Complete publication list for Dr. David L. Kirchman
Refereed Journals
Kirchman,
D., H. Ducklow, and R. Mitchell. 1982. Estimates of bacterial
growth from changes in uptake rates and biomass. Appl. Environ.
Microbiol. 44:1296-1307.
Kirchman, D. and R. Mitchell. 1982. Contribution of particle-bound
bacteria to total microheterotrophic activity in five ponds and
two marshes. Appl. Environ. Microbiol. 43:200-209.
Kirchman, D., J. Sigda, R. Kapuscinski, and R. Mitchell. 1982.
Statistical analysis of the direct count method for enumerating
bacteria. Appl. Environ. Microbiol. 44:376-382.
Kirchman, D.L., S. Graham, D. Reish, and R. Mitchell. 1982. Lectins
may mediate in the settlement and metamorphosis of Janua (Dexiospira) brasiliensis. Mar. Biol. Lett. 3:131-142.
Kirchman, D.L., S. Graham, D. Reish, and R. Mitchell. 1982. Bacteria
induce settlement and metamorphosis of Janua (Dexiospira)
brasiliensis Grube (Polychaeta:Spriprbidae). J. Exp. Mar. Biol. Ecol. 56:153-163. doi:10.1016/0022-0981(81)90186-6
Ducklow, H.W., D.L. Kirchman, and G.T. Rowe. 1982. Production and vertical
flux of attached bacteria in the Hudson River Plume of the New York
Bight as studied with floating sediment traps. Appl. Environ. Microbiol.
43:769-776.
Kirchman, D.L. 1983. The production of bacteria attached to particles
suspended in a freshwater pond. Limnol. Oceanogr. 28:858-872.
Ducklow, H.W. and D.L. Kirchman. 1983. Bacterial dynamics and distribution
during a spring diatom bloom in the Hudson River plume, USA. J. Plankton
Res. 5:333-355.
Kirchman, D.L., L. Mazzella, R.S. Alberte, and R. Mitchell. 1984.
Epiphytic bacterial production on Zostera marina. Mar. Ecol. Prog. Ser. 15:117-123.
Kirchman, D. and R. Hodson. 1984. Inhibition by peptides of amino
acid uptake by bacterial populations in natural waters: Implications for the
regulation of amino acid transport and incorporation. Appl. Environ.
Microbiol. 47:624-631.
Kirchman, D., B. Peterson, and D. Juers. 1984. Bacterial growth
and tidal variation in bacterial abundance in the Great Sippewissett
Salt Marsh. Mar. Ecol. Prog. Ser. 19:247-259.
Kirchman, D., E. K'nees, and R. Hodson. 1985. Leucine incorporation
and its potential as a measure of protein synthesis by bacteria
in natural aquatic systems. Appl. Environ. Microbiol. 49:599-607.
Kirchman, D.L. and R.E. Hodson. 1986. Metabolic regulation of amino
acid uptake in marine waters. Limnol. Oceanogr. 31(2):339-350.
Plumley, F.G., D.L. Kirchman, R.E. Hodson, and G.W. Schmidt. 1986. Ribulose bisphosphate carboxylase from three chlorophyll c-containing algae:
Physical and immunological characterizations. Plant Physiol.
80:685-691.
Fuhrman, J.A., H.W. Ducklow, D.L. Kirchman, J. Hudak, G.B. McManus, and J. Kramer. 1986. Does adenine incorporation into nucleic acids measure
total microbial production? Limnol. Oceanogr. 31(3):627-636.
Fuhrman, J.A., H.W. Ducklow, D.L. Kirchman, and G.B. McManus. 1986.
Adenine and total microbial production: A reply. Limnol. Oceanogr.
31(6):1395-1400.
Wheeler, P.A. and D.L. Kirchman. 1986. Utilization of inorganic
and organic nitrogen by bacteria in marine systems. Limnol. Oceanogr.
31(5):998-1009.
Kirchman, D.L., S.Y. Newell, and R.E. Hodson. 1986. Incorporation
versus biosynthesis of leucine: implications for measuring rates
of protein synthesis and biomass production by bacteria in marine
systems. Mar. Ecol. Prog. Ser. 32:47-59.
Glibert, P.M., T.M. Kana, R.J. Olson, D.L. Kirchman, and R.S. Alberte.
1986. Clonal comparisons of growth and photosynthetic responses
to nitrogen availability in marine Synechococcus spp. J. Exp. Mar.
Biol. Ecol. 101:199-208.
McDonough, R.J., R.W. Sanders, K.G. Porter, and D.L. Kirchman. 1986.
Depth distribution of bacterial production in a stratified lake
with an anoxic hypolimnion. Appl. Environ. Microbiol. 52:992-1000.
Kirchman, D.L. and M.P. Hoch*. 1988. Bacterial production in the
Delaware Bay estuary estimated from thymidine and leucine incorporation
rates. Mar. Ecol. Prog. Ser. 45:169-178.
*Chin-Leo, G. and D.L. Kirchman. 1988. Estimating bacterial production
in marine waters from the simultaneous incorporation of thymidine
and leucine. Appl. Environ. Microbiol. 54:1934-1939.
Benner, R., R.E. Hodson, and D.L. Kirchman. 1988. Bacterial abundance
and production on mangrove leaves during initial stages of leaching
and biodegradation. Arch. Hydrobiol. Beih. 31:19-26.
Kirchman, D., Y. Soto, F. Van Wambeck, and M. Bianchi. 1989. Bacterial
production in the Rhône River plume: effect of mixing on relationships
among microbial assemblages. Mar. Ecol. Prog. Ser. 53:267-275.
Wheeler, P.A., D.L. Kirchman, M.R. Landry, and S.A. Kokkinakis.
1989. Diel periodicity in ammonium uptake and regeneration in the
oceanic subarctic Pacific: implications for interactions in microbial
food webs. Limnol. Oceanogr. 34:1025-1033.
Kirchman, D.L., D.L. Henry, and S. Dexter. 1989. Adsorption of proteins
to surfaces in seawater. Mar. Chem. 27:201-217.
Kirchman, D.L., R. Keil*, and P.A. Wheeler. 1989. The effect of
amino acids on ammonium utilization and regeneration by heterotrophic
bacteria in the subarctic Pacific. Deep-Sea Res. 36:1763-1776.
Kirchman, D.L. 1990. Limitation of bacterial growth by dissolved
organic matter in the subarctic Pacific. Mar. Ecol. Progr. Ser.
62:47-54.
