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References


Antoine, D, A Morel
Global Biogeochemical Cycles
1996, Volume 10, Number 1
Oceanic primary production 1.
Adaptation of a spectral light-photosynthesis model in view of application to satellite chlorophyll observations

Antoine, D, J-M Andre, A Morel
Global Biogeochemical Cycles
1996, Volume 10: 57-69
Oceanic primary production 2.
Estimation at global scale from satellite (coastal zone color scanner) chlorophyll

Banse, K
Limnology and Oceanography
1991, Volume 36: 1886-1898
Rates of phytoplankton cell division in the field and in iron enrichment experiments

Behrenfeld, MJ, Y Hu, RT O'Malley, ES Boss, CA Hostetler, DA Siegel, JL Sarmineto, J Schulien, JW Hair, XM Lu, AJ Scarino
Nature Geoscience
2016, doi:10.1038/ngeo2861
Annual boom-bust cycles of polar phytoplankton biomass revealed by space-based lidar

Behrenfeld, MJ, K Worthington, Z Kolber, RM Sherrell, F Chavez, P Strutton, M McPhaden, D Shea
Nature
2006a, doi:10.1038/nature05083
Nutrient regulation of tropical Pacific ocean productivity

Behrenfeld, MJ, E Boss
J. Mar. Res.
2006b, Volume 64: 431-451
Beam attenuation and chlorophyll concentration as alternative optical indices of phytoplankton biomass

Behrenfeld, MJ, E Boss, DA Siegel, DM Shea
Global Biogeochemical Cycles
2005, Volume 19
Carbon-based ocean productivity and phytoplankton physiology from space

Behrenfeld, MJ, E Boss
Deep Sea Research
2003, Volume 50: 1537-1549
The beam attenuation to chlorophyll ratio: an optical index of phytoplankton photoacclimation in the surface ocean?

Behrenfeld, MJ, PG Falkowski
Limnology and Oceanography
1997a, Volume 42: 1-20
Photosynthetic rates derived from satellite-based chlorophyll concentration

Behrenfeld, MJ, PG Falkowski
Limnology and Oceanography
1997b, Volume 42: 1479-1491
A consumer's guide to phytoplankton primary productivity models

Campbell, J, D. Antoine, R Armstrong, K Arrigo, W Balch, R. Barber, M. Behrenfeld, R. Bidigare, J Bishop, M-E Carr, W. Esaias, P Falkowski, N. Hoepner, R Iverson, D Keifer, S. Lohrenz, J. Marra, A. Morel, J. Ryan, V Vedemikov, K. Waters, C Yentsch, J Yoder
Global Biogeochemical Cycles
2002, Volume 16
Comparison of algorithms for estimating ocean primary production from surface chlorophyll, temperature, and irradience

Carr, M-E, M.A Friedrichs, M. Schmeltz, M.N. Aita, D. Antoine, K.R. Arrigo, I. Asanuma, O. Aumont, R. Barber, M. Behrenfeld, R. Bidigare, E.T. Buitenhuis, J. Campbell, A. Ciotti, H. Dierssen, M. Dowell, J. Dunne, W. Esaias, B. Gentili, W. Gregg, S. Groom, N. Hoepner, J. Ishizaka, T. Kameda, C. Le Quere, S. Lohrenz, J. Marra, F. Melin, K. Moore, A. Morel, T.E. Reddy, J. Ryan, M. Scardi, T. Smyth, K. Turpie , G. Tilstone, K. Waters, Y. Yamanaka
Deep Sea Res.
2006, Volume 53: 741-770
A comparison of global estimates of marine primary production from ocean color.

DuRand, MD, RJ Olson
Deep-Sea Res. II
1996, Volume 43: 891-906
Contributions of phytoplankton light scattering and cell concentration changes to diel variations in beam attenuation in the equatorial Pacific from flow cytometric measurements of pico-, ultra-, and nanoplankton.

Eppley, RW
Fishery Bulletin
1972, Volume 70: 1063-1085
Temperature and phytoplankton growth in the sea

Falkowski, PG, Z Kolber
Aust. J. Plant Physiol.
1995, Volume 22: 341-355
Variations in chlorophyll fluorescence yields in phytoplankton in the world oceans

Garver, SA, DA Siegel
J. Geophys. Res.
1997, Volume 102: 18607-18625
Inherent optical property inversion of ocean color spectra and its biogeochemical interpretation: I. Time series from the Sargasso Sea,

Green, RE, HM Sosik
J. Geophys. Res.
2004, Volume 109
Analysis of apparent optical properties and ocean color models using measurements of seawater constituents in New England continental shelf surface waters

Green, RE, HM Sosik, RJ Olson
Limnol. Oceangr.
2003, Volume 48: 2377-2391
Contributions of phytoplankton and other particles to inherent optical properties in New England continental shelf waters.

Kolber, Z, PG Falkowski
Limnol. Oceangr.
1993, Volume 38: 1646-1665
Use of active fluorescence to estimate phytoplankton photosynthesis in situ

Loisel, H, E Bosc, D Stramski, K Oubelkheir, P-Y Deschamps
Geophys. Res. Letters
2001, Volume 28: 4203-4206
Seasonal variability of the backscattering coefficient in the Mediterranean Sea on Satellite SeaWIFS imagery

Maritorena, S, DA Siegel, AR Peterson
Appl. Optics
2002, Volume 41: 2705-2714
Optimization of a semianalytical ocean color model for global-scale applications

Morel, A
Prog. Oceanogr.
1991, Volume 26: 263-306
Light and marine photosynthesis: A spectral model with geochemical and climatological implications

Morel, A, J-F Berthon
Limnol. Oceanogr.
1989, Volume 34: 1545-1562
Surface pigments, algal biomass profiles, and potential production of the euphotic layer: Relationships reinvestigated in view of remote-sensing applications

Platt, T, S Sathyendranath
J. Geophys. Res.
1993, Volume 8: 14561-14576
The estimation of phytoplankton production in the ocean from chlorophyll and light data

Ryther, JH, CS Yentsch
Limnol. Oceanogr.
1957, Volume 2: 281-286
The estimation of phytoplankton production in the ocean from chlorophyll and light data

Ryther, JH
Limnol. Oceanogr.
1956, Volume 1: 61-70
Photosynthesis in the ocean as a function of light intensity

Siegel, DA, et al.
J. Geophys. Res.
2002, Volume 107: 3228
Global distribution and dynamics of colored dissolved and detrital organic materials

Silsbe, G.M., M.J. Behrenfeld, K.H. Halsey, A.J. Milligan,T. Westberry
Global Biogeochem. Cycles.
2016, Volume 30: 1756-1777
The CAFE model: A net production model for global ocean phytoplankton

Stramski, D, RA Reynolds, M Kahru, BG Mitchell
Science
1999, Volume 285: 239-242
Estimation of particulate organic carbon in the ocean from satellite remote sensing

Talling, JF
New. Phytol.
1957, Volume 56: 133-149
The phytoplankton population as a compound photosynthetic system

Westberry, T, M.J. Behrenfeld, D.A. Siegel, E. Boss
Global Biogeochem. Cycles.
2008, Volume 22
Carbon-based primary productivity modeling with vertically resolved photoacclimation

Zhao, M, FA Heinsch, RR Nemani, SW Running
Remote Sensing of Environment
2005, Volume 95: 164-176
Improvements of the MODIS terrestrial gross and net primary production global data set


Last modified: 25 July 2019
by:  Robert O'Malley

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