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  • Bertilsson, S., O. Berglund, D. M. Karl, and S. W. Chisholm (2003), Elemental composition of marine Prochlorococcus and Synechococcus: Implications for the ecological stoichiometry of the sea, Limnol. Oceanogr., 48, 17211731.
  • Boyd, P. W., S. Strom, F. A. Whitney, S. Doherty, M. E. Wen, P. J. Harrison, C. S. Wong, and D. E. Varela (1995), The NE subarctic Pacific in winter: 1. Biological standing stocks, Mar. Ecol. Prog. Ser., 128, 1124.
  • Bratbak, G., and T. F. Thingstad (1985), Phytoplankton-bacteria interactions: An apparent paradox? Analysis of a model system with both competition and commensalism, Mar. Ecol. Prog. Ser., 25, 2330.
  • Brown, M. T., W. M. Landing, and C. I. Measures (2005), Dissolved and particulate Fe in the western and central North Pacific: Results from the 2002 IOC cruise, Geochem. Geophys. Geosyst., 6, Q10001, doi:10.1029/2004GC000893.
  • Brown, S. L., M. R. Landry, R. T. Barber, L. Campbell, D. L. Garrison, and M. M. Gowing (1999), Picophytoplankton dynamics and production in the Arabian Sea during the 1995 southwest monsoon, Deep Sea Res., Part II, 46, 17451768.
  • Calbet, A., and M. R. Landry (1999), Mesozooplankton influences on the microbial food web: Direct and indirect trophic interactions in the oligotrophic ocean, Limnol. Oceanogr., 44, 13701380.
  • Campbell, L., H. A. Nolla, and D. Vaulot (1994), The importance of Prochlorococcus to community structure in the central North Pacific Ocean, Limnol. Oceanogr., 39, 954961.
  • Caron, D. A., J. C. Goldman, O. K. Andersen, and M. R. Dennett (1985), Nutrient cycling in a microflagellate food chain. II. Population dynamics and carbon cycling, Mar. Ecol. Prog. Ser., 24, 243254.
  • Caron, D. A., H. G. Dam, P. Kremer, E. J. Lessard, L. P. Madin, T. C. Malone, J. M. Napp, E. R. Peele, M. R. Roman, and M. J. Youngbluth (1995), The contribution of microorganisms to particulate carbon and nitrogen in surface waters of the Sargasso Sea near Bermuda, Deep Sea Res., Part I, 42, 943972.
  • Chavez, F. P., K. R. Buck, S. K. Service, J. Newton, and R. T. Barber (1996), Phytoplankton variability in the central and eastern tropical Pacific, Deep Sea Res., Part II, 43, 835870.
  • Chisholm, S. W., R. J. Olson, E. R. Zettler, R. Goericke, J. B. Waterbury, and N. A. Welschmeyer (1988), A novel free-living prochlorophyte abundant in the oceanic euphotic zone, Nature, 334, 340343.
  • Christian, J. R., and D. M. Karl (1994), Microbial community structure at the U.S.-Joint Global Ocean Flux Study Station ALOHA: Inverse methods for estimating biochemical indicator ratios, J. Geophys. Res., 99(C7), 14,26914,276.
  • Coale, K. H. (1991), Effects of iron, manganese, copper, and zinc enrichments on productivity and biomass in the subarctic Pacific, Limnol. Oceanogr., 36, 18161833.
  • DuRand, M. D., R. J. Olson, and S. W. Chisholm (2001), Phytoplankton population dynamics at the Bermuda Atlantic Time-series station in the Sargasso Sea, Deep Sea Res., Part II, 48, 19832003.
  • Eppley, R. W. (1972), Temperature and phytoplankton growth in the sea, Fish. Bull., 70, 10631085.
  • Eppley, R. W., F. M. H. Reid, and J. D. H. Strickland (1970), Estimates of phytoplankton crop size, growth rate, and primary production, in The Ecology of the Plankton off La Jolla, California, in the Period April Through September (1967), Bull. Scripps Inst. Oceanogr., 17, 3342.
