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
Hooker, S.B., and McClain, C.R. (2000). The calibration and validation of SeaWiFS data. Prog. Oceanogr., 45(3-4): 427-465.
Hooker, S.B., and Morel, A. (2003). Platform and Environmental Effects on Above-Water Determinations of Water-Leaving Radiances. J. Atmos. Ocean. Tech., 20: 187-205.
Hooker, S.B., Lazin, G., Zibordi, G., and McClean, S. (2002). An evaluation of above- and in-water methods for determining water-leaving radiances. J. Atmos. Ocean Technol., 19: 486-515.
Hooker, S.B., McClain, C.R. and Holmes, A. (1993). Ocean color imaging: CZCS to SeaWiFS. MTS J., 27: 3-15.
Hooker, S.B., Zibordi, G., Berthon, J.-F., D’Alimonte, D., van der Linde, D., and Brown, J.W. (2003). Tower-Perturbation Measurements in Above-Water Radiometry, In: SeaWiFS Postlaunch Technical Report Series, S.B. Hooker and E.R. Firestone, (Eds.), 23: NASA/TM-2003-206892.
Hooker, Stanford B., Atsushi Matsuoka, Raphael M. Kudela, Youhei Yamashita, Koji Suzuki, and Henry F. Houskeeper. (2020) “A global end-member approach to derive a CDOM (440) from near-surface optical measurements.” Biogeosciences
Hooker, Stanford B., Henry F. Houskeeper, Randall N. Lind, and Koji Suzuki.(2021) One-and two-band sensors and algorithms to derive a CDOM (440) from global above-and in-water optical observations. Sensors 21, no. 16: 5384. https://doi.org/10.3390/s21165384
Hooker, Stanford B., Henry F. Houskeeper, Raphael M. Kudela, Atsushi Matsuoka, Koji Suzuki, and Tomonori Isada. (2021) Spectral modes of radiometric measurements in optically complex waters. Continental Shelf Research 219: 104357. https://doi.org/10.1016/j.csr.2021.104357
Hörig, B., Kühn, F., Oschütz, F., and Lehmann, F. (2001). HyMap hyperspectral remote sensing to detect hydrocarbons, Int. J. Remote Sens., 22(8), 1413-1422, https://doi.org/10.1080/01431160120909
Horne, E.P.W. and Platt, T. (1984). The dominant space and time scales of variability in the physical and biological fields on continental shelves. Rapp. P.-v. Réun. Cons. int. Explor. Mer., 183: 8-19.
Hou X, Feng L, Duan H, et al. (2017). Fifteen-year monitoring of the turbidity dynamics in large lakes and reservoirs in the middle and lower basin of the Yangtze River, China. Remote Sens. Environ. 190: 107-121. http://www.rslakes.com/up/document/2017/1-s2.0-S0034425716304801-main.pdf
Hou X, Feng L, Duan H, et al. (2017). Fifteen-year monitoring of the turbidity dynamics in large lakes and reservoirs in the middle and lower basin of the Yangtze River, China. Remote Sens. Environ. 190: 107-121. Full article
Houskeeper, H. F., & Hooker, S. B. (2023). Extending aquatic spectral information with the first radiometric IR-B field observations. PNAS nexus, 2(11), pgad340. https://doi.org/10.1093/pnasnexus/pgad340
Houskeeper, H.F., Hooker, S.B. and Cavanaugh, K.C., (2022) Spectrally simplified approach for leveraging legacy geostationary oceanic observations. Applied Optics, 61(27), pp.7966-7977. https://doi.org/10.1364/AO.465491
Houskeeper, Henry F., Stanford B. Hooker, and Raphael M. Kudela. (2021) Spectral range within global aCDOM (440) algorithms for oceanic, coastal, and inland waters with application to airborne measurements. Remote Sensing of Environment 253: 112155. https://doi.org/10.1016/j.rse.2020.112155
Hovis, W.A., Clark, D.K., Anderson, F., Austin, R.W., Wilson, W.H., Baker, E.T., Ball, D., Gordon, H.R., Mueller, J.L., El-Sayed, S.Z., Sturm, B., Wrigley, R.C. and Yentsch, C. S. (1980). Nimbus-7 coastal zone color scanner: system description and initial imagery. Science, 210: 60-63.
