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  • Bruyant F, Babin M, Sciandra A, Marie D, Genty B, Claustre H, Blanchot J, Bricaud A, Rippka R, Boulben S et al. 2001. An axenic cyclostat of Prochlorococcus strain PCC9511 with a simulator of natural light regimes. Journal of Applied Phycology 13: 135142.
  • Burbage CD, Binder BJ. 2007. Relationship between cell cycle and light-limited growth rate in oceanic Prochlorococcus (MIT9312) and Synechococcus (WH8103) (Cyanobacteria). Journal of Phycology 43: 266274.
  • Claquin P, Kromkamp JC, Martin-Jezequel V. 2004. Relationship between photosynthetic metabolism and cell cycle in a synchronized culture of the marine alga Cylindrotheca fusiformis (Bacillariophyceae). European Journal of Phycology 39: 3341.
  • Falkowski PG, Dubinsky Z, Wyman K. 1985. Growth–irradiance relationships in phytoplankton. Limnology and Oceanography 30: 311321.
  • Falkowski PG, Raven JA. 1997. Aquatic photosynthesis. Malden, MA, USA: Blackwell Science.
  • Geider RJ. 1992. Respiration: taxation without representation. In: Falkowski PG, Woodhead AD, eds. Primary productivity and biogeochemical cycles in the sea. New York, NY, USA: Plenum Press, 333360.
  • Goulbourne EA Jr, Greenberg EP. 1980. Relationship between proton motive force and motility in Spirochaeta aurantia. Journal of Bacteriology 143: 14501457.
  • Graff JR, Milligan AJ, Behrenfeld MJ. 2012. The measurement of phytoplankton biomass using flow cytometric sorting and elemental analysis of carbon. Limnology and Oceanography: Methods 10: 910920.
  • Halsey KH, Milligan AJ, Behrenfeld MJ. 2010. Physiological optimization underlies growth rate-independent chlorophyll-specific gross and net primary production. Photosynthesis Research 103: 125137.
  • Halsey KH, Milligan AJ, Behrenfeld MJ. 2011. Linking time-dependent carbon-fixation efficiencies in Dunaliella tertiolecta (Chlorophyceae) to underlying metabolic pathways. Journal of Phycology 47: 6676.
  • Herzig R, Falkowski PG. 1989. Nitrogen limitation in Isochrysis galbana (Haptophyceae). I. Photosynthetic energy conversion and growth efficiencies. Journal of Phycology 25: 462471.
  • Ho T-Y, Quigg AS, Finkel ZV, Milligan AJ, Wyman K, Falkowski PG, Morel FMM. 2003. The elemental composition of some marine phytoplankton. Journal of Phycology 39: 11451159.
  • Jakob T, Wagner H, Stehfest K, Wilhelm C. 2007. A complete energy balance from photons to new biomass reveals a light- and nutrient-dependent variability in the metabolic costs of carbon assimilation. Journal of Experimental Botany 58: 21012112.
  • Jassby AD, Platt T. 1976. Mathematical formulation of the relationship between photosynthesis and light for phytoplankton. Limnology and Oceanography 21: 540547.
  • Jeffrey SW, Humphrey GF. 1975. New spectrophotometric equations for determining chlorophylls a, b, c1 and c2 in higher plants and natural phytoplankton. Biochemie und Physiologie der Pflanzen 167: 191194.
  • Kaneda H, Furuya M. 1986. Temporal changes in swimming direction during the phototactic orientation of individual cells in Cryptomonas sp. Plant and Cell Physiology 27: 265271.
  • Kunath C, Jakob T, Wilhelm C. 2012. Different phycobilin antenna organisations affect the balance between light use and growth rate in the cyanobacterium Microcystis aeruginosa and in the cryptophyte Cryptomonas ovata. Photosynthesis Research 111: 173183.
  • Langdon C. 1993. The significance of respiration in production measurements based on oxygen. ICES Marine Science Symposia 197: 6978.
  • Langner U, Jakob T, Stehfest K, Wilhelm C. 2009. A complete energy balance for Chlamydomonas reinhardtii and Chlamydomonas acidophila under neutral and extremely acidic growth conditions. Plant, Cell & Environment 32: 250258.
  • Laws EA, Bannister TT. 1980. Nutrient- and light-limited growth of Thalassiosira fluviatilis in continuous culture, with implications for phytoplankton growth in the ocean. Limnology and Oceanography 25: 457473.
  • Laws EA, Wong DCL. 1978. Studies of carbon and nitrogen metabolism by three marine phytoplankton species in nitrate-limited continuous culture. Journal of Phycology 14: 406416.
