Skip to Main Content
Skip Nav Destination

Progression of methanogenic degradation of crude oil in the subsurface

Environmental Geosciences (2005) 12 (2): 139–152.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
Response to Podgorski and Bekins's comments on Zemo et al. (2022)
Aquatic Toxicology (2023) 265: 106758.
Effects of freeze-thaw cycles on methanogenic hydrocarbon degradation: Experiment and modeling
Chemosphere (2023) 325: 138405.
The long-term fate of saturates and biomarkers within crude oil spilled during the Baffin Island Oil Spill (BIOS) Project
Marine Pollution Bulletin (2023) 194: 115276.
Towards a digital twin for characterising natural source zone depletion: A feasibility study based on the Bemidji site
Water Research (2022) 208: 117853.
Multiple Lines of Evidence for Estimating NSZD Rates Overlying a Shallow LNAPL Source Zone
Groundwater Monitoring & Remediation (2022) 42 (3): 86.
Understanding the Evolution of Groundwater‐Contaminant Plume Chemistry Emanating from Legacy Contaminant Sources: An Example from a Long‐Term Crude Oil Spill
Groundwater Monitoring & Remediation (2022) 42 (4): 30.
Microbially Induced Anaerobic Oxidation of Magnetite to Maghemite in a Hydrocarbon‐Contaminated Aquifer
Journal of Geophysical Research: Biogeosciences (2022) 127 (4)
Natural Source Zone Depletion (NSZD) Quantification Techniques: Innovations and Future Directions
Sustainability (2022) 14 (12): 7027.
Orbitrap ESI-MS evaluation of solvent extractable organics from a crude oil release site
Journal of Contaminant Hydrology (2021) 242: 103855.
Quantifying natural source zone depletion at petroleum hydrocarbon contaminated sites: A comparison of 14C methods
Journal of Contaminant Hydrology (2021) 240: 103795.
Impacts of water table fluctuations on actual and perceived natural source zone depletion rates
Journal of Contaminant Hydrology (2021) 238: 103771.
Influence of Ambient Temperature, Precipitation, and Groundwater Level on Natural Source Zone Depletion Rates at a Large Semiarid LNAPL Site
Groundwater Monitoring & Remediation (2019) 39 (1): 54.
Natural source zone depletion of LNAPL: A critical review supporting modelling approaches
Water Research (2019) 157: 630.
Deciphering the biodegradation of petroleum hydrocarbons using FTIR spectroscopy: application to a contaminated site
Water Science and Technology (2019) 80 (7): 1315.
Biodegradation Kinetics of Benzene and Naphthalene in the Vadose and Saturated Zones of a (Semi)-arid Saline Coastal Soil Environment
Geofluids (2019) 2019: 1.
Relative contributions of microbial and infrastructure heat at a crude oil-contaminated site
Journal of Contaminant Hydrology (2018) 211: 94.
Weathering of Oil in a Surficial Aquifer
Groundwater (2018) 56 (5): 797.
Fate and behavior of oil sands naphthenic acids in a pilot-scale treatment wetland as characterized by negative-ion electrospray ionization Orbitrap mass spectrometry
Science of The Total Environment (2018) 631-632: 829.
Multi-year CO2 efflux measurements for assessing natural source zone depletion at a large hydrocarbon-impacted site
Journal of Contaminant Hydrology (2018) 219: 50.
Infiltration of Sulfate to Enhance Sulfate‐Reducing Biodegradation of Petroleum Hydrocarbons
Groundwater Monitoring & Remediation (2018) 38 (4): 73.
Effects of crude oil on water and tracer movement in the unsaturated and saturated zones
Journal of Contaminant Hydrology (2017) 200: 49.
Field‐scale observations of a transient geobattery resulting from natural attenuation of a crude oil spill
Journal of Geophysical Research: Biogeosciences (2017) 122 (4): 918.
A mass balance approach to investigate arsenic cycling in a petroleum plume
Environmental Pollution (2017) 231: 1351.
Land Application of Sulfate Salts for Enhanced Natural Attenuation of Benzene in Groundwater: A Case Study
Groundwater Monitoring & Remediation (2017) 37 (2): 43.
Overview of Natural Source Zone Depletion: Processes, Controlling Factors, and Composition Change