  • Eppley, R. W., W. G. Harrison, S. W. Chisholm, and E. Stewart (1977), Particulate organic matter in the surface waters off Southern California and its relationship to phytoplankton, J. Mar. Res., 35, 671696.
  • Falkowski, P. G., Z. Dubinsky, and K. Wyman (1985), Growth-irradiance relationships in phytoplankton, Limnol. Oceanogr., 30, 311321.
  • Fitzwater, S. E., G. A. Knauer, and J. H. Martin (1982), Metal contamination and its effect on primary production measurements, Limnol. Oceanogr., 27, 544551.
  • Garrison, D. L., et al. (2000), Microbial food web structure in the Arabian Sea: A US JGOFS study, Deep Sea Res., Part II, 47, 13871422.
  • Geider, R. J. (1987), Light and temperature dependence of the carbon to chlorophyll a ratio in microalgae and cyanobacteria: Implications for physiology and growth of phytoplankton, New Phytol., 106, 134.
  • Gin, K. Y. H., S. W. Chisholm, and R. J. Olson (1999), Seasonal and depth variation in microbial size spectra at the Bermuda Atlantic time series station, Deep Sea Res., Part I, 46, 12211245.
  • Goldman, J. C. (1986), On phytoplankton growth rates and particulate C:N:P ratios at low light, Limnol. Oceanogr., 31, 13581363.
  • Goldman, J. C., J. J. McCarthy, and D. G. Peavey (1979), Growth rate influence on the chemical composition of phytoplankton in oceanic waters, Nature, 279, 210215.
  • Guillou, L., S. Jacquet, M.-J. Chretiennot-Dinet, and D. Vaulot (2001), Grazing impact of two small heterotrophic flagellates on Prochlorococcus and Synechococcus, Aquat. Microb. Ecol., 26, 201207.
  • Guo, Y. J. (1991), The Kuroshio. Part II. Primary productivity and phytoplankton, Oceanogr. Mar. Biol. Annu. Rev., 29, 155189.
  • Holm-Hansen, O. (1970), ATP levels in algal cells as influenced by environmental conditions, Plant Cell Physiol., 11, 689700.
  • Holm-Hansen, O., and B. Riemann (1978), Chlorophyll a determination: Improvements in methodology, Oikos, 30, 438457.
  • Hutchins, D., F. Pustizzi, C. Hare, and G. DiTullio (2003), A shipboard natural community continuous culture system for ecologically relevant low-level nutrient enrichment experiments, Limnol. Oceanogr. Methods, 1, 8291.
  • Ishizaka, J., H. Kiyosawa, K. Ishida, K. Ishikawa, and M. Takahashi (1994), Meridional distribution and carbon biomass of autotrophic picoplankton in the Central North Pacific during late Northern summer 1990, Deep Sea Res., Part I, 41, 17451766.
  • Karl, D. M. (1999), A sea of change: Biogeochemical variability in the North Pacific subtropical gyre, Ecosystems, 2, 181214.
  • Karl, D. M., J. R. Christian, J. E. Dore, D. V. Hebel, R. M. Letelier, L. M. Tupas, and C. D. Winn (1996), Seasonal and interannual variability in primary production and particle flux at Station ALOHA, Deep Sea Res., Part II, 43, 539568.
  • Karl, D. M., D. V. Hebel, and K. Bjorkman (1998), The role of dissolved organic matter release in the productivity of the oligotrophic North Pacific ocean, Limnol. Oceanogr., 43, 12701286.
  • Karl, D. M., R. R. Bidigare, and R. M. Letelier (2001), Long-term changes in plankton community structure and productivity in the North Pacific subtropical gyre: The domain shift hypothesis, Deep Sea Res., Part II, 48, 14491470.
