David Kirchman
David Kirchman
Professor of Marine Biosciences, University of Delaware
Verified email at udel.edu - Homepage
Cited by
Cited by
The ecology of Cytophaga–Flavobacteria in aquatic environments
DL Kirchman
FEMS microbiology ecology 39 (2), 91-100, 2002
Natural assemblages of marine proteobacteria and members of the Cytophaga-Flavobacter cluster consuming low-and high-molecular-weight dissolved organic matter
MT Cottrell, DL Kirchman
Applied and environmental microbiology 66 (4), 1692-1697, 2000
Leucine incorporation and its potential as a measure of protein synthesis by bacteria in natural aquatic systems.
D Kirchman, E K'nees, R Hodson
Applied and Environmental Microbiology 49 (3), 599-607, 1985
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
The molecularly-uncharacterized component of nonliving organic matter in natural environments
JI Hedges, G Eglinton, PG Hatcher, DL Kirchman, C Arnosti, S Derenne, ...
Organic geochemistry 31 (10), 945-958, 2000
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
Community composition of marine bacterioplankton determined by 16S rRNA gene clone libraries and fluorescence in situ hybridization
MT Cottrell, DL Kirchman
Applied and Environmental Microbiology 66 (12), 5116-5122, 2000
The uptake of inorganic nutrients by heterotrophic bacteria
DL Kirchman
Microbial Ecology 28 (2), 255-271, 1994
Utilization of inorganic and organic nitrogen by bacteria in marine systems 1
PA Wheeler, DL Kirchman
Limnology and Oceanography 31 (5), 998-1009, 1986
Ecology of the rare microbial biosphere of the Arctic Ocean
PE Galand, EO Casamayor, DL Kirchman, C Lovejoy
Proceedings of the National Academy of Sciences 106 (52), 22427-22432, 2009
Leucine incorporation as a measure of biomass production by heterotrophic bacteria
DL Kirchman
Handbook of methods in aquatic microbial ecology 58, 509-512, 1993
Microbial ecology of the oceans
DL Kirchman
John Wiley & Sons, 2010
High turnover rates of dissolved organic carbon during a spring phytoplankton bloom
DL Kirchman, Y Suzuki, C Garside, HW Ducklow
Nature 352 (6336), 612-614, 1991
Activity of abundant and rare bacteria in a coastal ocean
BJ Campbell, L Yu, JF Heidelberg, DL Kirchman
Proceedings of the National Academy of Sciences 108 (31), 12776-12781, 2011
Attachment stimulates exopolysaccharide synthesis by a bacterium
P Vandevivere, DL Kirchman
Applied and environmental microbiology 59 (10), 3280-3286, 1993
Benthic response to the sedimentation of particulate organic matter at the BIOTRANS station, 47 N, 20 W
O Pfannkuche
Deep Sea Research Part II: topical studies in oceanography 40 (1-2), 135-149, 1993
Chitinases from uncultured marine microorganisms
MT Cottrell, JA Moore, DL Kirchman
Applied and environmental microbiology 65 (6), 2553-2557, 1999
Ocean process tracers: nitrogen isotopes in the ocean
DM Sigman, KL Karsh, KL Casciotti
Microbial growth in the polar oceans—role of temperature and potential impact of climate change
DL Kirchman, XAG Morán, H Ducklow
Nature Reviews Microbiology 7 (6), 451-459, 2009
Estimates of bacterial growth from changes in uptake rates and biomass.
D Kirchman, H Ducklow, R Mitchell
Applied and Environmental Microbiology 44 (6), 1296-1307, 1982
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