The ecological role of water-column microbes in the sea. F Azam, T Fenchel, JG Field, JS Gray, LA Meyer-Reil, F Thingstad Marine ecology progress series. Oldendorf 10 (3), 257-263, 1983 | 7176 | 1983 |
Protein content and protein synthesis rates of planktonic marine bacteria M Simon, F Azam Marine ecology progress series, 201-213, 1989 | 1950 | 1989 |
Thymidine incorporation as a measure of heterotrophic bacterioplankton production in marine surface waters: evaluation and field results JA Fuhrman, F Azam Marine biology 66, 109-120, 1982 | 1759 | 1982 |
Microbial structuring of marine ecosystems F Azam, F Malfatti Nature Reviews Microbiology 5 (10), 782-791, 2007 | 1739 | 2007 |
Scientists’ warning to humanity: microorganisms and climate change R Cavicchioli, WJ Ripple, KN Timmis, F Azam, LR Bakken, M Baylis, ... Nature Reviews Microbiology 17 (9), 569-586, 2019 | 1616 | 2019 |
Microbial production of recalcitrant dissolved organic matter: long-term carbon storage in the global ocean N Jiao, GJ Herndl, DA Hansell, R Benner, G Kattner, SW Wilhelm, ... Nature Reviews Microbiology 8 (8), 593-599, 2010 | 1589 | 2010 |
Microbial control of oceanic carbon flux: the plot thickens F Azam Science 280 (5364), 694-696, 1998 | 1542 | 1998 |
Diversity and distribution of coral-associated bacteria F Rohwer, V Seguritan, F Azam, N Knowlton Marine Ecology Progress Series 243, 1-10, 2002 | 1444 | 2002 |
A simple, economical method for measuring bacterial protein synthesis rates in seawater using 3H‐leucine DC Smith Mar Microbial Food Webs 6, 107, 1992 | 1335 | 1992 |
Genomic analysis of uncultured marine viral communities M Breitbart, P Salamon, B Andresen, JM Mahaffy, AM Segall, D Mead, ... Proceedings of the National Academy of Sciences 99 (22), 14250-14255, 2002 | 1198 | 2002 |
Bacterioplankton secondary production estimates for coastal waters of British Columbia, Antarctica, and California JA Fuhrman, F Azam Applied and environmental microbiology 39 (6), 1085-1095, 1980 | 1182 | 1980 |
Intense hydrolytic enzyme activity on marine aggregates and implications for rapid particle dissolution DC Smith, M Simon, AL Alldredge, F Azam Nature 359 (6391), 139-142, 1992 | 1103 | 1992 |
Major role of bacteria in biogeochemical fluxes in the ocean's interior BC Cho, F Azam Nature 332 (6163), 441-443, 1988 | 950 | 1988 |
The oceanic gel phase: a bridge in the DOM–POM continuum P Verdugo, AL Alldredge, F Azam, DL Kirchman, U Passow, PH Santschi Marine chemistry 92 (1-4), 67-85, 2004 | 755 | 2004 |
Dynamics of bacterial community composition and activity during a mesocosm diatom bloom L Riemann, GF Steward, F Azam Applied and environmental microbiology 66 (2), 578-587, 2000 | 743 | 2000 |
Accelerated dissolution of diatom silica by marine bacterial assemblages KD Bidle, F Azam Nature 397 (6719), 508-512, 1999 | 629 | 1999 |
Algicidal Bacteria in the Sea and their Impact on Algal Blooms1 X Mayali, F Azam Journal of Eukaryotic Microbiology 51 (2), 139-144, 2004 | 585 | 2004 |
Biogeochemical significance of bacterial biomass in the ocean's euphotic zone. BC Cho, F Azam Marine ecology progress series. Oldendorf 63 (2), 253-259, 1990 | 562 | 1990 |
Antagonistic interactions among marine pelagic bacteria RA Long, F Azam Applied and environmental microbiology 67 (11), 4975-4983, 2001 | 527 | 2001 |
Bringing the ocean into the laboratory to probe the chemical complexity of sea spray aerosol KA Prather, TH Bertram, VH Grassian, GB Deane, MD Stokes, PJ DeMott, ... Proceedings of the National Academy of Sciences 110 (19), 7550-7555, 2013 | 525 | 2013 |