Impact of sideways and bottom-up control factors on bacterial community succession over a tidal cycle
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[1] H. N. Williams,et al. Development and evaluation of a quantitative real-time PCR assay for the detection of saltwater Bacteriovorax. , 2008, Environmental microbiology.
[2] J. Fuhrman,et al. Bacterial and Archaeal Community Structure and its Patterns , 2008 .
[3] S. Strom. Microbial Ecology of Ocean Biogeochemistry: A Community Perspective , 2008, Science.
[4] H. N. Williams,et al. Phylogenetic relationships amongst the saltwater members of the genus Bacteriovorax using rpoB sequences and reclassification of Bacteriovorax stolpii as Bacteriolyticum stolpii gen. nov., comb. nov. , 2008, International journal of systematic and evolutionary microbiology.
[5] Robert A. Edwards,et al. Bacterial carbon processing by generalist species in the coastal ocean , 2008, Nature.
[6] M. Weinbauer,et al. Viruses and flagellates sustain apparent richness and reduce biomass accumulation of bacterioplankton in coastal marine waters. , 2007, Environmental microbiology.
[7] Susan R. Steyert,et al. Global survey of diversity among environmental saltwater Bacteriovoracaceae. , 2007, Environmental microbiology.
[8] G. Herndl,et al. Bacterioplankton community composition in nearshore waters of the NW Black Sea during consecutive diatom and coccolithophorid blooms , 2007, Aquatic Sciences.
[9] Luke E. Ulrich,et al. Ecological Genomics of Marine Roseobacters , 2007, Applied and Environmental Microbiology.
[10] T. Bouvier,et al. Key role of selective viral-induced mortality in determining marine bacterial community composition. , 2007, Environmental microbiology.
[11] R. Amann,et al. Whole genome analysis of the marine Bacteroidetes'Gramella forsetii' reveals adaptations to degradation of polymeric organic matter. , 2006, Environmental microbiology.
[12] A. Chauhan,et al. Response of Bdellovibrio and Like Organisms (BALOs) to the Migration of Naturally Occurring Bacteria to Chemoattractants , 2006, Current Microbiology.
[13] J. Pernthaler,et al. Roseobacter and SAR11 dominate microbial glucose uptake in coastal North Sea waters. , 2006, Environmental microbiology.
[14] A. Ogram,et al. Phylogeny of Acetate-Utilizing Microorganisms in Soils along a Nutrient Gradient in the Florida Everglades , 2006, Applied and Environmental Microbiology.
[15] J. Pernthaler,et al. Blooms of Single Bacterial Species in a Coastal Lagoon of the Southwestern Atlantic Ocean , 2006, Applied and Environmental Microbiology.
[16] E. Jurkevitch,et al. Structure analysis of a soil community of predatory bacteria using culture-dependent and culture-independent methods reveals a hitherto undetected diversity of Bdellovibrio-and-like organisms. , 2006, Environmental microbiology.
[17] T. Lueders,et al. Identification of Bacterial Micropredators Distinctively Active in a Soil Microbial Food Web , 2006, Applied and Environmental Microbiology.
[18] H. N. Williams,et al. Ecology of the Predatory Bdellovibrio and Like Organisms , 2006 .
[19] E. Jurkevitch. The Genus Bdellovibrio , 2006 .
[20] R. Knight,et al. UniFrac: a New Phylogenetic Method for Comparing Microbial Communities , 2005, Applied and Environmental Microbiology.
[21] J. Pernthaler. Predation on prokaryotes in the water column and its ecological implications , 2005, Nature Reviews Microbiology.
[22] J. Wikner,et al. Bacterial freshwater species successfully immigrate to the brackish water environment in the northern Baltic , 2005 .
[23] J. Bauer,et al. Bacterial utilization of transient plankton-derived dissolved organic carbon and nitrogen inputs in surface ocean waters , 2004 .
[24] D. Kirchman,et al. Changes in bacterial activity and community structure in response to dissolved organic matter in the Hudson River, New York , 2004 .
[25] Y. Shemesh,et al. Plastic phenotypic resistance to predation by Bdellovibrio and like organisms in bacterial prey. , 2003, Environmental microbiology.
[26] D. B. Nedwell,et al. The distribution and activity of sulphate reducing bacteria in estuarine and coastal marine sediments , 2002, Antonie van Leeuwenhoek.
[27] K. Jürgens,et al. Predation as a shaping force for the phenotypic and genotypic composition of planktonic bacteria , 2002, Antonie van Leeuwenhoek.
[28] Stefan Bertilsson,et al. Heterotrophic Bacterial Growth Efficiency and Community Structure at Different Natural Organic Carbon Concentrations , 2003, Applied and Environmental Microbiology.
[29] Matthew T. Cottrell,et al. � 2003, by the American Society of Limnology and Oceanography, Inc. Contribution of major bacterial groups to bacterial biomass production (thymidine and leucine incorporation) in the Delaware estuary , 2022 .
[30] R. Benner. Molecular Indicators of the Bioavailability of Dissolved Organic Matter , 2003 .
[31] James R. Cole,et al. The Ribosomal Database Project (RDP-II): previewing a new autoaligner that allows regular updates and the new prokaryotic taxonomy , 2003, Nucleic Acids Res..
[32] T. Bouvier,et al. Compositional changes in free‐living bacterial communities along a salinity gradient in two temperate estuaries , 2002 .
[33] D. Kelly,et al. The prokaryotes: an evolving electronic resource for the microbiological community - , 2002 .
[34] F. Alcântara,et al. Loss of Estuarine Bacteria by Viral Infection and Predation in Microcosm Conditions , 2001, Microbial Ecology.
[35] F. Azam,et al. Variations in bacterial community structure during a dinoflagellate bloom analyzed by DGGE and 16S rDNA sequencing , 2001 .
[36] Rappé,et al. Phylogenetic comparisons of a coastal bacterioplankton community with its counterparts in open ocean and freshwater systems. , 2000, FEMS microbiology ecology.
[37] M. Cottrell,et al. Natural Assemblages of Marine Proteobacteria and Members of the Cytophaga-Flavobacter Cluster Consuming Low- and High-Molecular-Weight Dissolved Organic Matter , 2000, Applied and Environmental Microbiology.
[38] Farooq Azam,et al. Microbial Control of Oceanic Carbon Flux: The Plot Thickens , 1998, Science.
[39] J. Thompson,et al. The CLUSTAL_X windows interface: flexible strategies for multiple sequence alignment aided by quality analysis tools. , 1997, Nucleic acids research.
[40] Yoshimi Suzuki,et al. A high-temperature catalytic oxidation method for the determination of dissolved organic carbon in seawater: analysis and improvement , 1992 .
[41] D. Lane. 16S/23S rRNA sequencing , 1991 .
[42] E. Stackebrandt,et al. Nucleic acid techniques in bacterial systematics , 1991 .
[43] E. Myers,et al. Basic local alignment search tool. , 1990, Journal of molecular biology.
[44] R. Braman,et al. Nanogram nitrite and nitrate determination in environmental and biological materials by vanadium (III) reduction with chemiluminescence detection. , 1989, Analytical chemistry.
[45] L. Solórzano. DETERMINATION OF AMMONIA IN NATURAL WATERS BY THE PHENOLHYPOCHLORITE METHOD 1 1 This research was fully supported by U.S. Atomic Energy Commission Contract No. ATS (11‐1) GEN 10, P.A. 20. , 1969 .
[46] L. Solórzano. Determination of ammonia in natural waters by the phenol hypochlorite method , 1969 .