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Published online by Cambridge University Press: 05 January 2013
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- Light and Photosynthesis in Aquatic Ecosystems , pp. 539 - 625Publisher: Cambridge University PressPrint publication year: 2010
References
1999 Analysis of underwater radiance observations: apparent optical properties and analytic functions describing the angular radiance distributionJ. Geophys. Res 104 8015CrossRefGoogle Scholar
2005 Spectral backscattering coefficient in coastal watersInt. J. Remote Sens 26 331CrossRefGoogle Scholar
1997 Self-shading effect by radiance meters on upward radiance observed in coastal watersLimnol. Oceanogr 42 968CrossRefGoogle Scholar
2006 Daily and seasonal variations of optimum quantum yield and phenolic compounds in (Phaeophyta)Mar. Biol 148 459CrossRefGoogle Scholar
1984 Inorganic carbon source for photosynthesis in the seagrass (Ehrenb.) AschersPlant Physiol 76 776CrossRefGoogle ScholarPubMed
1988 Size and refractive index of individual marine particulates: a flow cytometric approachAppl. Opt 27 1270CrossRefGoogle Scholar
1978 Relationship of dissolved inorganic carbon to macrophyte photosynthesis in some Italian lakesLimnol. Oceanogr 23 912CrossRefGoogle Scholar
2000 Nutrient and temperature control of the contribution of picoplankton to phytoplankton biomass and productionLimnol. Oceanogr 45 591CrossRefGoogle Scholar
2005 The optical volume scattering function: temporal and vertical variability in the water column off the New Jersey coastLimnol. Oceanogr 50 787CrossRefGoogle Scholar
2002 Seasonal variations in ecophysiological patterns in macroalgae from an Arctic fjord. II. Pigment accumulation and biochemical defence systems against high light stressMarine Biol 140 1087Google Scholar
1987 Molecular weight of aquatic fulvic acids by vapor pressure osmometryGeochim. Cosmochim. Acta 51 2177CrossRefGoogle Scholar
1985 The Undulating Oceanographic Recorder Mark 2Mapping Strategies in Chemical Oceanography315ACS PublicationsCrossRefGoogle Scholar
1990 Optical oceanography: an assessment of a towed methodLight and Life in the Sea39CambridgeCambridge University PressGoogle Scholar
1981 Light-harvesting systems of brown algae and diatomsBiochim. Biophys. Acta 635 304CrossRefGoogle ScholarPubMed
1984 Novel phycoerythrins in marine Synechococcus sppPlant Physiol 75 732CrossRefGoogle ScholarPubMed
1995 A new method for measuring spectral absorption coefficients of marine particlesLimnol. Oceanogr 40 1526CrossRefGoogle Scholar
1981 The differential ability of aquatic plants to utilize the inorganic carbon supply in fresh watersNew Phytol 87 269CrossRefGoogle Scholar
2002 Daily variations in the optical properties of a small lakeFreshwater Biol 47 1051CrossRefGoogle Scholar
2006 Coastal eutrophication: recent developments in definitions and implications for monitoring strategiesJ. Plankton Res 28 621CrossRefGoogle Scholar
1969 Subsurface chlorophyll maximum in the Northeast Pacific OceanLimnol. Oceanogr 14 386CrossRefGoogle Scholar
1986 Light-harvesting pigment-protein complexes of algaeEncycl. Plant Physiol. (n.s.) 19 269Google Scholar
2004 Temporal variation of light availability in coastal benthic habitats: effects of clouds, turbidity, and tidesLimnol. Oceanogr 49 2201CrossRefGoogle Scholar
1999 A multiple scattering algorithm for atmospheric correction of remotely sensed ocean colour (MERIS instrument): principle and implementation for atmospheres carrying various aerosols including absorbing onesInt. J. Remote Sens 20 1875CrossRefGoogle Scholar
1980 Relationships between irradiance and photosynthesis for marine benthic green algae (Chlorophyta) of differing morphologiesJ. Exp. Mar. BioI. Ecol 43 183CrossRefGoogle Scholar