  • Lewis MR, Smith JC. 1983. A small volume, short-incubation-time method for measurement of photosynthesis as a function of incident irradiance. Marine Ecology Progress Series 13: 99102.
  • Luz B, Barkan E. 2009. Net and gross oxygen production from O2/Ar, 17O/16O and 18O/16O ratios. Aquatic Microbial Ecology 56: 133145.
  • Marano F, Amancio S, Durrand AM. 1978. Synchronous growth and synthesis of macromolecules in a naturally wall-less Volvocale, Dunaliella bioculata. Protoplasma 95: 135144.
  • Marra J 2001. Approaches to the measurement of plankton productivity. In: Williams PJlB, Thomas DN, Reynolds CS, eds. Phytoplankton productivity: carbon assimilation in marine and freshwater ecosystems. Oxford, UK: Blackwell Science Ltd, 78108.
  • Matsumura K, Yagi T, Hattori A, Soloviev M, Yasuda K. 2010. Using single cell cultivation system for on-chip monitoring of the interdivision timer in Chlamydomonas reinhardtii cell cycle. Journal of Nanobiotechnology 8: 113.
  • Mitchell BG, Kahru M, Wieland J, Stramska M 2003. Determination of spectral absorption coefficients of particles, dissolved material and phytoplankton for discrete water samples. In: Fargion GS, Mueller JL, eds. Ocean optics protocols for satellite ocean color sensor validation, revision 3, Vol 2. Greenbelt, MD, USA: NASA/TM-2003, 231257.
  • Mohr W, Intermaggio MP, LaRoche J. 2010. Diel rhythm of nitrogen and carbon metabolism in the unicellular, diazotrophic cyanobacterium Crocosphaera watsonii WH8501. Environmental Microbiology 12: 412421.
  • Morris I, Glover HE, Yentsch CS. 1974. Products of photosynthesis by marine phytoplankton: the effect of environmental factors on the relative rates of protein synthesis. Marine Biology 27: 19.
  • Nicholson DP, Stanley RHR, Barkan E, Karl DM, Luz B, Quay PD, Doney SC. 2012. Evaluating triple oxygen isotope estimates of gross primary production at the Hawaii Ocean Time-series and Bermuda Atlantic Time-series Study sites. Journal of Geophysical Research 117: C05012, doi:10.1029/2010JC006856.
  • Nogales J, Gudmundsson S, Knight EM, Palsson BO, Thiele I. 2012. Detailing the optimality of photosynthesis in cyanobacteria through systems biology analysis. Proceedings of the National Academy of Sciences, USA 109: 26782683.
  • Parfrey LW, Lahr DJG, Knoll AH, Katz LA. 2011. Estimating the timing of early eukaryotic diversification with multigene molecular clocks. Proceedings of the National Academy of Sciences, USA 108: 1362413629.
  • Rasmussen B, Fletcher IR, Brocks JJ, Kilburn MR. 2008. Reassessing the first appearance of eukaryotes and cyanobacteria. Nature 455: 11011104.
  • Raven JA, Richardson K. 1984. Dinophyte flagella: a cost–benefit analysis. New Phytologist 98: 259276.
  • Schrader PS, Milligan AJ, Behrenfeld MJ. 2011. Surplus photosynthetic antennae complexes underlie diagnostics of iron limitation in cyanobacterium. PLoS ONE 6: e18753.
  • Smith REH, Geider RJ. 1985. Kinetics of intracellular carbon allocation in a marine diatom. Journal of Experimental Marine Biology and Ecology 93: 191210.
  • Smith REH, Gosselin M, Kattner G, Legendre L, Pesant S. 1997. Biosynthesis of macromolecular and lipid classes by phytoplankton in the Northeast Water Polynya. Marine Ecology Progress Series 147: 231242.
  • Su W, Jakob T, Wilhelm C. 2012. The impact of nonphotochemical quenching of fluorescence on the photon balance in diatoms under dynamic light conditions. Journal of Phycology 48: 336346.
  • Wagner H, Jakob T, Wilhelm C. 2006. Balancing the energy flow from captured light to biomass under fluctuating light conditions. New Phytologist 169: 95108.
  • Wilhelm C, Buchel C, Fisahn J, Goss R, Jakob T, LaRoche J, Lavaud J, Lohr M, Riebesell U, Stehfest K et al. 2006. The regulation of carbon and nutrient assimilation in diatoms is significantly different from green algae. Protist 157: 91124.
  • Williams PJ, Laurens LML. 2010. Microalgae as biodiesel and biomass feedstocks: review and analysis of the biochemistry, energetics and economics. Energy and Environmental Science 3: 554590.