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References

  • Aiken, J., G. F. Moore, and P. M. Holligan (1992), Remote sensing of oceanic biology in relation to global climate change, J. Phycol., 28, 549590.
  • Álvarez-Salgado, X. A., J. Gago, B. M. Míguez, and F. F. Pérez (2001), Net ecosystem production of dissolved organic carbon in a coastal upwelling system: The Ría de Vigo, Iberian margin of the North Atlantic, Limnol. Oceanogr., 46, 135147.
  • Avril, B. (2002), DOC dynamics in the northwestern Mediterranean Sea (DYFAMED site), Deep Sea Res., 49, 21632182.
  • Bailey, S. W., and P. J. Werdell (2006), A multi-sensor approach for the on-orbit validation of ocean color satellite data products, Remote Sens. Environ., 102, 1223.
  • Bailey, S. W., W. D. Robinson, and B. A. Franz (2003), Modifications to SeaWiFS NIR correction, in Algorithm Updates for the Fourth SeaWiFS Data Reprocessing, NASA Technical Memo. 2003-206892, vol. 22, edited by S. B. Hooker, and E. R. Firestone, pp. 2628, NASA Goddard Space Flight Cent., Greenbelt, Md.
  • Bates, N. R., and D. A. Hansell (1999), A high resolution study of surface layer hydrographic and biogeochemical properties between Chesapeake Bay and Bermuda, Mar. Chem., 67, 116.
  • Becker, J. J., and D. T. Sandwell (2004), SRTM30_PLUS: Data Fusion of SRTM Land Topography With Measured and Estimated Seafloor Topography, Scripps Inst. Oceanogr., Univ. Calif. San Diego, La Jolla, Calif.
  • Benner, R., and M. Strom (1993), A critical evaluation of the analytical blank associated with DOC measurements by high-temperature catalytic oxidation, Mar. Chem., 41, 153160.
  • Blough, N. V., and R. Del Vecchio (2002), Chromophoric DOM in the coastal environment, in Biogeochemistry of Marine Dissolved Organic Matter, edited by D. A. Hansell, and C. A. Carlson, pp. 509546, Academic Press, San Diego, Calif.
  • Bricaud, A., A. Morel, and L. Prieur (1981), Absorption by dissolved organic matter of the sea (yellow substance) in the UV and visible domains, Limnol. Oceanogr., 26, 4353.
  • Carder, K. L., R. G. Steward, G. R. Harvey, and P. B. Ortner (1989), Marine humic and fulvic acids: Their effects on remote sensing of ocean chlorophyll, Limnol. Oceanogr., 34, 6881.
  • Carder, K. L., F. R. Chen, Z. P. Lee, S. K. Hawes, and D. Kamykowski (1999), Semianalytic Moderate-Resolution Imaging Spectrometer algorithms for chlorophyll and absorption with bio-optical domains based on nitrate-depletion temperatures, J. Geophys. Res., 104(C3), 54035421.
  • Cauwet, G., G. Déliat, A. Krastev, G. Shtereva, S. Becquevort, C. Lancelot, A. Momzikoff, A. Saliot, A. Cociasu, and L. Popa (2002), Seasonal DOC accumulation in the Black Sea: A regional explanation for a general mechanism, Mar. Chem., 79, 193205.
  • Chen, R. F., Y. Zhang, P. Vlahos, and S. M. Rudnick (2002), The fluorescence of dissolved organic matter in the Mid-Atlantic Bight, Deep Sea Res., Part II, 49, 44394459.
  • Churchill, J. H., and T. J. Berger (1998), Transport of Middle Atlantic Bight shelf water to the Gulf Stream near Cape Hatteras, J. Geophys. Res., 103(C13), 30,60530,621.
  • Claustre, H., et al. (2004), An intercomparison of HPLC phytoplankton pigment methods using in situ samples: Application to remote sensing and database activities, Mar. Chem., 85, 4161.
  • DeGrandpre, M. D., A. Vodacek, R. K. Nelson, E. J. Bruce, and N. V. Blough (1996), Seasonal seawater optical properties of the U.S. Middle Atlantic Bight, J. Geophys. Res., 101(C10), 22,72722,736.
