Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Arvesen, J.C., Millard, J.P., and Weaver, E.C., 1973. ‘Remote sensing of chlorophyll and temperature in marine and fresh waters,’ Astronaut. Acta., 18, 229–239.
Austin, R.W., 1974. ‘The remote sensing of spectral radiance from below the ocean surface, ‘In Optical Aspects of Oceanography, edited by N.G. Jerlov and E.S. Nielsen, Academic Press, London. Ch. XIV, 317–344.
Austin, R.W., 1981. ‘Remote sensing of the diffuse attenuation coefficient of ocean water,’ The 29th Symposium of the AGARD Electromagnetic Wave Propagation Panel on Special Topics in Optical Propagation, Monterey, Calif., 6–10 April.
Austin, R.W., and Petzold, T.J., 1981. ‘The determination of the diffuse attenuation coefficient of sea Water using the coastal zone color scanner,’ in ‘Oceanography from Space,’ edited by J.R.F. Gower, Plenum Press, New York, p. 239–256.
Banse, B., 1977. Determining the carbon—to—chlorophyll ratio of natural phytoplankton, Mar. Biol., 41, 199–212.
Barton, E.D., Buyer, A., and Smith, R.L., 1977. ‘Temporal variations observed in the hydrographic regime near Cabo Corveiro in the N.W. African upwelling region, February to April 1974.’ Deep Sea Res., 24, 7–23.
Bricaud, A. and Morel, A., 1981. ‘Possible variations in the specific absorption by phytoplankton as a result of the discretness effect and change in pigment composition,’ IAMAP Scientific Assembly (Hamburg), (extended abstract) 18–20.
Bricaud, A., Morel, A., and Prieur, L., 1981. ‘Absorption of dissolved organic matter of the sea (’yellow substance’) in the uv and visible domains,’ Limnology and Oceanography, 26, 43–53.
Clark, D.K., Baker, E.T., and Strong, A.E., 1980. ‘Upwelled spectral radiance distribution in relation to particulate matter in sea water,’ Boundary Layer Meteorology, 18, 287–298.
Clark, D.B.,, 1981. ‘Phytoplankton algorithms for the Nimbus-7 CZCS,’ in ‘Oceanography from Space,’ edited by J.R.F. Gower, Plenum Press, New York, pp. 227–238.
Clarke, G.S., Ewing, G.C., and Lorenzen, C.J., 1970. ‘Spectra of backscattered light from the sea obtained from aircraft as a measure of chlorophyll concentration,’ Science, 167, 1119–1121.
Clarke, G.K., and Ewing, G.C., 1974. ‘Remote spectroscopy of the sea for biological production studies,’ in Optical Aspects of Oceanography, edited by N.G. Jerlov and E.S. Nielsen, Academic Press, London. Ch. XVII, 389–413.
Duntley, S.Q., 1942. ‘Optical properties of diffusing materials,’ J. Opt. Soc. Am., 32, 61–70.
Gordon, H.R., 1976. ‘Radiative transfer: a technique for simulating the ocean in satellite remote sensing calculations,’ Applied Optics, 15, 1974–1979.
Gordon, H.R., 1978. ‘Removal of atmospheric effects from satellite imagery of the oceans,’ Applied Optics, 17, 1631–1636.
Gordon, H.R., 1981a. ‘A preliminary assessment of the Nimbus-7 CZCS atmospheric correction algorithm in a horizontally inhomogeneous atmosphere,’ in ‘Oceanography from Space,’ edited by J.R.F. Gower, Plenum Press, New York, pp. 257–266.
Gordon, H.R., 1981b. ‘Reduction of error introduced in the processing of coastal zone color scanner—type imagery resulting from sensor calibration and solar irradiance uncertainty,’ Applied Optics, 20, 207–210.
Gordon, H.R., 1981c. ‘Remote sensing of ocean properties at optical wavelengths,’ IAMAP Scientific Assembly (Hamburg), (extended abstract) 128–131.
Gordon, H.R., Brown, O.B., and Jacobs, M.M., 1975. ‘Computed relationships between the inherent and apparent optical properties of a flat homogeneous ocean,’ Applied Optics, 14, 417–427.
Gordon, H.R., and Clark, D.g., 198Oa. ‘Remote sensing optical properties of a stratified ocean: an improved interpretation,’ Applied Optics, 19, 3428–3430.