  • Kun, M. S., G. N. Gladkikh, E. P. Karedin, W. P. Pavlychev, W. I. Rachkov, and E. G. Starodubtsev (1970), Hydrological conditions and biological characteristics of the Kuroshio waters in area Lat.20°–43°N. and Long.138°–149°E, in The Kuroshio: A Symposium on the Japan Current, edited by J. C. Marr, East-West Cent. Press, Honolulu.
  • Landry, M. R., and R. P. Hasset (1982), Estimating the grazing impact of marine micro-zooplankton, Mar. Biol., 67, 283288.
  • Landry, M. R., J. Kirshtein, and J. Constantinou (1995), A refined dilution technique for measuring the community grazing impact of microzooplankton, with experimental tests in the central equatorial Pacific, Mar. Ecol. Prog. Ser., 120, 5363.
  • Landry, M. R., S. L. Brown, L. Campbell, J. Constantinou, and H. Liu (1998), Spatial patterns in phytoplankton growth and microzooplankton grazing in the Arabian Sea during monsoon forcing, Deep Sea Res., Part II, 45, 23532368.
  • Laws, E. A., and T. T. Bannister (1980), Nutrient- and light-limited growth of Thalassiosira fluviatilis in continuous culture, with implications for phytoplankton growth in the ocean, Limnol. Oceanogr., 25, 457473.
  • Laws, E. A., D. G. Redalje, L. W. Haas, P. K. Bienfang, R. W. Eppley, W. G. Harrison, D. M. Karl, and J. Marra (1984), High phytoplankton growth and production rates in oligotrophic Hawaiian coastal waters, Limnol. Oceanogr., 29, 11611169.
  • Laws, E. A., G. R. DiTullio, and D. G. Redalje (1987), High phytoplankton growth and production rates in the North Pacific subtropical gyre, Limnol. Oceanogr., 32, 905918.
  • Letelier, R. M., R. R. Bidigare, D. V. Hebel, M. Ondrusek, C. D. Winn, and D. M. Karl (1993), Temporal variability of phytoplankton community structure based on pigment analysis, Limnol. Oceanogr., 38, 14201437.
  • Li, W. K. W. (1990), Particles in “particle-free” seawater: Growth of ultraplankton and implication for dilution experiments, Can. J. Fish. Aquat. Sci., 47, 12581268.
  • Liu, H. L., K. Suzuki, and T. Saino (2002), Phytoplankton growth and microzooplankton grazing in the subarctic Pacific Ocean and the Bering Sea during summer 1999, Deep Sea Res., Part I, 49, 363375.
  • Martin, J. H., and S. E. Fitzwater (1988), Iron limits phytoplankton growth in the northeast Pacific subarctic, Nature, 331, 341343.
  • Measures, C. I., G. A. Cutter, W. M. Landing, and R. T. Powell (2006), Hydrographic observations during the 2002 IOC Contaminant Baseline Survey in the western Pacific Ocean, Geochem. Geophys. Geosyst., doi:10.1029/2005GC000855, in press.
  • Miller, C. B., and SUPER Group (1988), Lower trophic level production dynamics in the oceanic subarctic Pacific Ocean, Bull. Ocean Res. Inst. Tokyo, 26, 126.
  • Miller, C. B., B. W. Frost, P. A. Wheeler, M. R. Landry, N. Welschmeyer, and T. M. Powell (1991), Ecological dynamics in the subarctic Pacific, a possibly iron-limited ecosystem, Limnol. Oceanogr., 36, 16001615.
  • Monger, B. C., and M. R. Landry (1993), Flow cytometric analysis of marine bacteria with Hoechst 33342, Appl. Environ. Microbiol., 59, 905911.
  • Nagata, T., and D. C. Kirchman (1992), Release of macromolecular organic complexes by heterotrophic marine flagellates, Mar. Ecol. Prog. Ser., 83, 233240.