  • Del Castillo, C. E., P. G. Coble, J. M. Morell, J. M. Lopez, and J. E. Corredor (1999), Analysis of the optical properties of the Orinoco River plume by absorption and fluorescence spectroscopy, Mar. Chem., 66, 3551.
  • Del Vecchio, R., and N. V. Blough (2004), Spatial and seasonal distribution of chromophoric dissolved organic matter (CDOM) and dissolved organic carbon (DOC) in the Middle Atlantic Bight, Mar. Chem., 89, 169187.
  • Del Vecchio, R., and A. Subramaniam (2004), Influence of the Amazon River on the surface optical properties of the western tropical North Atlantic Ocean, J. Geophys. Res., 109, C11001, doi:10.1029/2004JC002503.
  • D'Sa, E. J., and R. L. Miller (2003), Bio-optical properties in waters influenced by the Mississippi River during low flow conditions, Remote Sens. Environ., 84, 538549.
  • Fasham, M. J. R., P. W. Boyd, and G. Savidge (1999), Modeling the relative contributions of autotrophs and heterotrophs to carbon flow at a Lagrangian JGOFS station in the Northeast Atlantic: The importance of DOC, Limnol. Oceanogr., 44, 8094.
  • Ferrari, G. M., M. D. Dowell, S. Grossi, and C. Targa (1996), Relationship between the optical properties of chromophoric dissolved organic matter and total concentrations of dissolved organic carbon in the southern Baltic Sea region, Mar. Chem., 55, 299316.
  • Garcia, V. M. T., S. Signorini, C. A. E. Garcia, and C. R. McClain (2006), Empirical and semi-analytical chlorophyll algorithms in the south-western Atlantic coastal region (25–40°S and 60–45°W), Int. J. Remote Sens., 27, 15391562.
  • Hansell, D. A., and C. A. Carlson (1998), Net community production of dissolved organic carbon, Global Biogeochem. Cycles, 12(3), 443453.
  • Hedges, J. I. (2002), Why dissolved organic matter, in Biogeochemistry of Marine Dissolved Organic Matter, edited by D. A. Hansell, and C. A. Carlson, pp. 133, Academic Press, San Diego, Calif.
  • Hernes, P. J., and R. Benner (2003), Photochemical and microbial degradation of dissolved lignin phenols: Implications for the fate of terrigenous dissolved organic matter in marine environments, J. Geophys. Res., 108(C9), 3291, doi:10.1029/2002JC001421.
  • Hofmann, E., et al. (2008), Eastern U.S. Continental Shelf carbon budget: Integrating models, data assimilation, and analysis, Oceanography, 21, 86104.
  • Hoge, F. E., C. W. Wright, P. E. Lyon, R. N. Swift, and J. K. Yungel (2001), Inherent optical properties imagery of the western North Atlantic Ocean: Horizontal spatial variability of the upper mixed layer, J. Geophys. Res., 106(C12), 31,12931,138.
  • Hooker, S. B., and J. Aiken (1998), Calibration evaluation and radiometric testing of field radiometers with the SeaWiFS Quality Monitor (SQM), J. Atmos. Oceanic Technol., 15, 9951007.
  • Hooker, S. B., and S. Maritorena (2000), An evaluation of oceanographic radiometers and deployment methodologies, J. Atmos. Oceanic Technol., 17, 811830.
  • Hooker, S. B., and C. R. McClain (2000), The calibration and validation of SeaWiFS data, Prog. Oceanogr., 45, 427465.
  • Hooker, S. B., and A. Morel (2003), Platform and environmental effects on above- and in-water determinations of water-leaving radiances, J. Atmos. Oceanic Technol., 20, 187205.
  • Hooker, S. B., and G. Zibordi (2005), Advanced methods for characterizing the immersion factor of irradiance sensors, J. Atmos. Oceanic Technol., 22, 757770.