Gordon, H.R., and Clark, D.B., 1980b. ‘Atmospheric effects in the remote sensing of phytoplankton pigments,’ Boundary Layer Meteorology, 18, 299–313.
Gordon, H.R., and Clark, D.B., 1981. ‘Clear water radiances for atmospheric correction of coastal zone color scanner imagery,’ Applied Optics, 20, 4175–4180.
Gordon, H.R., Clark, D.B., Brown, J.W., Brown, O.B., and Evans, R.H., 1982. ‘Satellite measurement of the phytoplankton pigment concentration in the surface waters of a warm core Gulf Stream ring,’ J. Mar. Res., 40, 491–502.
Gordon, H.R., Clark, D.B., Brown, J.W., Brown, O.B., Evans, R.H., and Broenkow, W.W., 1983. ‘Phytoplankton pigment concentrations in the Middle Atlantic Bight: comparison between ship determinations and Coastal Zone Color Scanner estimates,’ Applied Optics, 22, 20–36.
Gordon, H.R., Clark, D.B., Mueller, J.L., and Hovis, W.A., 1980. ‘Phytoplankton pigments derived from the Nimbus-7 CZCS: initial comparisons with surface measurements,’ Science, 210, 63–66.
Gordon, H.R., and McCluney, W.R., 1975. ‘Estimation of the depth of sunlight penetration in the sea for remote sensing,’ Applied Optics, 14, 413–416.
Gordon, H.R., Mueller, J.L., and Wrigley, R.C., 1979. ‘Atmospheric correction of Nimbus-7 coastal zone color scanner imagery,’ Presented at IFAORS Workshop on ‘Interpretation of Remotely Sensed Data,’ Williamsburg, Virginia, May 23–25 (also in ’Remote Sensing of Oceans and Atmospheres,’ edited by A. Deepak, Academic Press, New York, 1980 ).
Gower, J.F.R., Denman, B.L., and Holyer, R.J., 1980. ‘Phytoplankton patchiness indicates the fluctuation spectrum of mesoscale oceanic turbulence,’ Nature, 288, 157–159.
Gower, J.F.R., and Denman, B.L., 1981. ‘Reply to Satellite sensed turbulent ocean structure,’ Nature, 294, 693–694.
Hobson, L.A., Menzel, D.W., and Barber, R.T., 1973. ‘Primary productivity and sizes of pools of organic carbon in the mixed layer of the ocean,’ Mar. Biol., 19, 298–306.
H6jerslev, N. and Jerlov, N.G., 1977. ‘The use of the colour index for determining quanta irradiance in the sea,’ Rep. Inst. Phys. Oceanogr., Univ. Copenhagen, No. 35, 12 pp.
Hójerslev, N., 1980. ‘Water colour and its relation to primary production,’ Boundary Layer Meteorology, 18, 203–220.
HÓjerslev, N., 1981. ‘Assessment of some suggested algorithms on sea colour and surface chlorophyll,’ in ‘Oceanography from Space,’ edited by J.R.F. Gower, Plenum Press, New York, p. 347–354.
Hovis, W.A., 1981. ‘The Nimbus-7 coastal zone color scanner (CZCS) program,’ in ‘Oceanography from Space,’ edited by J.R.F. Gower, Plenum Press, New York, pp. 213–225.
Hovis, W.A., and Leung, S.C., 1977. ‘Remote sensing of ocean color,’ Optical Engineering, 16, 153–166.
Hovis, W.A., Clark, D.S., Anderson, F.,Austin, R.W. Wilson, W.H., Baker, E.T., Ball, D., Gordon, H.R., Mueller, J.L., El Sayed, S.Y., 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.
Innamorati, M., 1978. ‘Spettri della radiazione sottemarina nell’arcipelago delle Galapagos,’ in Galapagos, studi e ricerche, Gruppo di Richerche scientifiche e techniche., Florence, 1–59.
Jain, S.C., and Miller, J.R.,, 1976. ‘Subsurface water parameters: optimization approach to their determination from remotely sensed water color data,’ Applied Optics, 15, 886–890.
Jerlov, N.G., 1974. ‘Significant relationships between optical properties of the sea,’ in ‘Optical Aspects of Oceanography,’ edited by N.G. Jerlov and E.S. Nielsen, Academic Press, London. Ch. IV, 77–94.