*Chin-Leo, G. and D.L. Kirchman. 1990. Unbalanced growth in natural
assemblages of marine bacterioplankton. Mar. Ecol. Prog. Ser. 63:1-8.
*Montgomery, M.T., N.A. Welschmeyer, and D.L. Kirchman. 1990. A
simple assay for chitin: application to sediment trap samples from
the subarctic Pacific. Mar. Ecol. Prog. Ser. 64:301-308.
Kirchman, D.L., R.G. Keil*, and P.A. Wheeler. 1990. Carbon limitation
of ammonium uptake by heterotrophic bacteria in the subarctic Pacific.
Limnol. Oceanogr. 35:1258-1266.
*Samuelsson, M.-O. and D.L. Kirchman. 1990. Degradation of adsorbed
protein by attached bacteria in relationship to surface hydrophobicity.
Appl. Environ. Microbiol. 56:3643-3648.
Logan, B.E. and D.L. Kirchman. 1990. Uptake of dissolved
organics by marine bacteria as a function of fluid motion. Mar.
Biol. 111:175-181.
*Nagata, T. and D.L. Kirchman. 1990. Filtration-induced release of dissolved free amino acids: application to cultures of marine protozoa. Mar. Ecol. Prog. Ser. 68:1-5.
*Keil, R.G. and D.L. Kirchman. 1991. Dissolved combined amino acids in marine waters as determined by a vapor-phase hydrolysis method. Mar. Chem. 33:243-259.
*Keil, R.G. and D.L. Kirchman. 1991. Contribution of dissolved free amino acids and ammonium to the nitrogen requirements of heterotrophic bacterioplankton. Mar. Ecol. Prog. Ser. 73:1-10.
*Nagata, T. and D.L. Kirchman. 1991. Release of dissolved free and combined amino acids by bacterivorous marine flagellates. Limnol. Oceanogr. 36(3):433-443.
Kirchman, D.L., Y. Suzuki, C. Garside, and H.W. Ducklow. 1991. High
turnover rates of dissolved organic carbon during a spring phytoplankton
bloom. Nature 352:612-614.
Ducklow, H.W., D.L. Kirchman, and H.L. Quinby. 1992. Bacterioplankton cell growth and macromolecular synthesis in seawater cultures
during the North Atlantic Spring Phytoplankton Bloom, May, 1989. Microb. Ecol. 24:125-144.
Simon, M., N.A. Welschmeyer, and D.L. Kirchman. 1992. Bacterial
production and the sinking flux of particulate organic matter in
the subarctic Pacific. Deep-Sea Res. 39:1997-2008.
*Keil, R.G. and D.L. Kirchman. 1992. Bacterial hydrolysis of protein and methylated protein and its
implications for studies of protein degradation in aquatic systems. Appl. Environ. Microbiol.
58:1374-1375.
Nagata, T. and D.L. Kirchman. 1992. Release of macromolecular organic complexes by heterotrophic marine flagellates. Mar. Ecol. Prog. Ser. 83:233-240.
*Urban, E.R.Jr. and D.L. Kirchman. 1992. Effect of kaolinite clay
on the feeding activity of the eastern oyster Crassostrea virginica (Gmelin). J. Exp. Mar. Biol. Ecol. 160:47-60.
Kirchman, D.L. 1992. Incorporation of thymidine and leucine in the
subarctic Pacific: application to estimating bacterial production. Mar. Ecol. Prog. Ser. 82:301-309.
Kirchman, D.L. 2002. Reply to Peters (2002) Overcoming linearization errors in calculating bacterial growth rates. Mar. Ecol. Prog. Ser. 245:309-310.
*Hoch, M.P., M.L. Fogel, and D.L. Kirchman. 1992. Isotope fractionation
associated with ammonium uptake by a marine bacterium. Limnol. Oceanogr. 37:1447-1459.
Ducklow, H.W., D.L. Kirchman, H.L. Quinby, C.A. Carlson, and H.G.
Dam. 1993. Stocks and dynamics of bacterioplankton carbon during the spring bloom in the
eastern North Atlantic Ocean. Deep-Sea Res. 40:245-263.
Kirchman, D.L., R.G. Keil*, M. Simon, and N.A. Welschmeyer. 1993.
Biomass and production of heterotrophic bacterioplankton in the
oceanic subarctic Pacific. Deep-Sea Res. 40:967-988.
*Montgomery, M.T. and D.L. Kirchman. 1993. Role of chitin-binding
proteins in the specific attachment of the marine bacterium Vibrio harveyi to chitin. Appl.
Environ. Microbiol. 59:373-379.
*Keil, R.G. and D.L. Kirchman. 1993. Dissolved combined amino acids:
chemical form and utilization by marine bacteria. Limnol. Oceanogr.
38:1256-1270.
*Hoch, M.P. and D.L. Kirchman. 1993. Seasonal and inter-annual variability
in bacterial production and biomass in a temperate estuary. Mar.
Ecol. Progr. Ser. 98:283-295.
*Vandevivere, P. and D.L. Kirchman. 1993. Attachment stimulates
exopolysaccharide synthesis by a bacterium. Appl. Environ. Microbiol.
59:3280-3286.
Landry, M.R., D.J. Gifford, D.L. Kirchman, P.A. Wheeler, and B.C.
Monger. 1993. Direct and indirect effects of grazing by Neocalanus plumchrus on plankton community dynamics in the subarctic
Pacific. Progr. Oceanogr. 32:239-258.
*Keil, R.G. and D.L. Kirchman. 1994. Abiotic transformation of labile
protein to refractory protein in sea water. Mar. Chem. 45:187-196.
Kirchman, D.L. 1994. The uptake of inorganic nutrients by heterotrophic
bacteria. Microb. Ecol. 28:255-271.
Kirchman, D.L., H.W. Ducklow, J.J. McCarthy, and C. Garside. 1994.
Biomass and nitrogen uptake by heterotrophic bacteria during the
spring phytoplankton bloom in the North Atlantic Ocean. Deep-Sea
Res. 41:879-895.
*Vandevivere, P., S.A. Welch, W.J. Ullman, and D.L. Kirchman. 1994.
Enhanced dissolution of silicate minerals by bacteria at near-neutral
pH. Microb. Ecol. 27:241-251.
*Montgomery, M.T. and D.L. Kirchman. 1994. Induction of chitin-binding
proteins during the specific attachment of the marine bacterium Vibrio harveyi to chitin. Appl.
Environ. Microbiol. 60:4284-4288.