  • Hooker, S. B., G. Zibordi, J.-F. Berthon, D. D'Alimonte, S. Maritorena, S. McLean, and J. Sildam (2001), Results of the Second SeaWiFS Data Analysis Round Robin, March 2000 (DARR-00), NASA Tech. Memo. 2001-206892, vol. 15, edited by S. B. Hooker, and E. R. Firestone, 71 pp., NASA Goddard Space Flight Cent., Greenbelt, Md.
  • Hooker, S. B., S. McLean, J. Sherman, M. Small, G. Lazin, G. Zibordi, and J. W. Brown (2002a), The Seventh SeaWiFS Intercalibration Round-Robin Experiment (SIRREX-7), March 1999, NASA Tech. Memo, 2002-206892, vol. 17, edited by S. B. Hooker, and E. R. Firestone, 69 pp., NASA Goddard Space Flight Cent., Greenbelt, Md.
  • Hooker, S. B., G. Lazin, G. Zibordi, and S. McLean (2002b), An evaluation of above- and in-water methods for determining water-leaving radiances, J. Atmos. Oceanic Technol., 19, 486515.
  • Hooker, S. B., et al. (2005), The Second SeaWiFS HPLC Analysis Round-Robin Experiment (SeaHARRE-2), NASA Tech. Memo. 2005-212785, 112 pp., NASA Goddard Space Flight Cent., Greenbelt, Md.
  • Hooker, S. B., C. R. McClain, and A. Mannino (2007), NASA Strategic Planning Document: A Comprehensive Plan for the Long-Term Calibration and Validation of Oceanic Biogeochemical Satellite Data, NASA Special Pub. 2007-214152, 31 pp., NASA Goddard Space Flight Cen., Greenbelt, Md.
  • Jahnke, R. A. (2008), Global synthesis, in Carbon and Nutrient Fluxes in Continental Margins: A Global Synthesis, edited by K. K. Liu et al., Global Change: The IGBP Series, Springer-Verlag, New York, in press.
  • Johannessen, S. C., W. L. Miller, and J. J. Cullen (2003), Calculation of UV attenuation and colored dissolved organic mater absorption spectra from measurements of ocean color, J. Geophys. Res., 108(C9), 3301, doi:10.1029/2000JC000514.
  • Kahru, M., and B. G. Mitchell (2001), Seasonal and nonseasonal variability of satellite-derived chlorophyll and colored dissolved organic matter concentration in the California current, J. Geophys. Res., 106(C2), 25172529.
  • Lebo, M. E., and J. H. Sharp (1993), Phosphorus distributions along the Delaware: An urbanized coastal plain estuary, Estuaries, 16, 291302.
  • Lee, Z. P., K. L. Carder, and R. A. Arnone (2002), Deriving inherent optical properties from water color: A multiband quasi-analytical algorithm for optically deep waters, Appl. Opt., 41, 57555772.
  • Ludwig, W., J.-L. Probst, and S. Kempe (1996), Predicting the oceanic input of organic carbon by continental erosion, Global Biogeochem. Cycles, 10(1), 2341.
  • Magnuson, A., L. W. Harding Jr., M. E. Mallonee, and J. E. Adolf (2004), Bio-optical model for Chesapeake Bay and Middle Atlantic Bight, Estuarine Coastal Shelf Sci., 61, 403424.
  • Mannino, A., and H. R. Harvey (1999), Lipid composition in particulate and dissolved organic matter in the Delaware Estuary: Sources and diagenetic patterns, Geochim. Cosmochim. Acta, 63, 22192235.
  • Mannino, A., and H. R. Harvey (2000), Terrigenous dissolved organic matter along an estuarine gradient and its flux to the coastal ocean, Org. Geochem., 31, 16111625.
  • Mannino, A., and H. R. Harvey (2004), Black carbon in estuarine and coastal ocean dissolved organic matter, Limnol. Oceanogr., 49, 735740.
  • Mantoura, R. F. C., and E. M. S. Woodward (1983), Conservative behavior of riverine dissolved organic carbon in the Severn estuary: Chemical and geochemical implications, Geochim. Cosmochim. Acta, 47, 12931309.
  • Maritorena, S., D. A. Siegel, and A. R. Peterson (2002), Optimization of a semianalytical ocean color model for global-scale applications, Appl. Opt., 41, 27052714.