Joseph, J., 1950. ‘Untersuchungen;ber Ober— und Unterlichtmessungen in Meere und;ber ihren Zusammenhang mit Durchsichtigkeits messungen,’ Deut. Hydrograph., 3, 324–335.
Kirk, J.T.O., 1976. ‘Yellow substance (Gelbstoff) and its contribution to the attenuation of photosynthetically active radiation in some inland and coastal southeastern Australian waters,’ Aust. J. Mar. Freshwater Res., 27, 61–71.
Kirk, J.T.O., 1981. ‘Monte Carlo study of the nature of the underwater light field in, and relationships between optical properties of, turbid yellow waters,’ Aust. J. Mar. Freshwater Res., 32, 517–532.
Kozlyaninov, M.V., 1972. ‘The basic relationships between the hydro—optical parameters,’ in ‘Optics of the Ocean and the Atmosphere,’ edited by S.S. Shifrin, Nauka, pp. 5–24 (in Russian).
Kozlyaninov, M.V. and Pelevin, V.N., 1965. ‘On the application of a one—dimensional approximation in the investigation of the propagation of optical radiation in the sea,’ Tr. Inst. Okeanol. Akad. Nauk. SSSR, 77, 73–79. Also, 1966, U.S. Dept. Comm. Jt. Publ. Res. Ser. Rep., 36, (816) 54–63 (English translation).
Lesieur, M., and Sadourny, R., 1981. ‘Satellite—sensed turbulent ocean structure,’ Nature, 294, 674.
Maul, G.A., and Gordon, H.R., 1975. ‘On the use of the Earth Resources Technology Satellite (LANDSAT—I) in optical oceanography,’ Rem. Sens. Environ., 4, 95–128.
Morel, A., 1970. ‘Examen des resultats experimentaux concernant la diffusion de la lumiere par les eaux de mer,’ in ‘Electromagnetics of the Sea,’ AGARD Conference Proceedings, 77, 300–309.
Morel, A., 1973a. ‘Measurements of spectral and total radiant flux,’ p. F1—F341, in SCOR—UNESCO Data Rep. Discoverer Expedition, edited by T.E. Tyler, S.I.O. Ref. 73–16.
Morel, A., 1973b. ‘Diffusion de la lumiere par les eaux de mer; resultats experimentaux et approche theorique,’ in ‘Optics of the Sea,’ AGARD Lecture Series, 63, Sect. 3, 1–76.
Morel, A., 1974. ‘Optical properties of pure water and sea water,’ in ‘Optical Aspects of Oceanography,’ edited by N.G. Jerlov and E.S. Nielsen, Academic Press, London. Ch. I, 1–24.
Morel, A., 1978. ‘Available, usable, and stored radiant energy in relation to marine photosynthesis,’ Deep Sea Res., 25, 673–688.
Morel, A., 1979. ‘Depth of the euphotic zone, average pigment concentration, and primary production efficiency,’ IAPSO-UGGI XVII General Assembly ( Canberra ), Proces-verbaux, 15, 116–117.
Morel, A., 1980. ‘In-water and remote measurement of ocean color,’ Boundary Layer Meteorology, 18, 177–201.
Morel, A., 1982. ‘Optical properties of radiant energy in the waters of the Guinea dome and the Mauritanian upwelling area in relation to primary production,’ Rapp. P-v. Reun. Cons. Int. Explor. Mer., 180, 94–107.
Morel, A., and Bricaud A., 1981a. ‘Theoretical results concerning the optics of phytoplankton, with special reference to remote sensing applications,’ in ‘Oceanography from Space,’ edited by J.R.F. Gower, Plenum Press, New York, pp. 313–328.
Morel, A., and Bricaud A., 1981b. ‘Theoretical results concerning light absorption in a discrete medium and application to the specific absorption of phytoplankton,’ Deep Sea Res., 28A, 11, 1357–1393.
Morel, A., and Caloumenos, L., 1973. ‘Mesure d’eclairements sous marins, flux de photons et analyse spectrale,’ Centre Rech. Oceanogr., Villefranche-sur-mer, Rapp. 11, pp 242.