*Hoch, M.P., M.L. Fogel, and D.L. Kirchman. 1994. Isotope fractionation
during ammonium uptake by marine microbial assemblages. Geomicrobiology
Journal 12:113-127.
*Hoch, M. and D.L. Kirchman. 1995. Ammonium uptake by heterotrophic
bacteria in the Delaware estuary and adjacent coastal waters. Limnol.
Oceanogr. 40:886-897.
Kirchman, D.L., *J.H. Rich, and R.T. Barber. 1995. Biomass and biomass
production of heterotrophic bacteria along 140° W in the equatorial
Pacific: Effect of temperature on the microbial loop. Deep-Sea Res
II 42:603-619.
Confer, D.R., B.E. Logan, B.S. Aiken, and D.L. Kirchman. 1995. Measurement
of dissolved free and combined amino acids in unconcentrated wastewaters
using high performance liquid chromatography. Water Environ. Res.
67(1):118-125.
Middelboe, M., *N.H. Borch, and D.L. Kirchman. 1995. Bacterial utilization
of dissolved free amino acids, dissolved combined amino acids and
ammonium in the Delaware Bay estuary: effects of carbon and nitrogen
limitation. Mar. Ecol. Prog. Ser. 128:109-120.
Wheeler, P.A., M. Gosselin, E. Sherr, D. Thibault, D.L. Kirchman,
R. Benner, and T.E. Whitledge. 1996. Active cycling of organic carbon
in the central Arctic Ocean. Nature 380:697-699.
*Rich, J.H., H.W. Ducklow, and D.L. Kirchman. 1996. Concentrations
and uptake of neutral monosaccharides along 140°W in the equatorial
Pacific: Contribution of glucose to heterotrophic bacterial activity
and the DOM flux. Limnol. Oceanogr. 41:595-604.
*Nagata, T. and D.L. Kirchman. 1996. Bacterial degradation of protein
adsorbed to model submicron particles in seawater. Mar. Ecol. Prog.
Ser. 132:241-248.
Ullman, W.J., D.L. Kirchman, S.A. Welch, and *P. Vandevivere. 1996.
Laboratory evidence for microbially mediated silicate mineral dissolution
in nature. Chemical Geology 132:11-17.
Kirchman, D.L. 1996. Microbial ferrous wheel. Nature 383:303-304.
Kirchman, D.L. 1997. Microbial breathing lessons. Nature 385:121-122.
Kirchman, D.L. and *J.H. Rich. 1997. Regulation of bacterial growth
rates by dissolved organic carbon and temperature in the equatorial
Pacific Ocean. Microb. Ecol. 33:11-20.
*Svitil, Amy L.,
*S.M. Ni Chadhain,
*J.A. Moore, and D.L. Kirchman.
1997. Chitin degradation proteins produced by the marine bacterium Vibrio harveyi growing on different
forms of chitin. Appl. Environ. Microbiol. 63:408-413.
Archer, D., E.T. Peltzer, and D.L. Kirchman. 1997. A timescale for
dissolved organic carbon production in equatorial Pacific surface
waters. Global Biogeochem. Cycles 11:435-45.
*Borch, N.H. and D.L. Kirchman. 1997. Concentration and composition
of dissolved combined neutral sugars (polysaccharides) in seawater determined by HPLC-PAD. Mar. Chem. 57:85-95.
*Nagata, T. and D.L. Kirchman. 1997. Roles of submicron particles
and colloids in microbial food webs and biogeochemical cycles within
marine environments. Adv. Microb. Ecol. 15:81-103.
Dittel, A.I., C.E. Epifanio, L.A. Cifuentes*, and D.L. Kirchman. 1997. Carbon and nitrogen sources for shrimp postlarvae fed natural diets from a tropical mangrove system. Est. Coast Shelf Sci. 45:629-637.
*Rich, J., M. Gosselin, E. Sherr, B. Sherr, and D.L. Kirchman. 1997. High bacterial production, uptake and concentrations of dissolved organic matter in the Central Arctic Ocean. Deep-Sea Research II 44:1645-1663. doi:10.1016/S0967-0645(97)00058-1
Archer, D., J. Aiken, W. Balch, D. Barber, J. Dunne, P. Flament, W. Gardner, C. Garside, C. Goyet, E. Johnson, D. Kirchman, M. McPhaden, J. Newton, E. Peltzer, L. Welling, J. White, and J. Yoder.
1997. A meeting place of great ocean currents: shipboard observations
of a convergent front at 2°N in the Pacific. Deep Sea Research.
II 44:1827-1849.
*Nagata, T., R. Fukuda, I. Koike, K. Kogure, and D.L. Kirchman. 1998.
Degradation by bacteria of membrane and soluble protein in seawater.
Aquatic Microbial Ecology 14:29-37.
Kirchman, D.L. and P.A. Wheeler. 1998. Uptake of ammonium and nitrate
by heterotrophic bacteria and phytoplankton in the sub-Arctic Pacific.
Deep Sea Research. I 45:347-365.
*Svitil, A.L. and D.L. Kirchman. 1998. A chitin-binding domain in
a marine bacterial chitinase and other microbial chitinases: implications
for the evolution of ß-1,4-glycanases. Microbiology (U.K.)
144:1299-1308.
*Borch, N.H. and D.L. Kirchman. 1999. Protection of protein from bacterial degradation by submicron particles. Aquatic
Microbial Ecology 16:265-272.
Kirchman, D.L. 1999. Phytoplankton death in the sea. Nature 398:293-294.
*Cottrell, M.T., J.A. Moore*, and D.L. Kirchman. 1999. Chitinases
from uncultured marine microorganisms. Appl. Envir. Microbiol. 65:2553-2557.
*Keil, R.G. and Kirchman, D.L. 1999. Utilization of dissolved protein
and amino acids in the northern Sargasso Sea. Aquatic Microbial
Ecology 18:293-300.
Kirchman, D.L., and J. White*. 1999. Hydrolysis and mineralization
of chitin in the Delaware Estuary. Aquatic Microbial Ecology 18:187-196.
*Cottrell, M.T. and D.L. Kirchman. 2000. Natural assemblages of
marine proteobacteria and members of Cytophaga-Flavobacter cluster consuming low- and
high-molecular weight dissolved organic matter. Appl. Environ.
Microb. 66:1692-1697.
*Cottrell, M.T., D.N. Wood,* L.Y. Yu*, and D.L. Kirchman. 2000. Selected
chitinase genes in cultured and uncultured marine bacteria in the α- and γ-subclasses of the proteobacteria. Appl. Environ.
