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| Liu |
Hong |
University of Alberta |
Microsensors for Investigating Microbial Activities of Multispecies Biofilm in Biological Reactor Treating Oil Sands Tailings Water |
| Wesley |
Mary |
University of Alberta |
The Microbial Community of a Biofilm for Treatment of Oil Sands Process Water |
| Wilson |
Sandra |
University of Calgary |
In Situ Substrates for Methane Production and Sulphate Reduction in an Alberta Oil Sands Tailings Pond |
| Golby |
Susanne |
University of Calgary |
An in vitro Mixed Species Biofilm Approach to Culturing Microbes Directly from an Oil Sands Tailings Pond |
| Semple |
Kathy |
University of Alberta |
Analysis of Methanogenic Hydrocarbon-Degrading Cultures Established from Oil Sands Tailings, Using 454 FLX Pyrosequencing |
| Tan |
Boonfei |
University of Alberta |
Linking Phylogeny to Function: Benzyl- and Alkylsuccinate Synthase Gene Homologues in Methanogenic Oil Sands Tailings Enrichment Cultures |
| Li |
Carmen |
University of Alberta |
Analysis of Bacteria and Archaea in Lateral Transects of Two Tailings Ponds Using 16S rRNA Gene Pyrosequencing |
| Oldenburg |
Thomas |
University of Calgary |
Assessing the Effect of Aerobic Microbial Community Changes in Oil Sands Outcrops on Bitumen Molecular Composition |
| Brown |
Damon |
University of Calgary |
Effect of Calcium Ions and Biomass on Sedimentation of Oil Sands Tailings |
| Ramos-Padron |
Esther |
University of Calgary |
Naphthenic Acid Biodegradation by Bacteria Enriched from Oil Sands Tailings Pond Surface Water |
| Abu Laban |
Nidal |
University of Alberta |
Identifying Key Microbes in Methanogenic Hydrocarbon-Degrading Enrichment Cultures from Oil Sands Tailings |
| Chatterjee |
Indranil |
University of Calgary |
Time-dependent Variation in the Anaerobic Microbial Community Structure of an Alberta Oil Sands Tailings Pond as Determined by 16S Pyrosequencing |
| Chatterjee |
Indranil |
University of Calgary |
16S Microbial Community Surveys of Hydrocarbon Resource Environments by Pyrosequencing |
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| Acosta |
Silvia |
Cuban Petroleum Research Center |
Fuel Bacteria Causes Biocorrosion on Metalic Alloys |
| Wakizono |
Ryo |
Kyushu University |
Investigation of Microorganisms in Water-dissolved Natural Gas Fields for Preventing the Well Clogging |
| Bobic |
Vedranka |
INA Oil industry |
The Diesel and Biodiesel Fuel Biodegradation Testing and Microbial Community Fame Differentiation by ir, gc and Raman Spectrometry |
| Hoffmann |
Heike |
Intertek Commercial Microbiology Ltd. |
Laboratory Simulations on the Effect of Various Nitrate Strategies to Control Topside MIC in PWRI Systems |
| Schwermer |
Carsten U. |
Aquateam Norwegian Water Technology Centre AS |
Control of Souring and Microbially Influenced Corrosion in Produced Water Re-injection Systems |
| Zapata-Penasco |
Icoquih |
IMP Mexican Petroleum Institute |
In Situ Description of Corrosive Biofilm with Environmental Scanning Electron Microscopy (ESEM) in Gas Pipelines |
| Kilbane |
John |
Intertek |
Development of Standard Methods for the Analysis of Microbiologically Influenced Corrosion Using the Quantitative Polymerase Chain Reaction |
| Park |
Hyung Soo |
University of Calgary |
Microbially Influenced Corrosion (MIC) in Pipelines Transporting Brackish Water from the Subsurface to a Steam-Assisted Gravity Drainage (SAGD) Plant |
| Zapata-Penasco |
Icoquih |
Mexican Petroleum Institute |
dsrAB and nifD gene Detection of Bacteria Associated with Corrosion in Mexican High Saline Water Injection Pipelines |
| Nilsen |
Glen |
Champion Technologies |
Determination of Successful Fracture Source Water Treatment for the Prevention of MIC and Biogenic Souring |
