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Craig S. Criddle
Researcher at Stanford University
Publications - 255
Citations - 18146
Craig S. Criddle is an academic researcher from Stanford University. The author has contributed to research in topics: Bioreactor & Denitrifying bacteria. The author has an hindex of 65, co-authored 243 publications receiving 15598 citations. Previous affiliations of Craig S. Criddle include Florida State University & University of Milan.
Papers
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ES Critical Reviews: Transformations of halogenated aliphatic compounds
TL;DR: This article summarizes and systematizes the current understanding of abiotic and biotic chemistry of halogenated aliphatic compounds and reveals broad patterns of transformation in biological systems in general.
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Fluorinated Organics in the Biosphere
TL;DR: The fate and effects of nonvolatile fluorinated organics, the fluorinated impurities present in commercial formulations, and the transformation products generated by biochemical processes are investigated in this paper.
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GeoChip: a comprehensive microarray for investigating biogeochemical, ecological and environmental processes
Zhili He,Terry J. Gentry,Terry J. Gentry,Christopher W. Schadt,Liyou Wu,Liyou Wu,Jost Liebich,Jost Liebich,Song C. Chong,Zhijian Huang,Zhijian Huang,Wei-Min Wu,Baohua Gu,Phil Jardine,Craig S. Criddle,Jizhong Zhou,Jizhong Zhou +16 more
TL;DR: This is the first comprehensive microarray currently available for studying biogeochemical processes and functional activities of microbial communities important to human health, agriculture, energy, global climate change, ecosystem management, and environmental cleanup and restoration.
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Quantitative determination of perfluorochemicals in sediments and domestic sludge.
TL;DR: A quantitative analytical method was developed that consists of liquid solvent extraction of the analytes from sediments and sludge, cleanup via solid-phase extraction, and injection of the extracts with internal standards into a high-performance liquid chromatography system coupled to a tandem mass spectrometer (LC/MS/MS).
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How stable is stable? Function versus community composition.
Ana Fernández,Suiying Huang,Sherry L. Seston,Jian Xing,Robert F. Hickey,Craig S. Criddle,James M. Tiedje +6 more
TL;DR: Although dominant OTUs were constantly replaced from one sampling point to the next, phylogenetic analysis indicated that inferred physiologic changes in the community were not as dramatic as were genetic changes and indicate that an extremely dynamic community can maintain a stable ecosystem function.