Microbiol. 66:1195-1201.
Hedges, J.I., G. Eglinton, P.G. Hatcher, D.L. Kirchman, C. Arnosti, S. Derenne, R.P. Evershed, I. Kögel-Knabner, J.W. de Leeuw, R. Littke, W. Michaelis, and J. Rullkötter. 2000. The molecularly-uncharacterized component of nonliving organic matter in natural environments. Org. Geochem. 31:945-958.
Kirchman, D.L., B. Meon*, M.T. Cottrell*, D.A. Hutchins, D. Weeks, and K.W. Bruland. 2000. Carbon versus iron limitation of bacterial growth in the California upwelling regime. Limnol. Oceanogr. 45:1681-1688.
*Cottrell, M.T. and D.L. Kirchman. 2000. Community composition of marine bacterioplankton determined by 16S rDNA gene clone libraries and fluorescence in situ hybridization. Appl. Environ. Microbiol. 66:5116-5122.
Ducklow, H.W., M.L. Dickson, D.L. Kirchman, G. Steward, J. Orchardo, J. Marra, and F. Azam. 2000. Constraining bacterial production, conversion efficiency and respirations in the Ross Sea, Antarctica, January-February, 1997. Deep-Sea Res. II 47:3227-3247.
Ducklow, H., C. Carlson, M. Church, D. Kirchman, D. Smith, and G. Steward. 2001. The seasonal development of the bacterioplankton bloom in the Ross Sea, Antarctica, 1994-1997. Deep-Sea Res. II 48:4199-4221.
Kirchman, D.L., B. Meon*, H.W. Ducklow, C.A. Carlson, D.A. Hansell, and G. Steward. 2001. Glucose fluxes and concentrations of dissolved combined neutral sugars (polysaccharides) in the Ross Sea and Polar Front Zone, Antarctica. Deep-Sea Res. II 48:4179-4197.
*Meon, B. and D.L. Kirchman. 2001. Dynamics and molecular composition of dissolved organic material during experimental phytoplankton blooms. Mar. Chem. 75:185-199.
Kirchman, D.L., L. Yu*, B.M. Fuchs, and R. Amann. 2001. Structure of bacterial communities in aquatic systems as revealed by filter PCR. Aquatic Microbial Ecology 26:13-22.
Kirchman, D.L. 2001. Bacteria in biofilms are living an unnatural life. Nature 413:772. (Short correspondence).
Landry, M.R. and D.L. Kirchman. 2002. Microbial community structure and variability in the tropical Pacific. Deep-Sea Res. II 49:2669-2693.
Kirchman D.L. 2002. Calculating microbial growth rates from data on production and standing stocks. Mar. Ecol. Prog. Series. 233:303-306.
Kirchman D.L. 2002. The ecology of Cytophaga-Flavobacteria in aquatic environments. FEMS Microb. Ecol. 39:91-100.
Ducklow, H.W., D.L. Kirchman, and T.R. Anderson. 2002. The magnitude of spring bacterial production in the North Atlantic Ocean. Limnol. Oceanogr. 47:1684-1693.
Kirchman, D.L., K.A. Hoffman*, R. Weaver* and D.A. Hutchins. 2003. Regulation of growth and energetics of a marine bacterium by nitrogen source and iron availability. Mar. Ecol. Progr. Ser. 250:291-296.
*Cottrell, M.T. and D.L. Kirchman. 2003. Contribution of major bacterial groups to bacterial biomass production (thymidine and leucine incorporation) in the Delaware estuary. Limnol. Oceanogr. 48:168-178.
Nagata, T., B. Meon*, and D.L. Kirchman. 2003. Microbial degradation of peptidoglycan in seawater. Limnol. Oceanogr. 48:745-754.
Kirchman, D.L. and N.H. Borch*. 2003. Fluxes of dissolved combined neutral sugars (polysaccharides) in the Delaware estuary. Estuaries 26:894-904.
Kirchman, D.L., L. Yu*, and M.T. Cottrell*. 2003. Diversity and abundance of uncultured Cytophaga-like bacteria in the Delaware estuary. Appl. Environ. Microbiol. 69:6587-6596.
Weaver, R.S., D.L. Kirchman, and D.A. Hutchins. 2003. Utilization of iron/organic ligand complexes by marine bacterioplankton. Aquatic Microb. Ecol. 31:227-239.
*Cottrell, M.T. and D.L. Kirchman. 2004. Single-cell analysis of bacterial growth, cell size, and community structure in the Delaware estuary. Aquat. Microb. Ecol. 34:139-149.
*Malmstrom, R.R., R.P. Kiene, and D.L. Kirchman. 2004. Identification and enumeration of bacteria assimilating dimethylsulfoniopropionate (DMSP) in the North Atlantic and Gulf of Mexico. Limnol. Oceanogr. 49:597-606.
*Malmstrom, R.R., R P. Kiene, M T. Cottrell*, and D.L. Kirchman. 2004. Contribution of SAR11 bacteria to dissolved dimethylsulfoniopropionate and amino acid uptake in the North Atlantic Ocean. Appl. Environ. Microbiol. 70:4129-4135.
Kirchman, D.L., A.I. Dittel, S.E.G. Findlay, and D. Fischer. 2004. Changes in bacterial activity and community structure in response to dissolved organic matter in the Hudson River, New York. Aquatic Microbial Ecology 35:243-257.
Yokokawa, T., T. Nagata, M.T. Cottrell*, and D.L. Kirchman. 2004. Growth rate of the major phylogenetic bacterial groups in the Delaware estuary. Limnol. Oceanogr. 49:1620-1629.
*Castle, D. and D. L. Kirchman. 2004. Composition of estuarine bacterial communities assessed by denaturing gradient gel electrophoresis and fluorescence in situ hybridization. Limnol. Oceanogr.: Methods 2:303-314.
*Preen, K. and D.L. Kirchman. 2004. Microbial respiration and production in the Delaware Estuary. Aquat. Microb. 37:109-119.
Verdugo, P., A.L. Alldredge, F. Azam, D.L. Kirchman, U. Passow, and P.H. Santschi. 2004. The oceanic gel phase: a bridge in the DOM-POM continuum. Mar. Chem. 92:67.
*Cottrell, M.T., L.A. Waidner*, L. Yu*, and D.L. Kirchman. 2005. Bacterial diversity of metagenomic and PCR libraries from the Delaware River. Environ. Microbiol. 7:1883-1895.