Groundwater Monitoring & Remediation (2017) 37 (3): 62.
Promising approaches to the purification of soils and groundwater from hydrocarbons (A Review)
Eurasian Soil Science (2016) 49 (6): 705.
Seasonal Variability in Vadose Zone Biodegradation at a Crude Oil Pipeline Rupture Site
Vadose Zone Journal (2016) 15 (5): 1.
Documentation of time-scales for onset of natural attenuation in an aquifer treated by a crude-oil recovery system
Science of The Total Environment (2015) 512-513: 62.
Laboratory simulation of the successive aerobic and anaerobic degradation of oil products in oil-contaminated high-moor peat
Eurasian Soil Science (2015) 48 (3): 314.
Relating subsurface temperature changes to microbial activity at a crude oil-contaminated site
Journal of Contaminant Hydrology (2015) 182: 183.
Fingerprinting and Groundwater Model Application to Evaluate Hydraulic Barrier Efficiency (Italy)
Environmental Forensics (2015) 16 (3): 217.
Comparison of Source Zone Natural Attenuation Rates At Crude Oil and Ethanol–Blended Fuel Release Sites
Bioremediation Journal (2015) 19 (3): 218.
Reactive transport modeling of geochemical controls on secondary water quality impacts at a crude oil spill site near Bemidji, MN
Water Resources Research (2015) 51 (6): 4156.
Progressive Degradation of Crude Oil n-Alkanes Coupled to Methane Production under Mesophilic and Thermophilic Conditions
PLoS ONE (2014) 9 (11): e113253.
Does phosphate enhance the natural attenuation of crude oil in groundwater under defined redox conditions?
Journal of Contaminant Hydrology (2014) 169: 4.
Fate of injected CO 2 in the Wilcox Group, Louisiana, Gulf Coast Basin: Chemical and isotopic tracers of microbial–brine–rock–CO 2 interactions
Applied Geochemistry (2014) 51: 155.
A mass balance approach to investigating geochemical controls on secondary water quality impacts at a crude oil spill site near Bemidji, MN
Journal of Contaminant Hydrology (2014) 164: 1.
Comparison of surficial CO2 efflux to other measures of subsurface crude oil degradation
Journal of Contaminant Hydrology (2014) 164: 275.
Evidence of Aqueous Iron Sulfide Clusters in the Vadose Zone
Vadose Zone Journal (2014) 13 (3): 1.
Extent and limits of biodegradation by in situ methanogenic consortia in shale and formation fluids
Applied Geochemistry (2013) 28: 172.
Petroleum Fingerprinting with Organic Markers
Environmental Forensics (2013) 14 (4): 262.
Characterizing Vadose Zone Hydrocarbon Biodegradation Using Carbon Dioxide Effluxes, Isotopes, and Reactive Transport Modeling
Vadose Zone Journal (2012) 11 (4)
Enhanced Biogeochemical Cycling and Subsequent Reduction of Hydraulic Conductivity Associated with Soil‐Layer Interfaces in the Vadose Zone
Journal of Environmental Quality (2011) 40 (6): 1941.
Loss of volatile hydrocarbons from an LNAPL oil source
Journal of Contaminant Hydrology (2011) 126 (3-4): 140.
Crude Oil at the Bemidji Site: 25 Years of Monitoring, Modeling, and Understanding
Ground Water (2011) 49 (5): 706.
In Situ Rates of Sulfate Reduction in Response to Geochemical Perturbations
Groundwater (2011) 49 (6): 903.
Review of Microbial Processes in the Near-Surface Environment and Their Implications for the Chemical Fingerprinting of Hydrocarbon Fuels
Environmental Forensics (2011) 12 (3): 236.
Modeling of vapor intrusion from hydrocarbon-contaminated sources accounting for aerobic and anaerobic biodegradation
Journal of Contaminant Hydrology (2011) 126 (3-4): 167.
Comparison of fluid geochemistry and microbiology of multiple organic-rich reservoirs in the Illinois Basin, USA: Evidence for controls on methanogenesis and microbial transport
Geochimica et Cosmochimica Acta (2011) 75 (7): 1903.
Coupled hydrology and biogeochemistry of Paleocene–Eocene coal beds, northern Gulf of Mexico
Geological Society of America Bulletin (2010) 122 (7-8): 1248.
Close Modal

or Create an Account

Close Modal
Close Modal