The IOCCG bibliography is updated periodically when new references are submitted by readers. Another useful ocean colour bibliography is the searchable Historic Ocean Colour Archive assembled by Marcel Wernand, with articles and books written between the 17th and early 20th century.
If you would like to submit a peer-reviewed publication to be included in the IOCCG Bibliography, please send the reference to Raisha Lovindeer using the following format: Lastname1, Initials1., Lastname2, Initials2., etc. (DATE). Full title of publication, Journal Abbreviation, Volume, Page numbers, DOI (if available). Please also check to see if the reference is not already in the database (search by first author). It is not necessary to send the PDF file as an attachment. Note that only peer-reviewed articles will be accepted.
If you would like to view recently-published papers, enter the current year in “Search by Keyword”. You can also search the database using keywords or the author’s last name. For papers dealing with Remote Sensing of Marine Litter and Debris, use the keyword “RSMLD”. You can also view the Datasets Bibliography for remote sensing and marine litter and debris.
Bibliography
Fiedler, P.C. (1984). Satellite observations of the 1982-1983 El Ni~no along the U.S. Pacific coast. Science, 224: 1251-1254.
Fiedler, P.C. (1994). Seasonal and interannual variability of coastal zone color scanner phytoplankton pigments and winds in the eastern tropical Pacific. J. Geophys. Res., 99: 18,371-18,384.
Figueiras, F.G., Arbones, B., and Estrada, M. (1999). Implications of bio-optical modeling of phytoplankton photosynthesis in Antarctic waters: further evidence of no light limitation in the Bransfield Strait. Limnol. Oceanogr., 44: 1599-1608.
Firestone, E.R., and Hooker, S.B. (2003). SeaWiFS Postlaunch Technical Report Series Cumulative Index: Volumes 1-17, In: SeaWiFS Postlaunch Technical Report Series, S.B. Hooker and E.R. Firestone, (Eds.), 18: NASA/TM-2003-206892.
Fischer, J. and Fell, F. (1999). Simulation of MERIS measurements above selected ocean waters. Intl. J. Remote Sens., 20(9): 1787-1808.
Floge, S.A., Hardy, K.R., Boss, E. and Wells, M.L. (2009). Analytical intercomparison between type I and type II longpathlength liquid core waveguides for the measurement of chromophoric dissolved organic matter. Limnol. Oceanogr. Methods 7: 260-268.
Fofonoff, N.P. (1969). Spectral characteristics of internal waves in the ocean. Deep-Sea Res. I., 16: 59-71.
Folkestad, A., Pettersson, L. H. and Durand, D. D. (2007). Inter-comparison of ocean colour data products during algal blooms in the Skagerrak. International Journal of Remote Sensing, 28(3): 569 – 592. DOI: 10.1080/01431160600821044
Fontana, C., Grenz, C., Pinazo, C., Marsaleix, P. and Diaz, F. (2009). Assimilation of SeaWiFS chlorophyll data into a 3D-coupled physical–biogeochemical model applied to a freshwater-influenced coastal zone, Continental Shelf Research, 29(11-12): 1397-1409.
Forget, P. and Ouillon, S. (1998). Suspended matter off the Rhône river mouth from satellite imagery. Oceanologica Acta, 21(6): 739-749.
Forget, P., Ouillon, S., and Lahet, F. (1997). Modélisation et inversion des spectres de réflectance d’eaux turbides côtières. In: Physical measurements and signatures in remote sensing, G. Guyot and T. Phulpin (eds.) vol 2, 495-500, (Rotterdam : Balkema).
Forget, P., Ouillon, S., Lahet, F., and Broche, P. (1999). Inversion of reflectance spectra of non-chlorophyllous turbid coastal waters, Rem. Sens. Environ., 68: 264-272.
Fougnie, B., Deschamps, P.-Y., and Frouin, R. (1999). Vicarious calibration of the POLDER ocean color spectral bands using in situ measurements. IEEE Trans. Geosci. Rem. Sens., 37: 1567-1574.
Fougnie, B., Frouin, R., Lecomte, P. and Deschamps, P.-Y. (1999). Reduction of Skylight Reflection Effects in the Above-Water Measurement of Diffuse Marine Reflectance. Appl. Optics, 38(18): 3844-3856.
Franz, B.A., Werdell, P.J., Meister, G., Bailey, S.W., Eplee, R.E., Feldman, G.C., Kwiatkowska, E., McClain, C.R., Patt, F.S., and Thomas, D. (2005). The continuity of ocean color measurements from SeaWiFS to MODIS. Proc. of SPIE, 5882: 1-13.
Freitas, S., Silva, H., and Silva, E. (2021). Remote hyperspectral imaging acquisition and characterization for marine litter detection, Remote Sens., 13, 2536(2531-2522), https://doi.org/10.3390/rs13132536.