*Cottrell, M.T., L. Yu*, and D.L. Kirchman. 2005. Sequence and expression analyses of Cytophaga-like hydrolases in a western Arctic metagenomic library and the Sargasso Sea. Appl. Environ. Microbiol. 71:8506-8513.
Kirchman, D.L., A.I. Dittel, R.R. Malmstrom*, and M.T. Cottrell*. 2005. Biogeography of major bacterial groups in the Delaware estuary. Limnol. Oceanogr. 50:1697-1706.
Kirchman, D. L., R. R. Malmstrom*, and M. T. Cottrell*. 2005. Control of bacterial growth by temperature and organic matter in the Western Arctic. Deep-Sea Res II 52: 3386-3395.
*Elifantz, H., R.R. Malmstrom*, M.T., Cottrell*, and D.L. Kirchman. 2005. Assimilation of polysaccharides and glucose by major bacterial groups in the Delaware Estuary. Appl. Environ. Microbiol. 71:7799-7805.
Hare, C.E., E. Demir, K.J. Coyne, S.C. Cary, D.L. Kirchman, and D.A. Hutchins. 2005. A bacterium that inhibits the growth of Pfiesteria piscicida and other dinoflagellates. Harmful Algae 4:221-234.
*Malmstrom, R.R., M.T. Cottrell*, H. Elifantz*, and D.L. Kirchman. 2005. Biomass production and assimilation of dissolved organic matter by SAR11 bacteria in the Northwest Atlantic Ocean. Appl. Environ. Microbiol. 71 (6):2979-2986.
*Malmstrom, R.R., R.P. Kiene, M. Vila, and D.L. Kirchman. 2005. Dimethylsulfoniopropionate (DMSP) assimilation by Synechococcus in the Gulf of Mexico and northwest Atlantic Ocean. Limnol Oceanogr 50:1924-1931.
*Waidner, L A., and D.L. Kirchman. 2005. Aerobic anoxygenic photosynthesis genes and operons in uncultured bacteria in the Delaware River. Environmental Microbiology 7:1896-1908.
Helton, R.R., M.T. Cottrell*, D.L. Kirchman, and K.E. Wommack. 2005. Evaluation of incubation-based methods for estimating virioplankton production in estuaries. Aquat. Microb. Ecol. 41 (3):209-219.
*Cottrell, M.T., A. Mannino, and D.L. Kirchman. 2006. Aerobic anoxygenic phototrophic bacteria in the Mid-Atlantic Bight and the North Pacific Gyre. Appl. Environ. Microbiol. 72: 557-564.
Harvey, H.R., R.Y. Dyda-Rearick, and D.L. Kirchman. 2006. Impact of DOM composition on bacterial lipids and community structure in estuaries. Aquat. Microb. Ecol. 42:105-117.
*Castle, D., M.T. Montgomery*, and D.L. Kirchman. 2006. Effects of naphthalene on microbial community composition in the Delaware Estuary. FEMS Microbiol. Ecol. 56:55-63.
Tamburini, C., J. Garcin, G. Grégori, K. Leblanc, P. Rimmelin, and D.L. Kirchman. 2006. Pressure effects on surface Mediterranean prokaryotes and biogenic silica dissolution during a diatom sinking experiment. Aquat. Microb. Ecol. 43:267-276.
*Zhang, Y., N. Jiao, M.T. Cottrell*, and D.L. Kirchman. 2006. Contribution of major bacterial groups to bacterial biomass production along a salinity gradient in the South China Sea. Aquat. Microb. Ecol. 43:233-241.
*Jones, P.R., M.T. Cottrell*, D.L. Kirchman, and S.C. Dexter. 2007. Bacterial community structure of biofilms on artificial surfaces in an estuary. Microbial. Ecol. 53:153-162.
Kirchman, D.L., H. Elifantz*, A.I. Dittel, R.R. Malmstrom*, and M.T. Cottrell*. 2007. Standing stocks and activity of archaea and bacteria in the western Arctic Ocean. Limnol. Oceanogr. 52:495-507.
Kirchman, D.L., and C. Pedrós-Alió. 2007. Predictions for the future of microbial oceanography. Oceanography 20:166-171.
Lami, R., M.T. Cottrell*, J. Ras, O. Ulloa, I. Obernosterer, H. Claustre, D.L. Kirchman, and P. Lebaron. 2007. High abundances of aerobic anoxygenic photosynthetic bacteria in the South Pacific Ocean. Appl. Environ. Microbiol. 73:4198-4205.
*Malmstrom, R.R., Straza*, T.R.A., M.T. Cottrell*, and D.L. Kirchman. 2007. Diversity, abundance, and biomass production of bacterial groups in the western Arctic Ocean. Aquat. Microb. Ecol. 47:45-55.
*Michelou, V.K., M T. Cottrell*, and D. L. Kirchman. 2007. Light-stimulated bacterial production and amino acid assimilation by cyanobacteria and other microbes in the North Atlantic Ocean. Appl. Environ. Microbiol. 73:5539-5546.
*Waidner, L.A., and D.L. Kirchman. 2007. Aerobic anoxygenic phototrophic bacteria attached to particles in turbid waters of the Delaware and Chesapeake estuaries. Appl. Environ. Microbiol. 73:3936-3944.
*Elifantz, H., A.I. Dittel, M.T. Cottrell*, and D.L. Kirchman. 2007. Dissolved organic matter assimilation by heterotrophic bacterial groups in the western Arctic Ocean. Aquat. Microb. Ecol. 50:39-49.
*Elifantz, H., L.A. Waidner, V.K. Michelou, M.T. Cottrell*, and D.L. Kirchman. 2008. Diversity and abundance of glycosyl hydrolase family 5 in the North Atlantic Ocean. FEMS Microbial Ecol. 63:316-327.
Rowe, J.M., M.A. Saxton, M.T. Cottrell, J.M. DeBruyn, G.M. Berg, D.L. Kirchman, D.A. Hutchins, and S.W. Wilhelm. 2008. Constraints on viral production in the Sargasso Sea and North Atlantic. Aquatic. Microb. Ecol. 52:233-244.
*Cottrell, M.T., V.K. Michelou*, N. Nemcek, G.DiTullio, and D.L. Kirchman. 2008. Carbon cycling by microbes influenced by light in the Northeast Atlantic Ocean. Aquat. Microb. Ecol. 50:239-250.
Campbell, B.J., L.A. Waidner*, M.T. Cottrell*, and D. L. Kirchman. 2008. Abundant proteorhodopsin genes in the North Atlantic Ocean. Environ. Microbiol. 10:99-109.