  • Nagata, T., and Y. Watanabe (1990), Carbon- and nitrogen-to-volume ratios of bacterioplankton grown under different nutritional conditions, Appl. Environ. Microbiol., 56, 13031309.
  • Obayashi, Y., and E. Tanoue (2002), Growth and mortality rates of phytoplankton in the northwestern North Pacific estimated by the dilution method and HPLC pigment analysis, J. Exp. Mar. Biol. Ecol., 280, 3352.
  • Olson, R. J., S. W. Chisholm, E. R. Zettler, M. A. Altabet, and J. A. Dusenberry (1990), Spatial and temporal distributions of prochlorophyte picoplankton in the North Atlantic Ocean, Deep Sea Res., Part A, 37, 10331051.
  • Parsons, T. R., and C. M. Lalli (1988), Comparative oceanic ecology of the plankton communities of the subarctic Atlantic and Pacific Oceans, Oceanogr. Mar. Biol. Annu. Rev., 26, 317359.
  • Partensky, F., W. R. Hess, and D. Vaulot (1999), Prochlorococcus, a marine photosynthetic prokaryote of global significance, Microbiol. Mol. Biol. Rev., 63, 106127.
  • Putt, M., and D. K. Stoecker (1989), An experimentally determined carbon-volume ratio for marine oligotrichous ciliates from estuarine and coastal waters, Limnol. Oceanogr., 34, 10971103.
  • Riemann, B., P. Simonsen, and L. Stensgaard (1989), The carbon and chlorophyll content of phytoplankton from various nutrient regimes, J. Plankton Res., 11, 10371045.
  • Rivkin, R. B., J. N. Putland, M. R. Anderson, and D. Deibel (1999), Microzooplankton bacterivory and herbivory in the NE subarctic Pacific, Deep Sea Res., Part II, 46, 25792618.
  • Shalapyonok, A., R. J. Olson, and L. S. Shalapyonok (2001), Arabian Sea phytoplankton during Southwest and Northeast monsoons 1995: Composition, size structure and biomass from individual cell properties measured by flow cytometry, Deep Sea Res., Part II, 48, 12311261.
  • Sherr, E. B., and B. F. Sherr (1993), Preservation and storage of samples for enumeration of heterotrophic protests, in Handbook of Methods in Aquatic Microbial Ecology, edited by P. K. Kemp, B. F. Sherr, and J. C. Jonathan, pp. 207212, CRC Press, Boca Raton, Fla.
  • Shinada, A., T. Ikeda, S. Ban, and A. Tsuda (2001), Seasonal dynamics of planktonic food chain in the Oyashio region, western subarctic Pacific, J. Plankton Res., 23, 12371248.
  • Steele, J. H. (1962), Environmental control of photosynthesis in the sea, Limnol. Oceanogr., 7, 137150.
  • Strathmann, R. R. (1967), Estimating the organic carbon content of phytoplankton from cell volume or plasma volume, Limnol. Oceanogr., 12, 411418.
  • Strickland, J., and T. Parsons (1972), A practical handbook of seawater analysis, Bull. Fish. Res. Board Can. 167, 311 pp.
  • Strom, S. L., R. Benner, S. Zeigler, and M. J. Dagg (1997), Planktonic grazers are a potentially important source of marine dissolved organic carbon, Limnol. Oceanogr., 42, 13641374.
  • Vaulot, D. (1989), CYTOPC: Processing software for flow cytometric data, Signal Noise, 2, 8.
  • Verity, P. G., and T. A. Villareal (1986), The relative food value of diatoms, dinoflagellates, flagellates, and cyanobacteria for tintinnid ciliates, Arch. Protistenkd., 131, 7184.
  • Zubkhov, M. V., M. A. Sleigh, G. A. Tarran, P. H. Burkill, and R. J. G. Leakey (1998), Picoplanktonic community structure on an Atlantic transect from 50°N to 50°S, Deep Sea Res., Part I, 45, 13391355.