First Last Primary affiliation C-DEBI Theme Area of Expertise BiogeoChemistry | Phosphorus CyCling | Isotope GeoChemistry | Theme 1: ACtivity in the deep subseafloor PaleoClimatology | Sulfur CyCling | Nitrogen CyCling | Methane Adina Paytan UC Santa Cruz biosphere Hydrates | PaleoClimatology | BiogeoChemistry | Hydrothermal MiCrobiology | Methanogenesis | MiCrobial ECology | MoleCular Biology | Thermophiles + Hyperthermophiles | Sulfur CyCling | GeomiCrobiology | Methane Andreas Teske UNC Chapel Hill Theme 1: Extent of life seeps Theme 1: ACtivity in the deep subseafloor biosphere | Theme 2: Extent of life | Theme BioChemistry | Hydrogeology | Nitrogen CyCling | Water-roCk Andrew Fisher UC Santa Cruz 3: Limits of life interactions | InstrumentationWater resourCes BiogeoChemistry | GenomiCs | Marine MyCology | MiCrobial ECology Theme 1: ACtivity in the deep subseafloor | MoleCular Biology | Soil MiCrobial ECology | Sulfur CyCling | Brandi Reese University of Southern California biosphere | Theme 2: Extent of life Geomicrobiology | BiogeoChemistry | Biofilms | Hydrothermal MiCrobiology | MiCrobial ECology | Phosphorus CyCling | Thermophiles + Hyperthermophiles | EleCtroChemistrySulfur CyCling | Nitrogen CyCling | GeomiCrobiology | Theme 1: ACtivity in the deep subseafloor Water-roCk interactions | AquatiC RobotiCsOCean ResourCes Brian Glazer University of Hawaii biosphere | Theme 3: Limits of life EngineeringInstrumentation Hydrothermal MiCrobiology | MiCrobial ECology | MiCrobial Evolution Craig Moyer Western Washington University Theme 4: Evolution and survival | GeomiCrobiology | PaleomiCrobiology | Mapping | miCrobial mats Theme 1: ACtivity in the deep subseafloor Hydrogeology | Isotope GeoChemistry | PaleoClimatology | Sulfur biosphere | Theme 2: Extent of life | Theme CyCling | Mineralogy | PaleoClimatology | Basalt alternation | Water- Damon Teagle University of Southampton 3: Limits of life roCk interactions | Mapping | Hydrogeology | Isotope GeoChemistry | Water-roCk interactions | Theme 1: ACtivity in the deep subseafloor AquatiC RobotiCsOCean ResourCes EngineeringInstrumentationMapping Geoffrey Wheat University of Alaska Fairbanks biosphere | Theme 3: Limits of life | BioChemistry | BiogeoChemistry | GenomiCs | Marine MyCology | MiCrobial ECology | MiCrobial Evolution | MiCrobial Physiology | Theme 1: ACtivity in the deep subseafloor MoleCular Biology | Soil MiCrobial ECology | Sulfur CyCling | Nitrogen biosphere | Theme 2: Extent of life | Theme CyCling | GeomiCrobiology | Methane Hydrates | Basalt alternation | Heath Mills Texas A&M University 3: Limits of life Methane seeps Theme 1: ACtivity in the deep subseafloor BioenergetiCs | BiogeoChemistry | Hydrothermal MiCrobiology | biosphere | Theme 2: Extent of life | Theme Methanogenesis | MiCrobial Physiology | Thermophiles + James Holden University of Massachusetts Amherst 3: Limits of life Hyperthermophiles | GeomiCrobiology | Mineralogy | BioenergetiCs | BiogeoChemistry | Hydrothermal MiCrobiology | Methanogenesis | MiCrobial ECology | MiCrobial Physiology | Theme 1: ACtivity in the deep subseafloor Thermophiles + Hyperthermophiles | Sulfur CyCling | Water-roCk Jan Amend University of Southern California biosphere | Theme 3: Limits of life interactions | BiogeoChemistry | Cyanobacteria | GenomiCs | MiCrobial ECology | Janet Siefert RiCe University Theme 4: Evolution and survival MiCrobial Evolution | PaleoeCology | BiogeoChemistry | GenomiCs | Hydrothermal MiCrobiology | Theme 1: ACtivity in the deep subseafloor MiCrobial ECology | MoleCular Biology | Phosphorus CyCling | Sulfur Jason Sylvan University of Southern California biosphere | Theme 2: Extent of life CyCling | Nitrogen