Hovland, E.K., H.M. Dierssen, A.S. Foerreira, and G. Johnsen (2013). Dynamics regulating major trends in Barents Sea temperatures and the subsequent effect on remotely sensed particulate inorganic carbon. Mar. Ecol. Prog. Ser. 484: 17-32.
Højerslev, N. K. and Aas, E., (1997). Spectral irradiance, radiance and polarization in blue Western Mediterranean waters. In S. G. Ackleson and R. Frouin (eds.): Ocean Optics XIII. SPIE, 2963, 138-147.
Højerslev, N.K. and Aas, E. (1991). A relationship for the penetration of ultraviolet B radiation into the Norwegian Sea. J. Geophys. Res., 96: 17003-17005.
Høkedal, J., Aas, E., and Sørensen, K., (2005). Spectral optical and bio-optical relationships in the Oslo Fjord compared with similar results from the Baltic Sea. Int. J. Remote Sens., 26 (2), 371-386.
Hsu, Y.-J., Huang, C., and Lee, M. (2024) Unveiling microplastic spectral signatures under weathering and digestive environments through shortwave infrared hyperspectral sensing, Environ. Pollut., 342, 123106, https://doi.org/10.1016/j.envpol.2023.123106
Hu C, Luerssen R, Muller-Karger FE, Carder KL, Heil CA. (2008). On the remote monitoring of Karenia brevis blooms of the west Florida shelf. Cont. Shelf Res. 28:159–176
Hu C., Li X., Pichel W.G., and Muller-Karger F.E. (2009). Detection of natural oil slicks in the NW Gulf of Mexico using MODIS imagery. Geophys. Res. Res. Lett., 36: L01604, doi:10.1029/2008GL036119, 2009. [Abstract]
Hu, C. (2011). An empirical approach to derive MODIS ocean color patterns under severe sun glint. Geophys. Res. Lett., 38, L01603, doi:10.1029/2010GL045422.
Hu, C. (2021) Remote detection of marine debris using satellite observations in the visible and near infrared spectral range: Challenges and potentials. Remote Sensing of Environment, 259, 112414, https://doi.org/10.1016/j.rse.2021.112414
Hu, C. (2022). Remote detection of marine debris using Sentinel-2 imagery: A cautious note on spectral interpretations. Marine Pollution Bulletin, 183, 114082, https://doi.org/10.
Hu, C. (2022). Sea Snots in the Marmara Sea as Observed From Medium-Resolution Satellites. IEEE Geosci. & Remote Sens. Lett., 19, 1504905, doi:10.1109/LGRS.2022.3173997.
Hu, C. (2022). Hyperspectral reflectance spectra of floating matters derived from Hyperspectral Imager for the Coastal Ocean (HICO) observations. Earth Syst. Sci. Data, 14, 1183–1192, https://doi.org/10.5194/essd-14-1183-2022.
Hu, C. (2024) A depth-invariant index to map floating algae: a conceptual design, Remote Sensing Letters, 15:1, 1-9, https://doi.org/10.1080/
Hu, C., Carder, K., and Muller-Karger, F.E. (2000). Atmospheric correction of SeaWiFS imagery over turbid coastal waters: a practical method. Remote Sens. Environ., 74: 195-206.
Hu, C., Carder, K.L., and Muller-Karger, F.E. (2000), Atmospheric correction of SeaWiFS imagery: assessment of the use of alternative bands. Applied Optics, 39(21): 3573-3581.
Hu, C., Carder, K.L., Muller-Karger, F.E., (2001) How precise are SeaWiFS ocean color estimates? Implications of digitization-noise errors. Rem. Sens. Environ., 76: 239-249.
Hu, C., Feng, L., Hardy, R. F., and Hochberg, E. J. (2015). Spectral and spatial requirements of remote measurements of pelagic Sargassum macroalgae, Remote Sens. Environ., 167, 229-246, http://dx.doi.org/10.1016/j.rse.2015.05.022
Hu, C., Feng, L., Lee, Z-P., Davis, C.O., Mannino, A., McClain, C.R., and Franz, B.A. (2012). Dynamic range and sensitivity requirements of satellite ocean color sensors: learning from the past. Applied Optics, 51(25): 6045-6062. [PDF file].
