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Eric W Stevens
University of Minnesota, Twin Cities
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- is following 10 new articles in Bailey Lab group journal clubCarbonate sediments in a cool-water macroalgal environment, Kaikoura, New Zealand. REID CATHERINE M. (2011) Sedimentology.Light helps bacteria make important lifestyle decisions. Gomelsky Mark (2011) Trends in Microbiology.Reply to the Discussion by Alex MacNeil on “Microbial mounds prior to the Frasnian-Famennian mass extinctions, Hantang, Guilin, South China” by Shen et al., Sedimentology, 57, 1615-1639. SHEN JIANWEI (2011) Sedimentology.“Microbial mounds prior to the Frasnian-Famennian mass extinctions, Hantang, Guilin, South China” by Shen et al., Sedimentology, 57, 1615-1639: Discussion. MACNEIL ALEX J. (2011) Sedimentology.Biomarkers Reveal Diverse Microbial Communities in Black Smoker Sulfides from Turtle Pits (Mid-Atlantic Ridge, Recent) and Yaman Kasy (Russia, Silurian). Blumenberg Martin (2012) Geomicrobiology Journal.Preservation of protein globules and peptidoglycan in the mineralized cell wall of nitrate-reducing, iron(II)-oxidizing bacteria: a cryo-electron microscopy study. MIOT J. (2011) Geobiology.Palaeontology: Microfossils from early Earth. Javaux Emmanuelle J. (2011) Nature Geosci.The Latemar: A flat-topped, steep fronted platform dominated by microbialites and synsedimentary cements. Marangon A. (2011) Sedimentary Geology.Neutrophilic, Microaerophilic Fe(II)-Oxidizing Bacteria are Ubiquitous in Aquatic Habitats of a Subtropical Australian Coastal Catchment (Ubiquitous FeOB in Catchment Aquatic Habitats). Lin Chaofeng (2012) Geomicrobiology Journal.Acidification of subsurface coastal waters enhanced by eutrophication. Cai Wei-Jun (2011) Nature Geosci.December 3, 2011Login or register to post comments
- is following 7 new articles in To ReadWhat makes a good Sedimentology paper?. Rice Stephen P. (2011) Sedimentology.A model for orbital pacing of methane hydrate destabilization during the Palaeogene. Lunt Daniel J. (2011) Nature Geosci.The effect of relay ramps on sediment routes and deposition: A review. Athmer Wiebke (2011) Sedimentary Geology.Petrography and geochemistry of the magnesites and dolostones of the Ediacaran Ibor Group (635 to 542Ma), Western Spain: Evidences of their hydrothermal origin. Herrero M.J. (2011) Sedimentary Geology.Geological effects and implications of the 2010 tsunami along the central coast of Chile. Morton Robert A. (2011) Sedimentary Geology.Formation of modern dolomite in hypersaline pans of the Western Cape, South Africa. MAUGER CARLA L. (2011) Sedimentology.Photosynthesis versus Exopolymer Degradation in the Formation of Microbialites on the Atoll of Kiritimati, Republic of Kiribati, Central Pacific. Arp Gernot (2012) Geomicrobiology Journal.December 3, 2011Login or register to post comments
- is following 1 new article in To ReadNiche differentiation among mat-forming, sulfide-oxidizing bacteria at cold seeps of the Nile Deep Sea Fan (Eastern Mediterranean Sea). GRÜNKE S. (2011) Geobiology.October 27, 2011Login or register to post comments