Freitas, S., Silva, H., and Silva, E. (2022). Hyperspectral imaging zero-shot learning for remote marine litter detection and classification, Remote Sens. (Basel), 14, 5516(5511-5518), https://doi.org/10.3390/rs14215516.
Frette, O., Erga, S.R., Stamnes, J. J., and Stamnes, K. (2001). Optical remote sensing of waters with vertical structure. Applied Optics, 40: 1478-1487.
Frette, O., Stamnes, J.J. and Stamnes, K. (1998). Optical remote sensing of marine constituents in coastal waters: a feasiblity study. Appl. Optics, 37: 8318-8326.
Friedland KD, Hare JA, Wood GB, Col LA, Buckley LJ, Mountain DG, Kane J, Brodziak J, Lough RG, Pilskaln CH (2008). Does the fall phytoplankton bloom control recruitment of Georges Bank haddock, Melanogrammus aeglefinus, through parental condition? . Canadian Journal of Fisheries and Aquatic Sciences 65:1076-1086.
Friedrichs A, Busch JA, John C, van der Woerd HJ, Zielinski O (2017) Measuring Chlorophyll a fluorescence in water by means of smart phones. Sensors 17 (4), 678, doi: 10.3390/s17040678. http://www.mdpi.com/1424-8220/17/4/678
Friedrichs A, Busch JA, John C, van der Woerd HJ, Zielinski O (2017) Measuring Chlorophyll a fluorescence in water by means of smart phones. Sensors 17 (4), 678, doi: 10.3390/s17040678. http://www.mdpi.com/1424-8220/17/4/678
Friedrichs, M.A.M., Carr, M.-E., Barber, R., Scardi, M., Antoine, D., et al. (2008). Assessing the uncertainties of model estimates of primary productivity in the tropical Pacific Ocean. J. Mar. Systems. doi:10.1016/j.jmarsys.2008.05.010.
Froidefond J.M., Ouillon S. (2005). Introducing a mini-catamaran to perform reflectance measurements above and below the water surface, Optics Express, 13 (3), 926-936, http://www.opticsexpress.org/abstract.cfm?URI=OPEX-13-3-926
Frouin, R. and Iacobellis, S.F. (2002). Influence of phytoplankton on the global radiation budget. J. Geophys. Res., 107(D19): 5.1-5.10.
Frouin, R. and Murakami, H. (2007). Estimating photosynthetically available radiation at the ocean surface from ADEOS-II global imager data. Journal of Oceanography, 63(3): 493-503
Frouin, R. and Pelletier, B (2015). Bayesian methodology for inverting satellite ocean-color data. Remote Sensing of Environment, 159: 332–360. [Full article].
Frouin, R., Iacobellis, S.F. and Deschamps,P.-Y. (2001). Influence of oceanic whitecaps on the global radiation budget. Geophys. Res. Lett., 28: 1523-1526.
Fuchs R., Dupouy C., Douillet P., Dumas F., Caillaud M., Mangin A., Pinazo C. (2012). Modelling the impact of a La Ni–a event on a South West Pacific Lagoon. Marine Pollution Bulletin, 64, 1596-1613.
Fuchs R., Pinazo C., Douillet P., Fraysse, M., Grenz, C., Mangin A., Dupouy C. (2013). Modeling the ocean-lagoon interaction via upwelling processes on the South West of New Caledonia, Estuarine, Coastal and Shelf Science, 135: 5-17.
Fuentes-Yaco, C., Larouche, P. and Vézina, A. F. (1993). Primary production in the Gulf of St. Lawrence: 1979-80 CZCS imagery. Proceedings of the 16th Canadian Symposium on Remote Sensing, Sherbrooke, Canada, 113-118.
Fuentes-Yaco, C., Vézina, A. F., Larouche, P., Gratton, Y. and Gosselin, M. (1997). Phytoplankton pigment in the Gulf of St. Lawrence, Canada, as determined by the Coastal Zone Color Scanner – Part 2: multivariate analysis. Cont. Shelf Res., 17(12): 1441-1459.
Fuentes-Yaco, C., Vézina, A. F., Larouche, P., Vigneau, C., Gosselin, M. and Levasseur, M. (1997). Phytoplankton pigment in the Gulf of St. Lawrence, Canada, as determined by the Coastal Zone Color Scanner – Part 1: Spatio-temporal variability. Cont. Shelf Res., 17(12): 1421-1439.
Fuentes-Yaco, C., Vézina, A.F., Gosselin, M., Gratton, Y. and Larouche, P. (1996). Influence of late-summer storms on the horizontal variabillity of phytoplankton pigment determined by Coastal Zone Color Scanner images in the Gulf of St. Lawrence, Canada. In Ocean Optics XIII, S. G. Ackleson, R. Frouin, Editors, Proc. SPIE, 2963: 678-683.
