M
Mark E. Fuller
Researcher at Princeton University
Publications - 84
Citations - 2162
Mark E. Fuller is an academic researcher from Princeton University. The author has contributed to research in topics: Bioaugmentation & Chemistry. The author has an hindex of 27, co-authored 78 publications receiving 1990 citations. Previous affiliations of Mark E. Fuller include Pacific Northwest National Laboratory & University of California, Davis.
Papers
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Journal ArticleDOI
Development of a Vital Fluorescent Staining Method for Monitoring Bacterial Transport in Subsurface Environments
Mark E. Fuller,Sheryl H. Streger,Randi K. Rothmel,Brian J. Mailloux,J. Hall,Tullis C. Onstott,James K. Fredrickson,David L. Balkwill,Mary F. DeFlaun +8 more
TL;DR: Results of laboratory-scale bacterial transport experiments performed with intact sediment cores and nondividing DA001 cells revealed good agreement between the aqueous cell concentrations determined by the microplate assay and those determined by other enumeration methods.
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Isotopic Fractionation of Carbon and Chlorine by Microbial Degradation of Dichloromethane
TL;DR: Microbial culture experiments were performed to investigate isotopic fractionation of carbon (C) and chlorine (Cl) during aerobic degradation of dichloromethane (DCM) by MC8b, a gram-negative methylotrophic organism closely related to the genera Methylobacterium or Ochrobactrum.
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Characterization of compost biofiltration system degrading dichloromethane.
TL;DR: A biofilm model incorporating first order biodegradation kinetics provided a good fit to observed concentration profiles, and may prove to be a useful tool for designing biofiltration systems for low concentration VOC emissions.
Journal ArticleDOI
Relative dominance of physical versus chemical effects on the transport of adhesion-deficient bacteria in intact cores from South Oyster, Virginia.
Hailang Dong,Tullis C. Onstott,Mary F. DeFlaun,Mark E. Fuller,Timothy D. Scheibe,Sheryl H. Streger,Randi K. Rothmel,Brian J. Mailloux +7 more
TL;DR: This study demonstrates that the laboratory-based bacterial transport experiments are effective in delineating physical versus chemical controlling factors and provide an important link to field-basedacterial transport studies.
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Use of stable oxygen and carbon isotope analyses for monitoring the pathways and rates of intrinsic and enhanced in situ biodegradation
TL;DR: In this paper, stable carbon and oxygen isotope analyses of the contaminants, products of degradation, and electron acceptor(s) may provide robust means for monitoring the occurrence, pathways, and rates of intrinsic or enhanced in situ biodegradation.