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Geomicrobiology of Eukaryotic Microorganisms
Geoffrey M. Gadd
, John A. Raven
Research output
:
Contribution to journal
›
Article
›
peer-review
95
Citations (Scopus)
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Keyphrases
Fungi
100%
Eukaryotes
100%
Archaebacteria
100%
Biogeochemical Cycles
100%
Geomicrobiology
100%
Diazotrophy
100%
Methanogenesis
100%
Eukaryotic Microbes
100%
Socioeconomic
50%
Process Integration
50%
Nutrient Cycling
50%
Environmental Biotechnology
50%
Adverse Effects
50%
Beneficial Use
50%
Wood
50%
Metabolism
50%
Mycogenic
50%
Mineral Transformation
50%
Photosynthesis
50%
Natural Products
50%
Detoxification
50%
Terrestrial Environment
50%
Oxidative Phosphorylation (OXPHOS)
50%
Mineral Formation
50%
Fungal Interactions
50%
Terrestrial Habitat
50%
Aquatic Habitat
50%
Leaching Recovery
50%
Soil Surface
50%
Endosymbiosis
50%
Chemolithoautotroph
50%
Mutualistic Symbiosis
50%
Foodstuffs
50%
Bioweathering
50%
Root-soil Interface
50%
Mineral Surface
50%
Bacterial Symbiosis
50%
Toxic Elements
50%
Product Material
50%
Organic Pollutant Degradation
50%
Chemolithotrophy
50%
Chemolithotrophic Denitrification
50%
Dissimilatory Reduction
50%
Fungal Transformation
50%
Food Web
50%
Phagotrophy
50%
Speciation
50%
Metal Leaching
50%
Element Cycling
50%
Building Materials
50%
Geochemical Transformation
50%
Xenobiotic Pollutants
50%
Microbial Eukaryotes
50%
Sulfide Oxidation
50%
Mycorrhiza
50%
Anaerobic Ammonium Oxidation (ANAMMOX)
50%
Plant Productivity
50%
Rock Surface
50%
Lichens
50%
Radionuclide Leaching
50%
Natural Constructions
50%
Ectosymbiosis
50%
Plant Roots
50%
Clay Interaction
50%
Earth and Planetary Sciences
Micro-Organism
100%
Geomicrobiology
100%
Methanogenesis
100%
Biogeochemical Cycle
100%
Plant Root
50%
Pollutant Degradation
50%
Radionuclide
50%
Food Web
50%
Terrestrial Environment
50%
Mineral Surface
50%
Organic Pollutant
50%
Phagotrophy
50%
Mycorrhiza
50%
Denitrification
50%
Photosynthesis
50%
Immunology and Microbiology
Eukaryote
100%
Microorganism
100%
Nitrogen Fixation
66%
Methanogenesis
66%
Archaeon
66%
Xenobiotic
33%
Photosynthesis
33%
Oxidative Phosphorylation
33%
Mycorrhiza
33%
Lichen (Organism)
33%
Plant Root
33%
Phagotroph
33%
Endosymbiosis
33%
Species Differentiation
33%
Denitrification
33%
Biochemistry, Genetics and Molecular Biology
Eukaryote
100%
Microorganism
100%
Archaeon
66%
Methanogenesis
66%
Metabolic Pathway
33%
Species Differentiation
33%
Sulfate
33%
Mycorrhiza
33%
Photosystem
33%
Phagotroph
33%
Oxidative Phosphorylation
33%
Lichen (Organism)
33%
Denitrification
33%