  • McKee, B. A. (2003), RiOMar: The Transport, Transformation and Fate of Carbon in River-dominated Ocean Margins, Report of the RiOMar Workshop, 1–3 November 2001, Tulane Univ., New Orleans, La.
  • Mitchell, B. G., et al. (2000), Determination of spectral absorption coefficients of particles, dissolved material and phytoplankton for discrete water samples, in Ocean Optics Protocols for Satellite Ocean Color Sensor Validation, edited by G. S. Fargion, and J. L. Mueller, pp. 125153, NASA/TM-2000-209966, NASA Goddard Space Flight Cent., Greenbelt, MD.
  • Mitchell, B. G., M. Kahru, J. Wieland, and M. Stramska (2003), Determination of spectral absorption coefficients of particles, dissolved material and phytoplankton for discrete water samples, in Ocean Optics Protocols for Satellite Ocean Color Sensor Validation, edited by G. S. Fargion, J. L. Mueller, and C. R. McClain, pp. 3964, NASA/TM-2003-211621/Rev4-Vol.IV, NASA Goddard Space Flight Cent., Greenbelt, MD.
  • Mueller, J. L. (2003), Overview of measurement and data analysis methods, in Ocean Optics Protocols for Satellite Ocean Color Sensor Validation, Revision 4, Volume III: Radiometric Measurements and Data Analysis Protocols, edited by J. L. Mueller et al., NASA Tech. Memo. 2003-211621/Rev4-vol. III, pp. 120, NASA Goddard Space Flight Cent., Greenbelt, Md.
  • Nelson, J. R., and S. Guarda (1995), Particulate and dissolved spectral absorption on the continental shelf of the southeastern United States, J. Geophys. Res., 100, 87158732.
  • Nelson, N. B., and D. A. Siegel (2002), Chromophoric DOM in the open ocean, in Biogeochemistry of Marine Dissolved Organic Matter, edited by D. A. Hansell, and C. A. Carlson, pp. 547578, Academic Press, San Diego, Calif.
  • Nelson, N. B., C. A. Carlson, and D. K. Steinberg (2004), Production of chromophoric dissolved organic matter by Sargasso Sea microbes, Mar. Chem., 89, 273287.
  • Nieto-Cid, M., X. A. Álvarez-Salgado, S. Brea, and F. F. Perez (2004), Cycling of dissolved and particulate carbohydrates in a coastal upwelling system (NW Iberian Peninsula), Mar. Ecol. Prog. Ser., 283, 3954.
  • O'Reilly, J. E., S. Maritorena, B. G. Mitchell, D. A. Siegel, K. L. Carder, S. A. Garver, M. Kahru, and C. R. McClain (1998), Ocean color chlorophyll algorithms for SeaWiFS, J. Geophys. Res., 103(C11), 24,93724,953.
  • O'Reilly, J. E., et al. (2000), Ocean color chorophyll a Algorithms for SeaWiFS, OC2, and OC4: Version 4, in SeaWiFS Postlaunch Calibration and Validation Analyses, Part 3, edited by S. B. Hooker, and E. R. Firestone, NASA Tech. Memo. 2000-206892, vol. 11, pp. 923, NASA Goddard Space Flight Cent., Greenbelt, Md.
  • Rennie, S. E., J. J. Largier, and S. J. Lentz (1999), Observations of a pulsed buoyancy current downstream of Chesapeake Bay, J. Geophys. Res., 104(C8), 18,22718,240.
  • Rochelle-Newall, E. J., and T. R. Fisher (2002), Chromophoric dissolved organic matter and dissolved organic carbon in Chesapeake Bay, Mar. Chem., 77, 2341.
  • Sanders, T. M., and R. W. Garvine (2001), Fresh water delivery to the continental shelf and subsequent mixing: An observational study, J. Geophys. Res., 106(C11), 27,08727,101.
  • Schlünz, B., and R. R. Schneider (2000), Transport of terrestrial organic carbon to the oceans by rivers: Re-estimating flux- and burial rates, Int. J. Earth Sci., 88, 599606.
