The state of the microbes: A summary of a symposium honoring Lawrence Pomeroy J. E. Hobbie OriginalPaper Pages: 113 - 116
Relationship between thymidine metabolism, bacterioplankton community metabolic capabilities, and sources of organic matter J. T. Hollibaugh Methods: Traditional and molecular Pages: 117 - 131
Characterization of marine prokaryotic communities via DNA and RNA J. A. FuhrmanS. H. LeeR. M. Wilcox Methods: Traditional and Molecular Pages: 133 - 145
Accurate estimation of microbial loop processes and rates D. M. Karl Methods: Traditional and Molecular Pages: 147 - 150
Ecomethodology for organoosmotrophs: Prokaryotic unicellular versus eukaryotic mycelial S. Y. Newell Methods: Traditional and Molecular Pages: 151 - 157
A philosophy of methods development: The assimilation of new methods and information into aquatic microbial ecology P. F. Kemp Methods: Traditional and Molecular Pages: 159 - 162
Is there anything else you need to understand about the microbiota that cannot be derived from analysis of nucleic acids? D. C. White Methods: Traditional and Molecular Pages: 163 - 166
Bacteria-organic matter coupling and its significance for oceanic carbon cycling F. AzamD. C. SmithÅ. Hagström Sources of Carbon for the Microbial Loop Pages: 167 - 179
Comparative and experimental approaches to top-down and bottom-up regulation of bacteria M. L. PaceJ. J. Cole Sources of Carbon for the Microbial Loop Pages: 181 - 193
The microbial loop in flowing waters J. L. Meyer Sources of Carbon for the Microbial Loop Pages: 195 - 199
The problem of species aggregation in food webs C. Pedrós-Alió Sources of Carbon for the Microbial Loop Pages: 201 - 203
Carbon fluxes in the microbial loop: Comments B. Velimirov Sources of Carbon for the Microbial Loop Pages: 205 - 207
Viruses and the microbial loop G. BratbakF. ThingstadM. Heldal Controls of the Microbial Loop: Biotic Factors Pages: 209 - 221
Bacterivory and herbivory: Key roles of phagotrophic protists in pelagic food webs E. B. SherrB. F. Sherr Controls of the Microbial Loop: Biotic Factors Pages: 223 - 235
The significance of viruses to mortality in aquatic microbial communities C. A. Suttle Controls of the Microbial Loop: Biotic Factors Pages: 237 - 243
The microbial loop concept as used in terrestrial soil ecology studies D. C. Coleman Controls of the Microbial Loop: Biotic Factors Pages: 245 - 250
Musings on the microbial loop: Twenty years after T. BermanL. Stone Controls of the Microbial Loop: Biotic Factors Pages: 251 - 253
The uptake of inorganic nutrients by heterotrophic bacteria D. L. Kirchman Controls of the Microbial Loop: Nutrient Limitations Pages: 255 - 271
The physical base of marine bacterial ecology D. K. Button Controls of the Microbial Loop: Nutrient Limitations Pages: 273 - 285
Controls of the microbial loop: Nutrient limitation and enzyme production, location and control C. Turley Controls of the Microbial Loop: Nutrient Limitations Pages: 287 - 289
Complications in the determination of the nutrient status of the marine environment R. Y. Morita Controls of the Microbial loop: Nutrient Limitations Pages: 291 - 294
Inorganic nutrients, bacteria, and the microbial loop D. A. Caron Controls of the Microbial Loop: Nutrient Limitations Pages: 295 - 298
Limitation of primary production by heterotrophic assimilation and transformation of inorganic nutrients N. P. Revsbech Controls of the Microbial Loop: Nutrient Limitations Pages: 299 - 301
Toward the development of generally applicable models of the microbial loop in aquatic ecosystems C. S. Hopkinson Jr.J. J. Vallino Modeling the Microbial Loop Pages: 321 - 326
Aggregation and disaggregation of microbial food webs R. R. Christian Modeling the Microbial Loop Pages: 327 - 329
Modeling the microbial loop: An estuarine modeler's perspective R. L. Wetzel Modeling the Microbial Loop Pages: 331 - 334