1998 Seasonal and interannual variability of surface photosynthetically available radiation in the Arabian SeaJ. Geophys. Res 103 7735CrossRefGoogle Scholar
1998 Bio-optical properties of the southwestern Ross SeaJ. Geophys. Res 103 21683CrossRefGoogle Scholar
2008 Primary production in the Southern Ocean, 1997–2006J. Geophys. Res 113 C08004CrossRefGoogle Scholar
1965 Ecological studies of photosynthesis and matter production of phytoplankton. 1. Seasonal changes in photosynthesis of natural phytoplanktonBiol. Mag. (Tokyo) 78 280CrossRefGoogle Scholar
1973 Remote sensing of chlorophyll and temperature in marine and fresh watersAstronaut. Acta 18 229Google Scholar
1991 Mussel beds: limiting or promoting phytoplankton?J. Exp. Mar. Biol. Ecol 148 215CrossRefGoogle Scholar
1980 Dependence of mean spectral extinction coefficient of phytoplankton on depth, water colour and speciesLimnol. Oceanogr 25 157CrossRefGoogle Scholar
1982 High frequency endogenous periodicities of chlorophyll synthesis in estuarine phytoplanktonLimnol. Oceanogr 27 348CrossRefGoogle Scholar
1954 Angular-dependence light scattering – a high resolution recording instrument for the angular range 0.05–140°J. Opt. Soc. Amer 44 833CrossRefGoogle Scholar
1974 The remote sensing of spectral radiance from below the ocean surfaceOptical Aspects of Oceanography317LondonAcademic PressGoogle Scholar
1980 Gulf of Mexico, ocean-colour surface-truth measurementsBoundary-layer Meteorol 18 269CrossRefGoogle Scholar
1977 Considerations in the design and evaluation of oceanographic transmissometersLight in the Sea104StroudsburyDowden Hutchinson RossGoogle Scholar
1981 The determination of the diffuse attenuation coefficient of sea water using the Coastal Zone Colour ScannerOceanography from Space239New YorkPlenumCrossRefGoogle Scholar
2007 aviris.jpl.nasa.gov/html/aviris.concept.html
2000 Utilization of HCO3− at high pH by the brown macroalgaLaminaria saccharina. Eur. J. Phycol 35 53CrossRefGoogle Scholar
2002 Light absorption by aquatic particles in the near-infrared spectral regionLimnol. Oceanogr 47 911CrossRefGoogle Scholar
2004 Variations in the mass-specific absorption coefficient of mineral particles suspended in waterLimnol. Oceanogr 49 756CrossRefGoogle Scholar
1996 Nitrogen- and irradiance-dependent variations of the maximum quantum yield of carbon fixation in eutrophic, mesotrophic and oligotrophic marine systemsDeep-Sea Res 43 1241CrossRefGoogle Scholar
2003 Light scattering properties of marine particles in coastal and open ocean waters as related to the particle mass concentrationLimnol. Oceanogr 48 843CrossRefGoogle Scholar
2003 Variations in the light absorption coefficients of phytoplankton, nonalgal particles, and dissolved organic matter in coastal waters around EuropeJ. Geophys. Res 108 C73211CrossRefGoogle Scholar
2004 Satellite evidence of hurricane-induced phytoplankton blooms in an oceanic desertJ. Geophys. Res 109 C03043CrossRefGoogle Scholar
1982 Photosynthesis and inorganic carbon usage by the marine cyanobacterium Synechococcus spPlant Physiol 70 517CrossRefGoogle ScholarPubMed
2002 Evolution and diversity of CO2 concentrating mechanisms in cyanobacteriaFunct. Plant Biol 29 161CrossRefGoogle Scholar
1980 The effect of tidal resuspension on the distribution of intertidal epipelic algae in an estuaryEstuar. Coast. Mar. Sci 10 165CrossRefGoogle Scholar
1987 Relation between photosynthetically available radiation and total insolation at the ocean surface under clear skiesLimnol. Oceanogr 32 1370CrossRefGoogle Scholar
1979 Quasi-inherent characteristics of the diffuse attenuation coefficient for irradianceSoc. Photo-opt. Instrum. Eng 208 60Google Scholar
1989 Remote sensing of primary production I. A comparison of empirical and semianalytical algorithmsDeep-Sea Res 36 281CrossRefGoogle Scholar
1989 Remote sensing of primary production II. A semi-analytical algorithm based on pigments, temperature and lightDeep-Sea Res 36 1201CrossRefGoogle Scholar
