase activity that was markedly stimulated by H2 or sulfide, whereas aerobic slurries had rapid As(III)-oxidase activity. An anaerobic
Authors
R.S. Oremland, T.R. Kulp, J.S. Blum, S.E. Hoeft, S. Baesman, L.G. Miller, J.F. Stolz
Whither or wither geomicrobiology in the era of 'community metagenomics' Whither or wither geomicrobiology in the era of 'community metagenomics'
Molecular techniques are valuable tools that can improve our understanding of the structure of microbial communities. They provide the ability to probe for life in all niches of the biosphere, perhaps even supplanting the need to cultivate microorganisms or to conduct ecophysiological investigations. However, an overemphasis and strict dependence on such large information-driven...
Authors
R.S. Oremland, D.G. Capone, J.F. Stolz, J. Fuhrman