Kirchman, D. L. 2008. New light on an important microbe in the ocean. Proceedings of the National Academy of Sciences 105:8487-8488.
*Waidner, L.A., and D.L. Kirchman. 2008. Diversity and distribution of ecotypes of the aerobic anoxygenic phototrophy gene pufM in the Delaware Estuary. Appl. Environ. Microbiol. 74:4012-4021.
Kirchman, D.L., V. Hill, M.T. Cottrell*, R. Gradinger, R.R. Malmstrom*, and A. Parker. 2009. Standing stocks, production and respiration of phytoplankton and heterotrophic bacteria in the western Arctic Ocean. Deep-Sea Res II 56:1237-1248. doi:10.1016/j.dsr2.2008.10.018
Galand, P. E., E. O. Casamayor, D. L. Kirchman, M. Potvin, and C. Lovejoy. 2009. Unique archaeal assemblages in the Arctic Ocean unveiled by massively parallel tag sequencing. Environ. Microbiol. 3:860-869.
Galand, P.E., E.O. Casamayor, D.L. Kirchman, and C. Lovejoy. 2009. Ecology of the rare microbial biosphere of the Arctic Ocean. Proceedings of the National Academy of Sciences 106:22427-22432.
Kirchman, D. L., X. A. G. Morán, and H. Ducklow. 2009. Microbial growth in the polar oceans-role of temperature and potential impacts of climate change. Nat. Rev. Microbiol. 7:451-459.
*Straza, T. R. A., M. T. Cottrell*, H. W. Ducklow, and D. L. Kirchman. 2009. Geographic and phylogenetic variation in bacterial biovolume as revealed by protein and nucleic acid staining. Appl. Environ. Microbiol. 75:4028-4034.
*Campbell, B. J., L. Yu*, T. R. A. Straza*, and D. L. Kirchman. 2009. Temporal changes in bacterial rRNA and rRNA genes in Delaware (USA) coastal waters. Aquat. Microb. Ecol. 57: 123-135. doi: 10.3354/ame01335.
Cottrell, M.T., and Kirchman, D.L. 2009. Photoheterotrophic microbes in the Arctic Ocean in summer and winter. Appl. Environ. Microbiol. 75:4958-4966.
*Lami, R., M.T. Cottrell, B.J. Campbell, and D.L. Kirchman. 2009. Light-dependent growth and proteorhodopsin expression by Flavobacteria and SAR11 in experiments with Delaware coastal waters. Environ. Microbiol. 11: 3201-3209.
Angly, F.E., Willner, D., Prieto-Davó, Edwards, R.A., Schmieder, R., R. Vega-Thurber, et. al. 2009. The GAAS metagenomic tool and its estimations of viral and microbial average genomce size in four major biomes. PLoS Comput. Biol. 5:e1000-593.
Kirchman, D.L., M.T. Cottrell, and C. Lovejoy. 2010. The structure of bacterial communities in the western Arctic Ocean as revealed by pyrosequencing of 16S rRNA genes. Environ. Microbiol. 12:1132-1143. doi:10.1111/j.1462-2920.2010.02154.x
Jiao, N., G.J. Herndl, D.A. Hansell, R. Benner, G. Kattner, S.W. Wilhelm, D.L. Kirchman, M.G. Weinbauer, T. Luo, F. Chen, and F. Azam. 2010. Microbial production of recalcitrant dissolved organic matter: Long-term carbon storage in the global ocean. Nat. Rev. Micro. 8:593-599. doi:10.1038/nrmicro2386.
*Straza, T.R.A., H.W. Ducklow, A.E. Murray, and D.L. Kirchman. 2010. Abundance and single-cell activity of bacterial groups in Antarctic coastal waters. Limnol. Oceanogr. 55:2526-2536.
Lehours, A.C., M.T. Cottrell, O. Dahan, D.L. Kirchman, and C. Jeanthon. 2010. Summer distribution and diversity of aerobic anoxygenic phototrophic bacteria in the Mediterranean Sea in relation to environmental variables. FEMS Microbiol. Ecol. 74:397-409.
Cottrell, M.T., J. Ras, and D.L. Kirchman. 2010. Bacteriochlorophyll and community structure of aerobic anoxygenic phototrophic bacteria in a particle-rich estuary. ISME J. 4:945-954.
*Michelou, V., M.W. Lomas, and D.L. Kirchman. 2011. Phosphate and adenosine-5'-triphosphate uptake by cyanobacteria and heterotrophic bacteria in the Sargasso Sea. Limnol. Oceanogr. 56:323-332.
Lovejoy, C., P.E. Galand, and D.L. Kirchman. 2011. Picoplankton diversity in the Arctic Ocean and surrounding seas. Marine Biodiversity 41:5-12. DOI 10.1007/s12526-010-0062-z.
*Straza, T.R.A., and D.L. Kirchman. 2011. Single-cell response of bacterial groups to light and other environmental factors in the Delaware Bay, USA. Aquatic Microbial Ecology 62:267-277. doi: 10.3354/ame01469.
*Christman, G.D., M.T. Cottrell, B.N. Popp, and D.L. Kirchman. 2011. Abundance, diversity, and activity of ammonia-oxidizing prokaryotes in the coastal Arctic Ocean in summer and winter. Appl. Environ. Microb. 77:2026-2034.
Gonsalves, M.-J., C. Fernandes, S. Fernandes, D.L. Kirchman, and P.A.L. Bharathi. 2011. Effects of composition of labile organic matter on biogenic production of methane in the coastal sediments of the Arabian Sea. Environ. Monit. Assess. 182:385-395.
Jiao, N., G.J. Herndl, D.A. Hansell, R. Benner, G. Kattner, S.W. Wilhelm, et al. 2011. The microbial carbon pump and the oceanic recalcitrant dissolved organic matter pool. Nat. Rev. Micro. 9:555.
Lamy, D., C. Jeanthon, M.T. Cottrell, D.L. Kirchman, F. Van Wambeke, J. Ras, O. Dahan, et al. 2011. Ecology of aerobic anoxygenic phototrophic bacteria along an oligotrophic gradient in the Mediterranean Sea. Biogeosciences 8:973-985.
Lamy, D., P. De Carvalho-Maalouf, M.T. Cottrell, *R. Lami, P. Catala, L. Oriol, et al. 2011. Seasonal dynamics of aerobic anoxygenic phototrophs in a Mediterranean coastal lagoon. Aquatic Microbial Ecology 62:153-163.
