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Phytoplankton succession affects the composition of Polynucleobacter subtypes in humic lakes
Sara F. Paver
, Nicholas D. Youngblut
,
Rachel J. Whitaker
,
Angela D. Kent
College of Liberal Arts and Sciences
Microbiology
Carl R. Woese Institute for Genomic Biology
Natural Resources and Environmental Sciences
School of Integrative Biology
Research output
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peer-review
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Keyphrases
Humic Lake
100%
Phytoplankton Community Succession
100%
Polynucleobacter
100%
Phytoplankton
87%
Temporal Variation
25%
Characterization Techniques
12%
Incubation
12%
Cytochrome c Oxidase
12%
Bacterial Population
12%
Terminal Restriction Fragment Length Polymorphism
12%
Freshwater
12%
Bacterial Community
12%
Ecological Constraints
12%
Fingerprinting
12%
Substrate Use
12%
Species Interactions
12%
Algal-bacterial Interactions
12%
Protein Encoding
12%
Bacterial Genera
12%
Phytoplankton Assemblages
12%
Phytoplankton Population
12%
Phytoplankton Control
12%
Population Abundance
12%
Community Characterization
12%
Freshwater Communities
12%
Seasonal Succession
12%
Ecological Specificity
12%
Immunology and Microbiology
Phytoplankton
100%
Bacterial Population
9%
Restriction Fragment Length Polymorphism
9%
Population Abundance
9%
Cytochrome
9%