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| da Silva |
Cynthia |
Unicamp |
Prospection of new genes related to denitrification process of metagenomic libraries from petroleum refinery sludge |
| Le |
Jian jun |
Exploration and Development Research Institute of Daqing Oil Field Company Ltd. |
The Analysis of Microbial Community and Organism Distribution from Polymer Flooding Daqing Oil Reservoirs |
| Abu Laban |
Nidal |
Helmholtz Zentrum München |
Metagenomic and Proteomic Analyses to Elucidate the Mechanism of Anaerobic Benzene Degradation |
| Shestakova |
Natalya M. |
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A Comparison of DNA- and RNA-based Clone Libraries from Formation Water of a High-temperature Petroleum Reservoir |
| Sauret |
Caroline |
Laboratoire d'Océanologie Biologique de Banyuls |
Evaluation of Pure Top-down Effect (Flagellates and Viruses Predation) on Bacterial Community Structure and Hydrocarbonoclastic Activities in a Biostimulation Mesocosm Experiment |
| Nesbø |
Camilla |
University of Alberta |
Detecting Mesophilic Thermotogales Bacteria ("mesotogas") in Enrichment Cultures |
| Silva |
Tiago R. |
CPQBA - Unicamp |
Diversity Analyses of Microbial Communities in Petroleum Samples |
| Keasler |
Vic |
Nalco |
Expanding the Microbial Monitoring Toolkit: Evaluation of Traditional and Molecular Monitoring Methods |
| Gu |
Ji-Dong |
University of Hong Kong |
Production Processes Affect Nitrifying Prokaryotic amoA Gene Abundance and Distribution in High-Temperature Petroleum Reservoirs of China |
| Guo |
Meng Hua |
Exploration and Development Research Institute of Daqing Oil Field Company Ltd. |
The Analysis of Microbial Communities and Organism Distribution of Indigenous Microbe after Polymer Flooding of Daqing Oil Reservoirs |
| Krüger |
Martin |
BGR |
Activity of Methanosarcinales and acetogens in coal and oil reservoirs proven by Stable Isotope Probing |
| Wu |
Xiao-lin |
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The Analysis of Microbial Communities and Organism Distribution of Indigenous Microbe in Polymer Flooding of Daqing Oil Reservoirs |
| Summer |
Elisabeth |
Ecolyse Inc |
Practical Molecular and Metagenomic Applications for the Identification and Quantification of Oilfield Microbes |
| Song |
Young |
University of British Columbia |
Expanded reference trees for investigating C1 transfer reactions in subsurface hydrocarbon reservoirs using MLTreeMap |
| Barnhart |
Elliott |
Montana State University |
Characterization of Subsurface Microbial Communities Within Powder River Basin Coals, United States Associated With Coal-Bed Methane |
| Wang |
Li-Ying |
East China University of Science and Technology |
Molecular Characterization of Archaeal Community Structure in Water-flooding Petroleum Reservoirs with Different Temperature |
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| Yin |
Bei |
The Dow Chemical Company |
Microbial Monitoring during Hydraulic Fracturing using Molecular and Cultivation-dependent Methods |
| Callbeck |
Cameron |
University of Calgary |
Nitrate And Biocide Co-Injection To Break Microbial Zonation In Reservoir-Simulating Bioreactors |
| Johnston |
Shawna |
University of Calgary |
Sulfate Reducing Bacteria Lower Corrosion in Sour Systems with Oxygen Ingress |
| Nengkoda |
Ardian |
Schlumberger |
H2S Trend after Acidizing: Souring Case Study in X Field Southern Oman |
| Dennis |
Mike |
LATA Group, Inc. |
New Method And Apparatus To Improve Nitrate Supply And Economics |
| Agrawal |
Akhil |
Department of Biological Sciences, University of Calgary |
Use Of Nitrate To Control Souring In A Low Temperature Western Canadian Oil Field |
| Galushko |
Alexander |
Vienna University |
