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Biogeosciences An interactive open-access journal of the European Geosciences Union

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Biogeosciences, 6, 779-794, 2009
© Author(s) 2009. This work is distributed
under the Creative Commons Attribution 3.0 License.
08 May 2009
Satellite-detected fluorescence reveals global physiology of ocean phytoplankton
M. J. Behrenfeld1, T. K. Westberry1, E. S. Boss2, R. T. O'Malley1, D. A. Siegel3, J. D. Wiggert4, B. A. Franz5, C. R. McClain5, G. C. Feldman5, S. C. Doney6, J. K. Moore7, G. Dall'Olmo1, A. J. Milligan1, I. Lima6, and N. Mahowald8 1Dept. of Botany and Plant Pathology, Cordley Hall 2082, Oregon State University, Corvallis, OR 97331-2902, USA
2School of Marine Sciences, 5706 Aubert Hall, University of Maine, Orono, Maine 04469-5741, USA
3Institute for Computational Earth System Science and Department of Geography, University of California,
Santa Barbara, CA 93106-3060, USA
4Dept. of Marine Sciences, University of Southern Mississippi, 1020 Balch Blvd., Stennis Space Center,
MS 39529-9904, USA
5NASA Goddard Space Flight Center, Greenbelt, MD 20771, USA
6Dept. of Marine Chemistry and Geochemistry, Woods Hole Oceanographic Institution Woods Hole, MA 02543-1543
7Dept. of Earth System Science, 3214 Croul Hall, University of California, Irvine, CA 92697-3100, USA
8Cornell University, 2140 Snee Hall, Ithaca, NY, USA, 14850, USA
Abstract. Phytoplankton photosynthesis links global ocean biology and climate-driven fluctuations in the physical environment. These interactions are largely expressed through changes in phytoplankton physiology, but physiological status has proven extremely challenging to characterize globally. Phytoplankton fluorescence does provide a rich source of physiological information long exploited in laboratory and field studies, and is now observed from space. Here we evaluate the physiological underpinnings of global variations in satellite-based phytoplankton chlorophyll fluorescence. The three dominant factors influencing fluorescence distributions are chlorophyll concentration, pigment packaging effects on light absorption, and light-dependent energy-quenching processes. After accounting for these three factors, resultant global distributions of quenching-corrected fluorescence quantum yields reveal a striking consistency with anticipated patterns of iron availability. High fluorescence quantum yields are typically found in low iron waters, while low quantum yields dominate regions where other environmental factors are most limiting to phytoplankton growth. Specific properties of photosynthetic membranes are discussed that provide a mechanistic view linking iron stress to satellite-detected fluorescence. Our results present satellite-based fluorescence as a valuable tool for evaluating nutrient stress predictions in ocean ecosystem models and give the first synoptic observational evidence that iron plays an important role in seasonal phytoplankton dynamics of the Indian Ocean. Satellite fluorescence may also provide a path for monitoring climate-phytoplankton physiology interactions and improving descriptions of phytoplankton light use efficiencies in ocean productivity models.

Citation: Behrenfeld, M. J., Westberry, T. K., Boss, E. S., O'Malley, R. T., Siegel, D. A., Wiggert, J. D., Franz, B. A., McClain, C. R., Feldman, G. C., Doney, S. C., Moore, J. K., Dall'Olmo, G., Milligan, A. J., Lima, I., and Mahowald, N.: Satellite-detected fluorescence reveals global physiology of ocean phytoplankton, Biogeosciences, 6, 779-794, doi:10.5194/bg-6-779-2009, 2009.
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