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Oligotroph
Consistent Responses of Soil Microbial Communities to Elevated Nutrient Inputs in Grasslands Across the Globe
The Trophic-Dynamic Aspect of Ecology Author(S): Raymond L
(Antarctica) Glacial, Basal, and Accretion Ice
Spatial Ecology of Territorial Populations
Chapter 4: PROKARYOTIC DIVERSITY
Casamino Acids Slow Motility and Stimulate Surface Growth in an Extreme Oligotroph
Aquatic Microbial Ecology 78:51
Oligotrophy and Pelagic Marine Bacteria: Facts and Fiction
PERSPECTIVE What Is Microbial Community Ecology?
Impacts of Seasonality and Nutrients on Microbial Mat Community Structure and Function
The Trophic-Dynamic Aspect of Ecology Raymond L. Lindeman
Ultramicrobacteria from Nitrate- and Radionuclide-Contaminated Groundwater
Metabolic Evolution and the Self-Organization of Ecosystems
Facultatively Oligotrophic Bacteria in Roman Mural Paintings
Soil Biology & Biochemistry
Oligotrophic Bacteria: a Genera/Introduction
Taxon-Specific Shifts in Bacterial and Archaeal Transcription of Dissolved
Biller, Et Al., 2014. “Prochlorococcus: the Structure and Function Of
Top View
Nitrogen Oligotrophication in Northern Hardwood Forests
The Genomic Basis of Trophic Strategy in Marine Bacteria
Oligotrophic Habitats (An Extreme Environment?)
Metabolic Evolution and the Self-Organization of Ecosystems
1.2.1-Bcs-405
The Physiology and Ecological Implications of Efficient Growth
PHYSIOLOGICAL ADAPTATION to NUTRIENT LIMITATION in a MARINE OLIGOTROPHIC ULTRAMICROBACTERIUM Sphingopyxis Alaskensis
Consistent Responses of Soil Microbial Communities to Elevated Nutrient Inputs in Grasslands Across the Globe
Mechanistic Modeling of Bacterial Nutrient Uptake Strategies
Lecture-Apr 26 TYPE.Pdf
Free-Living Bacterial Communities Are Mostly Dominated by Oligotrophs
Dissertation Final Edits
Physiology of a Marine Beggiatoa Strain and the Accompanying Organism Pseudovibrio Sp
Physiology of a Marine Beggiatoa Strain and the Accompanying Organism Pseudovibrio Sp
Toward an Ecological Classification of Soil Bacteria
Arxiv:1909.04557V2 [Q-Bio.PE] 26 Oct 2020
Deciphering Ocean Carbon in a Changing World PERSPECTIVE Mary Ann Morana,1, Elizabeth B
Wilkins, Et Al., 2012. “Key Microbial Drivers in Antarctic Aquatic Environments”
Growth Rates and Rrna Content of Four Marine Bacteria in Pure Cultures and in the Delaware Estuary
The Role of Mixotrophic Protists in the Biological Carbon Pump
Hydrogen Peroxide Detoxification Is a Key Mechanism for Growth of Ammonia-Oxidizing Archaea
United States Patent (10) Patent No.: US 9,670,395 B2 Mcdaniel (45) Date of Patent: Jun
The Aquatic Food Web and the Microbial Loop