Twing, K.I., D.L. Kirchman, and B.J. Campbell. 2011. Temporal study of Helicobacter pylori presence in coastal freshwater, estuary and marine waters. Water Research 45:1897-1905.
Campbell, B.J., L. Yu, J.F. Heidelberg, and D.L. Kirchman. 2011. Activity of abundant and rare bacteria in a coastal ocean. Proceedings of the National Academy of Sciences 108:12776-12781.
*Nikrad, M.P., M.T. Cottrell, and D.L. Kirchman (2012). Abundance and single-cell activity of heterotrophic bacterial groups in the western Arctic Ocean in summer and winter. Appl. Environ. Microbiol. 78:2402-2409.
Galand, P.E., M. Bourrain, E. De Maistre, P. Catala, Y. Desdevises, H. Elifantz, et al. 2012. Phylogenetic and functional diversity of Bacteria and Archaea in a unique stratified lagoon, the Clipperton atoll (N Pacific). FEMS Microbiol. Ecol. 79:203-217.
Ghiglione, J.-F., Galand, P.E., Pommier, T., Pedrós-Alió, E.W. Maas, K. Bakker, S. Bertilson, D.L. Kirchman, C. Lovejoy, P.L. Yager, and A.E. Murray. Pole-to-pole biogeography of surface and deep marine bacterial communities. Proceedings of the National Academy of Sciences 109:17633-17638.
Kirchman, D.L. 2012. Marine archaea take a short cut in the nitrogen cycle. Proceedings of the National Academy of Sciences 109:17732-17733.
Cottrell, M.T., and D.L. Kirchman. 2012. Virus genes in Arctic marine bacteria identified by metagenomic analysis. Aquat. Microb. Ecol. 66:107-116.
Campbell, B.J., and D.L. Kirchman. 2012. Bacterial diversity, community structure and potential growth rates along an estuarine salinity gradient. ISME J. doi:10.1038/ismej.2012.93.
Boeuf, D., M.T. Campbell, D.L. Kirchman, P. Lebaron, and C. Jeanthon. 2013. Summer community structure of aerobic anoxygenic phototrophic bacteria in the western Arctic Ocean. FEMS Microbiol. Ecol. In press. doi:10.1111/1574-6941.12130.
Campbell, B.J., and D.L. Kirchman. 2013. Bacterial diversity, community structure and potential growth rates along an estuarine salinity gradient. ISME J. 7:210-220.
Kirchman, D.L. 2013. Microbial oceanography: Killers of the winners. Nature 494:320-321.
Kirchman, D.L. and T.E. Hanson. 2013. Bioenergeteics of photoheterotrophic bacteria in the oceans. Environ. Microbiol. Rep. 5:188-189.
*Lami, R., L.C. Jones, M.T. Cottrell, B.J. Lafferty, M. Ginder-Vogel, D.L. Sparks, and D.L. Kirchman. 2013. Arsenite modifies structure of soil microbial communities and arsenite oxidation potential. FEMS Microbiol. Ecol. 84:270-279. doi:10.1111/j.1758-2229.2012.00367x
* Students or postdocs in Kirchman's lab.
Books
Kirchman, D.L. (Editor). 2000. Microbial Ecology of the Oceans. First Edition. Wiley-Liss.
Kirchman, D.L. (Editor). 2008. Microbial Ecology of the Oceans. Second Edition. Wiley-Liss.
Kirchman, D.L. 2012. Processes Microbial Ecology. Oxford University Press.
Invited Reviews
Kirchman, D.L. and R. Mitchell. 1981. A biochemical mechanism for marine biofouling. Proceedings of Oceans Conference.
Kirchman, D.L. and R. Mitchell. 1983. Biochemical interactions between micro-organisms and marine fouling invertebrates. In Biodeterioration 5. P.A. Oxley and S. Barry (eds.). John Wiley and Sons, Ltd.
Kirchman, D.L. and R. Mitchell. 1984. Possible role of lectins in the settlement and metamorphosis of marine invertebrate larvae on surface coated with bacteria. Bacteriologie Marinae, Marseille (17-19 May 1982). pp.173-177.
Mitchell, R. and D.L. Kirchman. 1984. The microbial ecology of marine surfaces. In Marine Biodeterioration: An Interdisciplinary Study. J.D. Costlow and RC. Tipper (eds.). Naval Institute Press, Annapolis, Maryland.
Pomeroy, L.R., R.B. Hanson, P.A. McGillivary, B.F. Sherr, D.L. Kirchman and D. Deibel. 1984. Microbiology and chemistry of fecal products of pelagic tunicates: rates and fates. Bull. Mar. Sci. 35:426-439.
Kirchman, D.L., R.E. Murray, and R.E. Hodson. 1986. Rates of DNA and protein synthesis by heterotrophic bacteria in aquatic environments: a comparison between the thymidine and leucine approaches. Proceedings of the Fourth International Symposium on Microbial Ecology, Ljubljana, Yugoslavia. pp. 631-637.
Kirchman, D.L. and H.W. Ducklow. 1987. Trophic dynamics of particle-bound bacteria in pelagic ecosystems: a review. In "Detrital Systems for Aquaculture", D.J.W. Moriarty and R.S.V. Pullin (eds.), International Center for Living Aquatic Resources Management. Manila, Philippines.
Kirchman, D.L. l989. Regulation of ammonium uptake by heterotrophic bacteria in the oceanic Subarctic Pacific. Proceedings of the Fifth International Symposium on Microbial Ecology, Kyoto, Japan, pp. 383-387. Japan Scientific Societies Press.
Hoch, M.P., D.L. Kirchman, and M.L. Fogel. 1989. Nitrogen isotope fractionation in the uptake of ammonium by a marine bacterium. In Annual Report of the Director of the Geophysical Laboratory, Carnegie Institute, Washington, 1988-1989. Geophysical Laboratory, Washington, DC., pp.117-122.
Nagata, T. and D.L. Kirchman. 1992. Release of dissolved organic matter by heterotrophic protozoa: implications for microbial food webs. Archiv. für Hydrobiologie 35:99-109.
Kirchman, D.L., J. Moss, and R.G. Keil. 1992. Nitrate uptake by heterotrophic bacteria: does it change the f-ratio? Arch. Hydrobiol. 37:129-138.
Kirchman, D.L., C. Lancelot, M. Fasham, L. Legendre, G. Radach, and M. Scott. 1993. Dissolved organic matter in biogeochemical models of the ocean. In Towards a Model of Biogeochemical Ocean Processes. G.T. Evans and M.J.R. Fusham (eds.). pp. 209-225. Springer-Verlag, Berlin.