Morel, A., and Gordon, H.R.,, 1980. ‘Report of the working group on water color,’ Boundary Layer Meteorology, 18, 343–355.
Morel, A., and Prieur, L., 1975a. ‘Analyse spectrale des coefficients d’attenuation diffuse, de reflexion diffuse, d’absorption, et de retrodiffusion pour diverses regions marines,’ Centre Rech. Oceanogr., Villefranche—sur—mer Rapp. 17, 157 pp.
Morel, A., and Prieur, L., 1975b. ‘Analyse spectrale du facteur de reflexion diffuse de la mer. IAPSO—IGGU XVI General Assembly ( Grenoble ), Proces—verbaux, 14, 177–178.
Morel, A., and Prieur, L., 1976. ‘Eclairements sous marins,’ in Resultats des Campagnes a la mer, No 10, CINECA 5—Charcot, 1–256. Publications CNEXO.
Morel, A., and Prieur, L., 1977a. ‘Analysis of variations in ocean color,’ Limnology and Oceanography, 22, 709–722.
Morel, A., and Prieur, L., 1977b. ‘Energie radiative disponible pour la photosynthese,’ Resultats des campagnes a la mer, No 13, fasc. 2, Campagne GUIDOM—Charcot, 33–62, Publications CNEXO.
Morel, A., Prieur, L., and Matsumoto, M., 1978. ‘Mesures d’optique marine,’ Resultats des campagnes a la mer, No 6, Campagne ANTIPROD 1, 99–141, Publications CNEXO.
Morel, A., and Smith, R.C., 1982. Terminology and units in optical oceanography, Marine Geodesy, 5, 335–349.
Mueller, J.L., and LaViolette, P.E., 1981. ‘Signatures of ocean fronts observed with the Nimbus-7 CZCS,’ in ‘Oceanography from Space,’ edited by J.R.F. Gower, Plenum Press, New York, pp. 295–302.
Neckel, H., and Labs, D., 1981. ‘Improved data of solar spectral irradiance from 0.33 to 1.25µ,’ Solar Physics, 74, 231–249.
Okami, N., Kishino, M., and Sugihara, S., 1978. ‘Measurements of spectral irradiance in the seas around the Japanese Islands,’ Tech Rep. of Phys. Oceanogr. Lab., No 2, 129 pp.
Okami, N., Kishino, M., Sugihara, S., Unoki, S., Muneyama, K., Toyota, T., Nakajima, T., Sasaki, Y., and Emura, T., 1981 ‘Measurements of spectral irradiance in Tokyo Bay,’ Tech Rep. of Phys. Oceanogr. Lab., No 5, 75 pp.
Parsons, T.R., and Takahashi, M., 1973. ‘Biological Oceanographic Processes,’ Pergamon Press, Oxford. 184 pp.
Platt, T., Denman, K.L., and Jassby, A.D., 1977. ‘Modeling the productivity of phytoplankton,’ in ‘The Sea,’ Vol. 6, edited by Goldberg, E.D., McCave, I.N., O’Brien, J.J., and Steele, J.H., Ch. 21, 807–856.
Preisendorfer, R.W., 1961. ‘Application of radiative transfer theory to light measurements in the sea,’ UGGI Monogr. No. 10 (Symposium on Radiant Energy in the Sea), 11–30
Prieur, L., 1976. ‘Transfert radiatif dans les eaux de mer. Application a la determination de parametres optiques caracterisant leur teneur en substances dissoutes et leur contenu en particules,’ D.Sci. Thesis, Univ. Pierre et Marie Curie, 243 pp.
Prieur, L., and Morel, A., 1975. ‘Relations theoriques entre le facteur de reflexion diffuse de l’eau de mer a diverses profondeurs et les caracteristiques optiques (absorption, diffusion),’ IAPSO-IGGU XVI General Assembly (Grenoble)
Prieur, L., and Sathyendranath, S., 1981. ‘An optical classification of coastal and oceanic waters based on the specific spectral absorption curves of phytoplankton pigments, dissolved organic matter, and other particulate materials,’ Limnology and Oceanography., 26, 671–689.
Quenzel, H., and Kaestner, M., 1980. ‘Optical properties of the atmosphere: calculated variability and application to satellite remote sensing of phytoplankton,’ Applied Optics, 19, 1338–1344.
