James G. Mitchell focuses on Ecology, Nanotechnology, Frustule, Nanostructure and Diatom. His Ecology study combines topics in areas such as Marine bacteriophage and Bacteria. James G. Mitchell has included themes like Nutrient and Motility in his Bacteria study.
His Nanotechnology research is multidisciplinary, incorporating perspectives in Micrometre and Scanning electron microscope. His studies in Frustule integrate themes in fields like Biomimetics and Nanoscopic scale. He combines subjects such as Porosity, Nano- and Microscale chemistry with his study of Diatom.
His main research concerns Ecology, Oceanography, Phytoplankton, Abundance and Bacteria. His research investigates the connection between Ecology and topics such as Microbial population biology that intersect with problems in Microscale chemistry. His Oceanography research includes elements of Viscosity and Algae.
The concepts of his Phytoplankton study are interwoven with issues in Bloom, Chlorophyll, Temperature salinity diagrams, Marine ecosystem and Chlorophyll a. His work deals with themes such as Aquifer and Groundwater, which intersect with Abundance. His Bacteria research is multidisciplinary, relying on both Flow cytometry and Microbiology.
His primary areas of study are Ecology, Bacteria, Abundance, Microbiology and Zoology. James G. Mitchell performs multidisciplinary study on Ecology and Firmicutes in his works. In his research on the topic of Bacteria, Prokaryote, Food science and Wine is strongly related with Flow cytometry.
His Abundance research is multidisciplinary, incorporating elements of Trophic level, Diversity, River murray and Picoplankton. His research in Microbiology intersects with topics in Biofilm, Lytic cycle, Wound healing and Staphylococcus aureus. His Zoology study combines topics from a wide range of disciplines, such as Oral Microbiome and Microbial Taxonomy.
James G. Mitchell mostly deals with Ecology, Biofilm, Microbiology, Bacteria and Lytic cycle. James G. Mitchell undertakes interdisciplinary study in the fields of Ecology and Firmicutes through his works. Other disciplines of study, such as Microbiome, Zoology, Insectivore, Warbler and Camarhynchus, are mixed together with his Firmicutes studies.
His research integrates issues of Bacterial cell structure and Staphylococcus aureus in his study of Biofilm. His study ties his expertise on Pseudomonas aeruginosa together with the subject of Microbiology. His Biological dispersal study integrates concerns from other disciplines, such as Niche differentiation, Organic matter, Ecological niche and Spatial heterogeneity.
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Diatomaceous Lessons in Nanotechnology and Advanced Materials
Dusan Losic;James G. Mitchell;Nicolas H. Voelcker.
Advanced Materials (2009)
Microscale Nutrient Patches in Planktonic Habitats Shown by Chemotactic Bacteria
Nicholas Blackburn;Tom Fenchel;Jim Mitchell.
Recurrent and persistent brown tide blooms perturb coastal marine ecosystem
Elizabeth M. Cosper;William C. Dennison;Edward J. Carpenter;V. Monica Bricelj.
Pore architecture of diatom frustules: Potential nanostructured membranes for molecular and particle separations
Dusan Losic;Gary Rosengarten;James Gordon Mitchell;Nicolas Hans Voelcker.
Journal of Nanoscience and Nanotechnology (2006)
Bacterial motility: links to the environment and a driving force for microbial physics
James Gordon Mitchell;Kazuhiro Kogure.
FEMS Microbiology Ecology (2006)
Microzones surrounding phytoplankton form the basis for a stratified marine microbial ecosystem
James G. Mitchell;Akira Okubo;Jed A. Fuhrman.
Rapid Fabrication of Micro‐ and Nanoscale Patterns by Replica Molding from Diatom Biosilica
Dusan Losic;James Gordon Mitchell;Ratnesh Lal;Nicolas Hans Voelcker.
Advanced Functional Materials (2007)
Iron defecation by sperm whales stimulates carbon export in the Southern Ocean
Trish J. Lavery;Ben Roudnew;Peter Gill;Justin Seymour;Justin Seymour.
Proceedings of The Royal Society B: Biological Sciences (2010)
Chemotaxis toward phytoplankton drives organic matter partitioning among marine bacteria
Steven Smriga;Steven Smriga;Vicente I. Fernandez;Vicente I. Fernandez;James G. Mitchell;Roman Stocker;Roman Stocker.
Proceedings of the National Academy of Sciences of the United States of America (2016)
AFM nanoindentations of diatom biosilica surfaces.
Dusan Losic;Ken Short;James Gordon Mitchell;Ratnesh Lal.
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