Hu, C., Hackett, K.E., Callahan, M.K., Andréfouët, S., Wheaton, J.L., Porter, J.W., Muller-Karger, F.E. (2003). The 2002 ocean color anomaly in the Florida Bight: A cause of local coral reef decline? Geophys. Res. Lett., 30(3): 10.1029/2002GL016479 15 February 2003
Hu, C., L. Feng, and Z. Lee (2013). Uncertainties of SeaWiFS and MODIS remote sensing reflectance: Implications from clear water measurements. Remote Sens. Environ., 133:163-182. [PDF file].
Hu, C., L. Qi, D.C. English, M. Wang, K. Mikelsons, B.B. Barnes, M.M. Pawlik, and D. Fick,. (2023) Pollen in the Baltic Sea as viewed from space, Remote Sens. Environ., 284, 113337. doi:10.1016/j.rse.2022.113337
Hu, C., L. Qi, L. Hu, T. Cui, Q. Xing, M. He, N. Wang, Y. Xiao, D. Sun, Y. Lu, C. Yuan, M. Wu, C. Wang, Y. Chen, H. Xu, L. Sun, M. Guo, and M. Wang,. (2023) Mapping Ulva prolifera green tides from space: A revisit on algorithm design and data products, Int. J. Appl. Earth Obs. Geoinf., 116, 103173. doi:10.1016/j.jag.2022.103173
Hu, C., L. Qi, Y. Xie, S. Zhang, and B. B. Barnes (2022). Spectral characteristics of sea snot reflectance observed from satellites: Implications for remote sensing of marine debris. Remote Sens., Environ, 269, 112842, https://doi.org/10.1016/j.rse.
Hu, C., Lee, Z., Ma, R., Yu, K., Li, D. and Shang, S. (2010). Moderate Resolution Imaging Spectroradiometer (MODIS) observations of cyanobacteria blooms in Taihu Lake, China. J. Geophys. Res.115: C04002, doi:10.1029/2009JC005511,2010 [Abstract].
Hu, C., Lee, Z., Muller-Karger, F.E., Carder, K.L. and Walsh, J.J. (2006). Ocean color reveals phase shift between marine plants and yellow substance. IEEE Geoscience and Remote Sensing Letters 3(2): 262-266. [Article]
Hu, C., Li, D., Chen, C., Ge, J., Muller-Karger, F.E., Liu, J., Yu, F. and He, M-X. (2010). On the recurrent Ulva prolifera blooms in the Yellow Sea and East China Sea. J. Geophys. Res. 115: C05017, doi:10.1029/2009JC005561 [Abstract].
Hu, C., Muller-Karger, F. E. and Swarzenski, P.W. (2006). Hurricanes, submarine groundwater discharge, and Florida’s red tides. Geophysical Research Letters, 33: L11601, doi:10.1029/2005GL025449, 2006. [Article]
Hu, C., Muller-Karger, F. E., Vargo, G. A., Neely, M.B. and Johns, E. (2004). Linkages between coastal runoff and the Florida Keys ecosystem: A study of a dark plume event Geophys. Res. Lett., 31(15): L15307 10.1029/2004GL020382 10 August 2004
Hu, C., Muller-Karger, F.E., Taylor, C., Carder, K.L., Kelble, C., Johns, E. and Heil, C.A. (2005). Red tide detection and tracing using MODIS fluorescence data: A regional example in SW Florida coastal waters. Remote Sensing of Environment 97: 311 – 321. [Article]
Hu, C., Qi, L., Wang, M. and Park, Y.-J. (2023) Floating debris in the Northern Gulf of Mexico after Hurricane Katrina. Environ. Sci. Technol., 57(28), 10373−10381, https://doi.org/10.1021/acs.est.3c01689
Hu, C., R. H. Weisberg, Y. Liu, L. Zheng, K. Daly, D. English, J. Zhao, and G. Vargo (2011). Did the northeastern Gulf of Mexico become greener after the Deepwater Horizon oil spill? Geophys. Res. Lett. 38, L09601, doi:10.1029/2011GL047184.
Hu, C., S. Zhang, B. B. Barnes, Y. Xie, M. Wang, J. P. Cannizzaro, and D. C. English (2023). Mapping and quantifying pelagic Sargassum in the Atlantic Ocean using multi-band medium-resolution satellite data and deep learning. Remote Sens. Environ., 113515, https://doi.org/10.