Fuentes-Yaco, C.. Koeller, P. A Sathyendranath, S. and Platt, T. (2007) Shrimp (Pandalus boreali) growth and timing of the spring phytoplankton bloom on the Newfoundland-Labrador Shelf. Fisheries Oceanography 16(2): 116–129. doi:10.1111/j.1365-2419.2006.00402.
Fuentes, M., Doney, S.C., Glover, D.M., and McCue, S.J. (2000). Spatial Structure of the SeaWiFS Ocean Color Data for the North Atlantic Ocean. In: Studies in the Atmospheric Sciences (Lecture notes in statistics, vol. 144), M. Berliner, D. Nychka and T. Hoar (eds.), Springer-Verlag, New York, 153-171.
Fuji, M., E. Boss, and F. Chai. (2007). The value of adding optics to ecosystem models: a case study. Biogeosciences, 4: 817-835.
Gallegos, C.L., Correll, D.L. and Pierce, J.W. (1990). Modeling spectral diffuse attenuation, absorption, and scattering coefficients in a turbid estuary. Limnol. Oceanogr., 35: 1486-1502.
Gallegos, C.L., Correll, D.L. and Pierce, J.W. (1990). Modeling spectral diffuse attenuation, absorption, and scattering coefficients in a turbid estuary. Limnol. Oceanogr., 35: 1486-1502.
Gao, B.-C., Montes, M. J., Ahmad, Z. and Davis, C. O. (2000). Atmospheric Correction Algorithm for Hyperspectral Remote Sensing of Ocean Color from Space. Applied Optics 39(6): 887-896.
Garaba S.P.and Dierssen H.M. (2018). An airborne remote sensing case study of synthetic hydrocarbon detection using short wave infrared absorption features identified from marine-harvested macro- and microplastics. Remote Sensing of Environment 205:224-235. doi:10.1016/j.rse.2017.11.023. www.sciencedirect.com/science/article/pii/S0034425717305722
Garaba SP, and Zielinski O, (2013). Comparison of remote sensing reflectance from above-water and in-water measurements west of Greenland, Labrador Sea, Denmark Strait, and west of Iceland. Opt. Express, 21: 15938-15950. [Full article]
Garaba SP, and Zielinski O, (2013). Methods in reducing surface reflected glint for shipborne above-water remote sensing. Journal of the European Optical Society – Rapid publications, Europe, Vol. 8, Aug. 2013. ISSN 1990-2573 [Abstract].
Garaba SP, Schulz J, Wernand MR, Zielinski O.(2012). Sunglint detection for unmanned and automated platforms. Sensors, 12(9): 12545-12561. [Full article] Garaba SP, Voß D, Zielinski O. (2014). Physical, bio-optical state and correlations in North–Western European Shelf Seas. Remote Sensing, 6(6): 5042-5066. [Full article]
Garaba, S. P. and Dierssen, H. M. (2020). Hyperspectral ultraviolet to shortwave infrared characteristics of marine-harvested, washed-ashore and virgin plastics, Earth Syst. Sci. Data, 12, 77–86, https://doi.org/10.5194/essd-12-77-2020
Garaba, S. P., Acuña-Ruz, T., and Mattar, C. B. (2020). Hyperspectral longwave infrared reflectance spectra of naturally dried algae, anthropogenic plastics, sands and shells, Earth Syst. Sci. Data, 12, 2665-2678, https://doi.org/10.5194/essd-12-2665-2020
Garaba, S. P., and Harmel, T. (2022) Top-of-atmosphere hyper and multispectral signatures of submerged plastic litter with changing water clarity and depth. Opt. Express, 30 (10), 16553-16571, https://doi.org/10.1364/OE.
Garaba, S. P., and Park, Y.-J. (2024) Riverine litter monitoring from multispectral fine pixel satellite images, Environ. Adv., 15, 100451, https://doi.org/10.1016/j.envadv.2023.100451
Garaba, S. P., Arias, M., Corradi, P., Harmel, T., de Vries, R., and Lebreton, L. (2021) Concentration, anisotropic and apparent colour effects on optical reflectance properties of virgin and ocean-harvested plastics, J. Hazard. Mater., 406, 124290, https://doi.org/10.1016/j.jhazmat.2020.124290
Garaba, S., Friedrichs, A., Voß, D., Zielinski, O. (2015). Classifying natural waters with the Forel-Ule colour index system: Results, applications, correlations and crowdsourcing. Int. J. Environ. Res. Public Health, 12: 16096-16109, doi:10.3390/ijerph121215044. [Full text].