- is following 8 new articles in CE 5551Denitrification by sulphur oxidizing Beggiatoa spp. mats on freshwater sediments. Sweerts Jean-Pierre R. A. (1990) Nature.Physiological adaptation of a nitrate-storing Beggiatoa sp. to diel cycling in a phototrophic hypersaline mat. Hinck S (2007) Appl Environ Microbiol.Spatial structure and activity of sedimentary microbial communities underlying a Beggiatoa spp. mat in a Gulf of Mexico hydrocarbon seep. Lloyd KG (2010) PLoS One.Vertical migration of phototrophic bacterial populations in a hypersaline microbial mat from Salins-de-Giraud (Camargue, France). Fourçans Aude (2006) FEMS Microbiology Ecology.Biogeochemistry of Hypersaline Microbial Mats Illustrates the Dynamics of Modern Microbial Ecosystems and the Early Evolution of the Biosphere. Marais David J. Des (2003) Biological Bulletin.Biological and chemical sulfide oxidation in a Beggiatoa inhabited marine sediment. Preisler André (2007) ISME J.Comparative analysis of Beggiatoa from hypersaline and marine environments. de Albuquerque Julia Peixoto (2010) Micron.Biochemistry and molecular biology of lithotrophic sulfur oxidation by taxonomically and ecologically diverse bacteria and archaea. Ghosh Wriddhiman (2009) FEMS Microbiology Reviews.October 24, 2011Login or register to post comments
- is following 5 new articles in To ReadAtmospheric oxygenation caused by a change in volcanic degassing pressure. Gaillard F (2011) Nature.Role of bacterial mats in oxygen-deficient marine basins and coastal upwelling regimes: Preliminary report. Williams, Loretta Ann (1983) Geology.Vacuolated Beggiatoa-like filaments from different hypersaline environments form a novel genus. Hinck Susanne (2011) Environmental Microbiology.Microbiology of ancient and modern hydrothermal systems. Reysenbach Anna-Louise (2001) Trends in Microbiology.Strategies of sulfate-reducing bacteria to escape oxygen stress in a cyanobacterial mat. Krekeler Daniel (1998) FEMS Microbiology Ecology.October 24, 2011Login or register to post comments
- is following 12 new articles in ESCi 5601Wrinkle structures—a critical review. Porada Hubertus (2007) Earth-Science Reviews.Neoproterozoic trace fossils vs. microbial mat structures: Examples from the Tandilia Belt of Argentina. Porada H. (2008) Gondwana Research.Microbially originated wrinkle structures on sandstone and their stratigraphic context: Palaeoproterozoic Koldaha Shale, central India. BANERJEE S (2005) Sedimentary Geology.Kinneyia-Type Wrinkle Structures--Critical Review And Model Of Formation. Porada, Hubertus (2008) PALAIOS.Sedimentary Controls on the Formation and Preservation of Microbial Mats in Siliciclastic Deposits: A Case Study from the Upper Neoproterozoic Nama Group, Namibia. NOFFKE, NORA (2002) PALAIOS.A new window into Early Archean life: Microbial mats in Earth's oldest siliciclastic tidal deposits (3.2 Ga Moodies Group, South Africa). Noffke Nora (2006) Geol.Microbially Induced Sedimentary Structures: A New Category within the Classification of Primary Sedimentary Structures. Noffke N. (2001) Journal of Sedimentary Research.Wrinkle structures: Microbially mediated sedimentary structures common in subtidal siliciclastic settings at the Proterozoic-Phanerozoic transition. Hagadorn, James W. (1997) Geology.Earth's earliest microbial mats in a siliciclastic marine environment (2.9 Ga Mozaan Group, South Africa). Noffke Nora (2003) Geol.Growth of synthetic stromatolites and wrinkle structures in the absence of microbes – implications for the early fossil record. MCLOUGHLIN N. (2008) Geobiology.The Composition, Structure and Erodability of Subtidal Mats, Abaco, Bahamas. A. Conrad Neumann, Conrad D. Gebele (1970) SEPM JSR.Evidence for participation of microbial mats in the deposition of the siliciclastic ‘ore formation’ in the Copperbelt of Zambia. Porada H. (2010) Journal of African Earth Sciences.October 24, 2011Login or register to post comments
- joined the UMN Bailey Geobiology Lab journal club.October 24, 2011
- is following 1 new article in My PublicationsUnderstanding microbialite morphology using a comprehensive suite of three-dimensional analysis tools. Stevens EW (2011) Astrobiology.October 24, 2011Login or register to post comments
- joined JournalFire!October 24, 2011