Influence of metallic iron on sulfate-reducing bacteria isolated from water-flooded oil field of Absheron Peninsula |
| Rao |
Jyoti |
Modern College of Arts, Science & Commerce, India |
Sulfate-reducing bacteria isolated from an oilfield in India are most closely related to strains of Desulfovibrio from geographically remote oil fields |
| Devine |
Carole |
Intertek Commercial Microbiology |
Investigation Of Effect Of Various Nitrate Treatment Strategies To Control Souring In A Fixed Film Bioreactor System |
| English |
Edward |
Fuel Quality Services |
ULSD Product Quality Cahllenges |
| Enning |
Dennis |
Max Planck Institute for Marine Microbiology |
Severe anaerobic microbial corrosion of iron under biogenic crusts |
| Garrelfs |
Julia |
Max Planck Institute for Marine Microbiology |
Anaerobic microbial corrosion of iron with limiting sulfate |
| De Rezende |
Julia |
Center for Geomicrobiology, Aarhus University |
Detection, Identification and Quantification of Thermophilic Sulfate-Reducing Microorganisms in Cold Seawater and Marine Sediments |
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| She |
Yuehui |
Yangtze University |
Characteriation of Heavy Crude Oil Biodegradation using GC-MS and Fourier Transform Ion Cyclotron Resonance Mass Spectrometry (FT-ICR MS) Techniques |
| Cokar |
Marya |
University of Calgary |
Biogenic Potential of Shale Gas and Processes that Stimulate Methanogenesis in Shales |
| Fowler |
S. Jane |
University of Calgary |
Metabolites and Abiotic Species in a Methanogenic Toluene Degrading Enrichment Culture |
| Mori |
Ryo |
Kyushu University |
Investigation of the Relationship between Microbial Communities and Origin of CH4 in High CO2 Content Oilfield for Post-CCS |
| Folarin |
Yetunde |
University of Calgary |
Effect of Chlorination of Make-up Water on Microbial Growth in an Oil Field |
| Aktas |
Deniz |
University of Oklahoma |
An Analysis of Anaerobic Biodegradation of Next Generation Biofuels and Corrosion |
| Chudetsky |
Mikhail |
Oil and Gas Research Institute, Russian Academy of Sciences |
Isoprenoid Biomarkers and Microbial Transformation of Deep Hydrocarbon Fluid Flows |
| Berdugo-Clavijo |
Carolina |
University of Calgary |
Microbial Conversion of Polycyclic Aromatic Hydrocarbons to Methane |
| Gu |
Ji-Dong |
University of Hong Kong |
Novel Anaerobic Ammonium-oxidizing (anammox) Bacteria Detected in High Temperature Petroleum Reservoirs of China |
| Mbadinga |
Serge Maurice |
East China University of Science and Technology |
Microbial Methane Formation from a Methanogenic, Alkane-degrading Enrichment Culture Established from Production Water of High Temperature Petroleum Reservoir |
| Wang |
Li-Ying |
East China University of Science and Technology |
Microbial Community Shift Correlated With the Carbon Available Enriched from an Oily Sludge Over 1000 Days of Methanogenic Incubation |
| Olajide |
Patience |
Obafemi Awolowo University |
Biosurfactants Production from Pseudomonas aeruginosa 55F Isolated in Oil Rich Niger Delta of Nigeria |
| Kelley |
Joan |
CABI & Conidia Bioscience Ltd. |
Microbial Contamination of Fuels: Molecular Identification of Novel Contaminants |
| Tingsheng |
Xiang |
Yangtze University |
Biodegradation of Crude Oil and Core Simulation Flooding Test for MEOR in Daqing Oilfield |
| Ibrahim |
Maryam L. |
Usmanu Danfodiyo University Sokoto, Nigeria |
Production and Partial Characterization of Biosurfactant Produced by Crude Oil Degrading Bacteria |
| Jaekel |
Ulrike |
Max Planck Institute for Marine Microbiology |
The Degradation Of Propane And Butane By Sulphate Reducing Bacteria |
| Jarzynowska |
Ludwina |
University of Warsaw |
Microbiological and geochemical characterization of microorganisms occuring in oil field waters (SE Poland) |
| Gójska |