CyCling | GeomiCrobiology | Basalt alternation | BioChemistry | BiogeoChemistry | GenomiCs | Hydrothermal Theme 1: ACtivity in the deep subseafloor MiCrobiology | Marine MyCology | Methanogenesis | MiCrobial biosphere | Theme 2: Extent of life | Theme ECology | MoleCular Biology | Isotope GeoChemistry | Jennifer Biddle University of Delaware 4: Evolution and survival GeomiCrobiology | PaleomiCrobiology | Methane seeps BiogeoChemistry | Biofilms | Hydrothermal MiCrobiology | Methanogenesis | MiCrobial ECology | MiCrobial Evolution | Theme 1: Extent of life | Theme 3: Limits of MiCrobial Physiology | MoleCular Biology | Thermophiles + John Spear Colorado SChool of Mines life Hyperthermophiles | Viruses | GeomiCrobiology | AquatiC RobotiCs Theme 1: ACtivity in the deep subseafloor biosphere | Theme 2: Extent of life | Theme Marine MyCology | Methanogenesis | MiCrobial ECology | MiCrobial 3: Limits of life | Theme 4: Evolution and Evolution | MoleCular Biology | Thermophiles + Hyperthermophiles | Julie Huber Marine BiologiCal Laboratory survival Sulfur CyCling | BioenergetiCs | BiogeoChemistry | GenomiCs | Hydrothermal MiCrobiology | Methanogenesis | MiCrobial ECology | MiCrobial Evolution | MiCrobial Physiology | MoleCular Biology | Thermophiles + Hyperthermophiles | Isotope GeoChemistry | Sulfur CyCling | Karen Lloyd University of Tennessee Theme 1: Extent of life GeomiCrobiology | Methane Hydrates | Methane seeps BioChemistry | BioenergetiCs | BiogeoChemistry | Biofilms | Theme 1: Extent of life: Limits of life | GenomiCs | MiCrobial ECology | MoleCular Biology | GeomiCrobiology Kenneth Nealson University of Southern California Theme 4: Evolution and survival | Theme 1: ACtivity in the deep subseafloor biosphere | Theme 2: Extent of life | Theme Biofilms | Hydrothermal MiCrobiology | MiCrobial ECology | MiCrobial 3: Limits of life | Theme 4: Evolution and Evolution | MiCrobial Physiology | PiezophilesThermophiles + Matt Schrenk East Carolina University survival Hyperthermophiles | GeomiCrobiology | Water-roCk interactions | Theme 1: ACtivity in the deep subseafloor biosphere | Theme 2: Extent of life | Theme GenomiCs | MiCrobial ECology | MiCrobial Evolution | MiCrobial MiChael Rappe University of Hawaii at Manoa 4: Evolution and survival Physiology | BiogeoChemistry | Hydrogeology | Isotope GeoChemistry | Nitrogen Natasha Dimova University of Alabama CyCling | Water-roCk interactions | Hydrogeology | Isotope GeoChemistry | Mineralogy | Basalt Theme 1: ACtivity in the deep subseafloor alternation | Water-roCk interactions | Mapping | struCtural geology NiCholas Hayman University of Texas biosphere | petrology | geophysiCs Theme 1: ACtivity in the deep subseafloor MiCrobial ECology | MiCrobial Evolution | MiCrobial Physiology | Rajesh Sani South Dakota SChool of Mines and TeChnologybiosphere Geomicrobiology | Theme 1: ACtivity in the deep subseafloor Rob PoCkalny URI Graduate SChool of OCeanography biosphere BiogeoChemistry | Mapping | BioenergetiCs | BiogeoChemistry | GenomiCs | Methanogenesis | Theme 1: ACtivity in the deep subseafloor MiCrobial ECology | MiCrobial Evolution | MoleCular Biology | Isotope biosphere | Theme 2: Extent of life | Theme GeoChemistry | PaleoClimatology | Sulfur CyCling | Nitrogen CyCling | 3: Limits of life | Theme 4: Evolution and GeomiCrobiology | PaleoClimatology | PaleoeCology | Basalt Steven D'Hondt University of Rhode Island survival alternation | Water-roCk interactions | Biofilms | GenomiCs | Hydrothermal MiCrobiology | Methanogenesis Theme 1: Extent of life | Theme 4: Evolution | MiCrobial ECology | MiCrobial Evolution | Thermophiles + William Brazelton East Carolina University and survival Hyperthermophiles |.