  • Schubel, J. R., and D. W. Pritchard (1986), Responses of upper Chesapeake Bay to variations in discharge of the Susquehanna River, Estuaries, 9, 236249.
  • Sharp, J. H., C. A. Carlson, E. T. Peltzer, D. M. Castle-Ward, K. B. Savidge, and K. R. Rinker (2002), Final dissolved organic carbon broad community intercalibration and preliminary use of DOC reference materials, Mar. Chem., 77, 239253.
  • Siegel, D. A., M. Wang, S. Maritorena, and W. D. Robinson (2000), Atmospheric correction of satellite ocean-color imagery: The black pixel assumption, Appl. Opt., 39, 35823591.
  • Siegel, D. A., S. Maritorena, N. B. Nelson, D. A. Hansell, and M. Lorenzi-Kayser (2002), Global distribution and dynamics of colored dissolved and detrital organic materials, J. Geophys. Res., 107(C12), 3228, doi:10.1029/2001JC000965.
  • Siegel, D. A., S. Maritorena, N. B. Nelson, and M. J. Behrenfeld (2005), Independence and interdependencies among global ocean color properties: Reassessing the bio-optical assumption, J. Geophys. Res., 110, C07011, doi:10.1029/2004JC002527.
  • Smith, R. C., and K. S. Baker (1984), Analysis of ocean optical data, in Ocean Optics VII, edited by M. A. Blizard, Proc. SPIE Int. Soc. Opt. Eng., vol. 489, pp. 119126, Bellingham, WA.
  • Steinberg, D. K., N. Nelson, C. A. Carlson, and A. C. Prusak (2004), Production of chromophoric dissolved organic matter (CDOM) in the open ocean by zooplankton and the colonial cyanobacterium Trichodesmium spp. Mar. Ecol. Prog. Ser., 267, 4556.
  • Thingstad, T. F., Å. Hagström, and F. Rassoulzadegan (1997), Accumulation of degradable DOC in surface waters: Is it caused by a malfunctioning microbial loop? Limnol. Oceanogr., 42, 398404.
  • Van Heukelem, L., and C. S. Thomas (2001), Computer-assisted high-performance liquid chromatography method development with applications to the isolation and analysis of phytoplankton pigments, J. Chromatogr. A, 910, 3149.
  • Verity, P. G., J. E. Bauer, C. N. Flagg, D. J. DeMaster, and D. J. Repeta (2002), The Ocean Margins Program: An interdisciplinary study of carbon sources, transformations, and sinks in a temperate continental margin system, Deep Sea Res., Part II, 49, 42734295.
  • Vlahos, P., R. F. Chen, and D. J. Repeta (2002), Dissolved organic carbon in the Middle Atlantic Bight, Deep Sea Res., Part II, 49, 43694385.
  • Vodacek, A., F. E. Hoge, R. N. Swift, J. K. Yungel, E. T. Peltzer, and N. V. Blough (1995), The use of in situ and airborne fluorescence measurements to determine UV absorption coefficients and DOC concentrations in surface waters, Limnol. Oceanogr., 40, 411415.
  • Vodacek, A., N. V. Blough, M. D. DeGrandpre, E. T. Peltzer, and R. K. Nelson (1997), Seasonal variation of CDOM and DOC in the Middle Atlantic Bight: Terrestrial inputs and photooxidation, Limnol. Oceanogr., 42, 674686.
  • Wang, M., and W. Shi (2005), Estimation of ocean contribution at the MODIS near-infrared wavelengths along the east coast of the U.S.: Two case studies, Geophys. Res. Lett., 32, L13606, doi:10.1029/2005GL022917.
  • Williams, P. J. leB. (1995), Evidence for the seasonal accumulation of carbon-rich dissolved organic material, its scale in comparison with changes in particulate material and the consequential effect on net C/N assimilation ratios, Mar. Chem., 51, 1729.
  • Yuan, J., M. J. Dagg, and C. E. Del Castillo (2005), In-pixel variations of chl a fluorescence in the Northern Gulf of Mexico and their implications for calibrating remotely sensed chl a and other products, Cont. Shelf Res., 25, 894904.