Agnieszka |
University of Warsaw |
Microbial characterization of anaerobic consortia's isolated from crude oil (SE Poland) |
| Wolicka |
Dorota |
University of Warsaw |
Application of aerobic bacteria in bioremediation of environments contaminated by BTEX |
| Barrios-San Martín |
Yaima |
Cuban Petroleum Research Center (CEINPET) |
Study and Isolation of Aerobic Hydrocarbon-Degrading Bacteria from a Shoreline in Cuba |
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| Bozorg |
Ali |
University of Calgary |
The Impact of Biofilm Growth on the Flow Properties within a Porous Medium |
| Bozorg |
Ali |
University of Calgary |
A New Modelling Approach to Simulate Biofilm Phase Growth and Evolution in Porous Media |
| Ibrahim |
Lami |
Usmanu Danfodiyo University Sokoto, Nigeria |
Production of Biosurfactants by Crude Oil Degrading Bacteria and Their Possible Use in Recovery of Residual Oil |
| Sugai |
Yuichi |
Kyushu University |
The Prospect of a Novel Oil-Viscosity-Reducing Bacteria for MEOR |
| Purwasena |
Isty |
Kyushu University |
Estimation of the Possibility of MEOR Using a Strain Belonging to the Genus Petrotoga by Investigating Its Habitations in Several Oilfields |
| She |
Yuehui |
Yangtze University |
Investigation of Microbial Communities in Typical Oil Reservoirs with Different Temperatures and Geological Conditions |
| Ezeuko |
Cosmas |
University of Calgary |
The Impact of Biofilm on Porous Media Permeability and Implications for MEOR |
| Kryachko |
Yuriy |
University of Calgary |
Production of Rhamnolipids in Recombinant E. coli as a Possible Approach for Improvement of MEOR and Bioremediation Technologies |
| Lai |
Patrick |
University of Calgary |
Biophysical Characterization and Screening of Biosurfactant Activity in Experiments on vitro Tailing Pond Sedimentation and Enhanced Oil Release from Drilling Cores |
| Brakstad |
Odd Gunnar |
SINTEF Materials and Chemistry, Dept. Marine Environmental Technology |
Enrichment and Characterization of Thermophilic Microbes Growing on Heavy Oils |
| Gudiña |
Eduardo J. |
University of Minho |
Isolation of Biosurfactant-Producing Microorganisms from Oil Samples for Use in Microbial Enhanced Oil Recovery |
| Markussen |
Sidsel |
SINTEF Materials and Chemistry |
Bioconversion of Heavy Oil - Characterization and Screening Microbes Growing on Heavy Oil |
| Pereira |
Jorge F. B. |
CICECO - Chemistry Department, University of Aveiro |
Evaluation of the Potential of Microorganisms Isolated from Brazilian Oils for Microbial Degradation of Heavy Oil |
| Kotlar |
Hans Kristian |
Statoil ASA |
Biocatalytic Conversion of Heavy Oil - Effects on Reservoir Recovery? |
| Tabatabaee |
Mitra Sadat |
Islamic Azad University |
Bacillus Cereus, a Choice for Upgrading Vacuum Distillation Residue |
| Feng |
Qing-xian |
Dagang Oilfield, Petrochina |
Study of Complex Microbial Nutrient and Its Effects on EOR |
| Bordenave |
Sylvain |
University of Calgary |
Structure of Subsurface Microbial Communities and Activities Related to Carbon Capture and Storage |
| Castorena-Cortés |
Gladys |
Instituto Mexicano del Petróleo |
Oil Recovery in Granular Systems by a Mixed Culture Isolated from Mexican Reservoir |
| Huang |
Lin-xin |
China National Petroleum Corporation |
Activation of Stratal Microflora and Physical Simulation Experiments of Microbial Displacement |
| Akbari Noghabi |
Kambiz |
University of Tehran |
A potent biosurfactant-producing bacterium, Pseudomonas aeruginosa MA01 isolated from spoiled apples: Preliminary rheological characteristics of isolated biosurfactant |
| Al-Wahaibi |
Y. |
Sultan Qaboos University |
Effects of Bacillus subtilis Biosurfactant on Surface Properties, Wettability Alteration and Surfactant Adsorption on Sandstone Rocks |
