2016 - Dupont Industrial Biosciences Award in Applied and Environmental Microbiology, American Society for Microbiology
Joseph M. Suflita mostly deals with Environmental chemistry, Biodegradation, Sulfate, Anoxic waters and Sulfate-reducing bacteria. His biological study spans a wide range of topics, including Metabolite, Microbial biodegradation, Environmental engineering and Microbial metabolism. His Biodegradation study is concerned with Organic chemistry in general.
His Sulfate research integrates issues from Nitrate, Fraction, Methanogenesis and Aquifer. His Sulfate-reducing bacteria study integrates concerns from other disciplines, such as Thiosulfate and Sulfur. Microbiology is closely connected to Desulfomonile in his research, which is encompassed under the umbrella topic of Thiosulfate.
Joseph M. Suflita focuses on Environmental chemistry, Biodegradation, Sulfate, Biochemistry and Sulfate-reducing bacteria. Specifically, his work in Environmental chemistry is concerned with the study of Anoxic waters. The various areas that he examines in his Biodegradation study include Waste management, Hydrocarbon, Electron acceptor and Microbial metabolism.
His Sulfate study combines topics from a wide range of disciplines, such as Organic matter, Environmental engineering, Sulfur, Nuclear chemistry and Mineralogy. His Biochemistry study combines topics in areas such as Microorganism and Microbiology. The concepts of his Microorganism study are interwoven with issues in Bioremediation and Archaea.
His main research concerns Environmental chemistry, Biodegradation, Corrosion, Sulfate and Environmental engineering. His Environmental chemistry research is multidisciplinary, incorporating elements of Ecology, Methanogenesis, Methane, Pitting corrosion and Hydrocarbon. Biodegradation and Profiling are two areas of study in which Joseph M. Suflita engages in interdisciplinary work.
His Corrosion study also includes
His primary scientific interests are in Biochemistry, Environmental chemistry, Microbiology, Methanomicrobiales and Thermophile. His work carried out in the field of Biochemistry brings together such families of science as Sulfide and Microbial population biology. His studies deal with areas such as Ecology, Soil water, Pesticide, Groundwater and Halogenation as well as Environmental chemistry.
His studies examine the connections between Microbiology and genetics, as well as such issues in Metagenomics, with regards to Deltaproteobacteria, Deep sea, Bioremediation, Water pollution and Petroleum. His work deals with themes such as Thiosulfate and Methanogenesis, which intersect with Microorganism. His research on 16S ribosomal RNA frequently links to adjacent areas such as Biodegradation.
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Dehalogenation: a novel pathway for the anaerobic biodegradation of haloaromatic compounds.
Joseph M. Suflita;Amikam Horowitz;Daniel R. Shelton;James M. Tiedje.
Desulfomonile tiedjei gen. nov. and sp. nov., a novel anaerobic, dehalogenating, sulfate-reducing bacterium
Kim A. DeWeerd;Linda Mandelco;Ralph S. Tanner;Carl R. Woese.
Archives of Microbiology (1990)
In-situ evidence for uranium immobilization and remobilization
John M. Senko;Jonathan D. Istok;Joseph M. Suflita;Lee R. Krumholz.
Environmental Science & Technology (2002)
Influence of surfactants on microbial degradation of organic compounds
Joseph D. Rouse;David A. Sabatini;Joseph M. Suflita;Jeffrey H. Harwell.
Critical Reviews in Environmental Science and Technology (1994)
Confined subsurface microbial communities in Cretaceous rock
Lee R. Krumholz;James P. McKinley;Glenn A. Ulrich;Joseph M. Suflita.
Anaerobic biodegradation of known and potential gasoline oxygenates in the terrestrial subsurface
Joseph M. Suflita;Melanie R. Mormile.
Environmental Science & Technology (1993)
Anaerobic Degradation of Benzene in Diverse Anoxic Environments
J. Kazumi;M. E. Caldwell;J. M. Suflita;D. R. Lovley.
Environmental Science & Technology (1997)
Anaerobic Biodegradation of Gasoline Oxygenates: Extrapolation of Information to Multiple Sites and Redox Conditions
Melanie R. Mormile;Shi Liu;Joseph M. Suflita.
Environmental Science & Technology (1994)
Extrapolation of biodegradation results to groundwater aquifers: reductive dehalogenation of aromatic compounds.
S A Gibson;J M Suflita.
Applied and Environmental Microbiology (1986)
Bioenergy Production via Microbial Conversion of Residual Oil to Natural Gas
Lisa M. Gieg;Kathleen E. Duncan;Joseph M. Suflita.
Applied and Environmental Microbiology (2008)
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