Kirchman, D.L. 1994. Editorial comment: Natural history of a manuscript, revisited. Limnol. Oceanogr. 39(3):739-741.
Published Proceedings
Kirchman, D.L. and R. Mitchell. 1981. A biochemical mechanism for marine biofouling. Proceedings of Oceans Conference.
Kirchman, D.L. and R. Mitchell. 1983. Biochemical interactions between micro-organisms and marine fouling invertebrates. In Biodeterioration 5. P.A. Oxley and S. Barry (eds.). John Wiley and Sons, Ltd.
Kirchman, D.L. and R. Mitchell. 1984. Possible role of lectins in the settlement and metamorphosis of marine invertebrate larvae on surface coated with bacteria. Bacteriologie Marinae, Marseille (17-19 May 1982), pgs.173- 177.
Mitchell, R. and D.L. Kirchman. 1984. The microbial ecology of marine surfaces. In Marine Biodeterioration: An Interdisciplinary Study. J.D. Costlow and R.C. Tipper (eds.) Naval Institute Press, Annapolis, Maryland.
Pomeroy, L.R., R.B. Hanson, P.A. McGillivary, B.F. Sherr, D.L. Kirchman, and D. Deibel. 1984. Microbiology and chemistry of fecal products of pelagic tunicates: rates and fates. Bull. Mar. Sci. 35:426-439.
Kirchman, D.L., R.E. Murray, and R.E. Hodson. 1986. Rates of DNA and protein synthesis by heterotrophic bacteria in aquatic environments: a comparison between the thymidine and leucine approaches. Proceedings of the Fourth International Symposium on Microbial Ecology, Ljubljana, Yugoslavia, pp. 631-637.
Kirchman, D.L. and H.W. Ducklow. 1987. Trophic dynamics of particle-bound bacteria in pelagic ecosystems: a review. In Detrital Systems for Aquaculture, D.J.W. Moriarty and R.S.V. Pullin (eds.), International Center for Living Aquatic Resources Management, Manila, Philippines.
Kirchman, D.L. l989. Regulation of ammonium uptake by heterotrophic bacteria in the oceanic Subarctic Pacific. Proceedings of the Fifth International Symposium on Microbial Ecology, Kyoto, Japan, pp. 383-387. Japan Scientific Societies Press.
Hoch, M.P., D.L. Kirchman, and M.L. Fogel. 1989. Nitrogen isotope fractionation in the uptake of ammonium by a marine bacterium. In Annual Report of the Director of the Geophysical Laboratory, Carnegie Institution, Washington, 1988-1989, Geophysical Laboratory, Washington, DC., pp. 117-122.
Nagata, T. and D.L. Kirchman. 1992. Release of dissolved organic matter by heterotrophic protozoa: implications for microbial food webs. Archiv. für Hydrobiologie 35:99-109.
Kirchman, D.L., J. Moss, and R.G. Keil. 1992. Nitrate uptake by heterotrophic bacteria: does it change the f-ratio? Arch. Hydrobiol. 37:129-138.
Kirchman, D.L., C. Lancelot, M. Fasham, L. Legendre, G. Radach, and M. Scott. 1993. Dissolved organic matter in biogeochemical models of the ocean. In Towards a Model of Biogeochemical Ocean Processes, G.T. Evans and M.J.R. Fusham (eds.), Springer-Verlag, Berlin. pp. 209-225.
Book Chapters
Kirchman, D.L. 2004. A primer on dissolved organic material and heterotrophic prokaryotes in the oceans. In The Ocean Carbon Cycle and Climate, M. Follows and T. Oguz (eds.). Kluwer Academic Publ., Netherlands. pp. 31-63.
Kirchman, D.L. 2003. The contribution of monomers and other low-molecular
weight compounds to the flux of dissolved organic material in aquatic
ecosystems. In Aquatic Ecosystems: Interactivity of
Dissolved Organic Matter, S. Findlay and R L. Sinsabaugh
(eds.). Elsevier Science, pp. 217-241.
Kirchman, D.L. 1993. Bacteria and particulate detritus
in the oceans. In Aquatic Microbiology: An Ecological Approach,
T.E. Ford (ed.), Blackwell Sci. Publ. pp. 321-341.
Kirchman, D.L. and H.W. Ducklow. 1993. Estimating conversion factors
for the thymidine and leucine method for measuring bacterial production. In Current Methods in Aquatic Microbial Ecology, P.F. Kemp,
B.F. Sherr, E.B. Sherr, and J.J. Cole (eds.). Lewis Publishers,
New York. pp. 513-519.
Kirchman, D.L. 1993. Statistical analysis of direct counts of microbial
abundance. In Current Methods in Aquatic Microbial Ecology,
P.F. Kemp, B.F. Sherr, E.B. Sherr, and J.J. Cole (eds.). Lewis Publishers,
New York. pp. 117-120.
Kirchman, D.L. 1993. Leucine incorporation as a measure of biomass
production by heterotrophic bacteria. In Current Methods
in Aquatic Microbial Ecology, P.F. Kemp, B.F. Sherr, E.B. Sherr,
and J.J. Cole (eds.). Lewis Publishers, New York. pp. 509-512.
Montgomery, M.T. and D.L. Kirchman. 1993. Chitin concentrations
and degradation in marine environments. In Current Methods
in Aquatic Microbial Ecology, P.F. Kemp, B.F. Sherr, E.B. Sherr,
and J.J. Cole (eds.). Lewis Publishers, New York. pp. 597-600.
Kirchman, D.L. 2000. Uptake and regeneration of inorganic nutrients
by marine heterotrophic bacteria. In Microbial Ecology of
the Oceans, D.L. Kirchman, (ed.). Wiley-Liss, pp. 261-288.
Kirchman, D.L. and Peter J. leB. Williams. 2000. Introduction. In Microbial Ecology of the Oceans, D.L. Kirchman, (ed.). Wiley-Liss,
pp. 1-11.
Kirchman, D.L. 2001. Measuring bacterial biomass production and
growth rates from leucine incorporation in natural aquatic environments. In Methods in Microbiology (Vol 30): Marine Microbiology, J.H. Paul (ed.). Academic Press.
Kirchman, D. L. 2008. Introduction and overview. In Microbial Ecology of the Oceans, D.L. Kirchman (ed.). Wiley-Liss, pp. 1-26.
This page was last updated: May 2013