Ramsey, R.C., and White, P.G., 1973. ‘Ocean color data analysis applied to MOCS and SIS data,’ Final Report. NOAA Contract No. N62306–72—C-0037, 75 pp.
Smith, R.C., 1973. ‘Scripps spectroradiometer data,’ pp. Gl—G160, in SCOR—UNESCO Data Rep. Discoverer Expedition, edited by J.E. Tyler, S.I.O. Ref. 73–16.
Smith, R.C., 1974. ‘Structure of solar radiation in the upper layers of the sea,’in ‘Optical Aspects of Oceanography,’ edited by N.G. Jerlov and E.S. Nielsen, Academic Press, London. Ch. V, 95–119.
Smith, R.C., and Baker, B.S., 1978a. ‘The bio—optical state of ocean waters and remote sensing,’ Limnology and Oceanography, 23, 247–259.
Smith, R.C., and Baker, B.S., 1978b. ‘Optical classification of natural waters,’ Limnology and Oceanography, 23, 260–267.
Smith, R.C., and Baker, B.S., 1982. ‘Oceanic chlorophyll concentrations as determined using Nimbus-7 Coastal Zone Color Scanner imagery,’ J. Mar. Biol., 66, 269–279.
Smith, R.C., Eppley, R.W., and Baker, K.S., 1982. ‘Application of satellite CZCS chlorophyll images for the study of primary production in Southern California coastal waters’, J. Mar. Biol., 66, 281–288.
Smith, R.C., and Wilson, W.H., 1981. ‘Ship and satellite bio—optical research in the California Bight,’ in ‘Oceanography from Space,’ edited by J.R.F. Gower, Plenum Press, New York, p. 281–294.
Sturm, B., 1981. ‘Ocean color remote sensing and the retrieval of surface chlorophyll in coastal waters using the Nimbus-7 CZCS,’ in ‘Oceanography from Space,’ edited by J.R.F. Gower, Plenum Press, New York, p. 267–280.
Tanre, D., Herman, M., Deschamps, P.Y., and de Leffe, A., 1979. ‘Atmospheric modeling for space measurements of ground reflectances, including bidirectional properties,’ Applied Optics, 18, 3587–3594.
Tassan, S., 1981. ‘A global sensitivity analysis for the retrieval of chlorophyll concentrations from remotely sensed radiances — the influence of wind,’ in ‘Oceanography from Space,’ edited by J.R.F. Gower, Plenum Press, New York, p. 371–376.
Tyler, J.E., 1960. ‘Radiance distribution as a function of depth in an underwater environment,’Bulletin of the Scripps Institution of Oceanography of the University of California, La Jolla, California, 7, 363–412.
Tyler, J.E., and Smith, R.C., 1970. ‘Measurements of Spectral Irradiance,’ Gordon and Breach, New York, 103 pp.
Viollier, M., Deschamps, P.Y., Lecomte, P., 1978. ‘Airborne remote sensing of chlorophyll content under cloudy sky as applied to the tropical waters in the Gulf of Guinea,’ Remote Sensing of Environment, 7, 235–248.
Viollier, M.,Tanre, D., and Deschamps, P.Y., 1980. ‘An algorithm for remote sensing of water color from space,’ Boundary Layer Meteorology, 18, 247–267.
Viollier, M., 1982. ‘Radiance calibration of the Coastal Zone Color Scanner: a proposed adjustment,’ Applied Optics, 21, 1142–1145.
Wrigley, R.C., 1980. ‘Frontal activity in Northern Central Pacific via CZCS,’ Trans. Amer. Geophys. Union, 46, 1001.
Author information
Authors and Affiliations
Rights and permissions
Copyright information
© 1983 Springer-Verlag New York Inc.
About this chapter
Cite this chapter
Gordon, H.R., Morel, A.Y. (1983). References. In: Remote Assessment of Ocean Color for Interpretation of Satellite Visible Imagery. Lecture Notes on Coastal and Estuarine Studies, vol 4. Springer, New York, NY. https://doi.org/10.1007/978-1-4684-6280-7_9
Download citation
DOI: https://doi.org/10.1007/978-1-4684-6280-7_9
Publisher Name: Springer, New York, NY
Print ISBN: 978-0-387-90923-3
Online ISBN: 978-1-4684-6280-7
eBook Packages: Springer Book Archive