1992 The remote sensing of ocean primary productivity: use of a new data compilation to test satellite algorithmsJ. Geophys. Res 97 2279CrossRefGoogle Scholar
1991 Biological and optical properties of mesoscale coccolithophore blooms in the Gulf of MaineLimnol. Oceanogr 36 629CrossRefGoogle Scholar
1996 The 1991 coccolithophore bloom in the central North Atlantic. 2. Relating optics to coccolith concentrationLimnol. Oceanogr 41 1684CrossRefGoogle Scholar
1996 The 1991 coccolithophore bloom in the central North Atlantic. 1. Optical properties and factors affecting their distributionLimnol. Oceanogr 41 1669CrossRefGoogle Scholar
1974 Production equation in terms of chlorophyll concentration, quantum yield, and upper limit to productionLimnol. Oceanogr 19 1CrossRefGoogle Scholar
1974 A general theory of steady state phytoplankton growth in a nutrient-saturated mixed layerLimnol. Oceanogr 19 13CrossRefGoogle Scholar
1979 Quantitative description of steady state, nutrient-saturated algal growth, including adaptationLimnol. Oceanogr 24 76CrossRefGoogle Scholar
1984 The maximum quantum yield of phytoplankton photosynthesisin situ. J. Plankton Res 6 275CrossRefGoogle Scholar
2004 Analysis of simultaneous chlorophyll measurements by lidar fluorosensorInt. J. Remote Sens 25 2095CrossRefGoogle Scholar
1983 Influences of light and temperature on chlorophyll composition in submersed freshwater macrophytesAquat. Bot 15 249CrossRefGoogle Scholar
2002 Phytoplankton pigment and absorption characteristics along meridional transects in the Atlantic OceanDeep-Sea Res 47 637CrossRefGoogle Scholar
2007 Seasonal pigment patterns of surface phytoplankton in the subtropical southern hemisphereDeep-Sea Res 54 1687CrossRefGoogle Scholar
1996 Microphytobenthos production in the Gulf of Fos, French Mediterranean coastHydrobiologia 333 181CrossRefGoogle Scholar
1971 Principe d'une mesure directe dans l'eau de mer du coefficient d'absorption de la lumiereCah. Oceanogr 23 841Google Scholar
1967 Etude aux petits angles de l'indicatrice de diffusion de la lumiere par les eaux de merAnn. Geophys 23 109Google Scholar
1996 Ecophysiology of tropical rhodophytes. I. Microscale acclimation in pigmentationJ. Phycol 32 701CrossRefGoogle Scholar
1976 The concept of light intensity adaptation in marine phytoplankton: some experiments with Mar. Biol 37 3777CrossRefGoogle Scholar
2004 Limitations in the use of PAM fluorometry for measuring photosynthetic rates of macroalgae at high irradiancesEur. J. Phycol 39 1CrossRefGoogle Scholar
2002 Inorganic carbon ultilization in marine angiosperms (seagrasses)Funct. Plant Biol 29 349CrossRefGoogle Scholar
1983 Photosynthesis of Ulva sp. II. Utilization of CO2 and HCO3– when submergedJ. Exp. Mar. BioI. Ecol 70 99Google Scholar
1977 Carbon metabolism in seagrasses I. The utilization of exogenous inorganic carbon species in photosynthesisJ. Exp. Bot 28 1180CrossRefGoogle Scholar
1982 Photosynthetic carbon fixation pathways in Zostera marina and three Florida seagrassesAquat. Bot 13 141CrossRefGoogle Scholar
1997 A consumer's guide to phytoplankton primary productivity modelsLimnol. Oceanogr 42 1479CrossRefGoogle Scholar
1997 Photosynthetic rates derived from satellite-based chlorophyll concentrationLimnol. Oceanogr 42 1CrossRefGoogle Scholar
1981 An experimental investigation of inhibition of phytoplankton photosynthesis at lake surfacesNew Phytol 89 61CrossRefGoogle Scholar
2002 Colored dissolved organic matter and dissolved organic carbon exclusion from lake ice: implications for radiation transmission and carbon cyclingLimnol. Oceanogr 47 1283CrossRefGoogle Scholar
2006 Fluorescence measured using the WETStar fluorometer as a proxy for dissolved matter absorptionEstuar. Coast. Shelf Sci 67 441CrossRefGoogle Scholar
2002 Contribution of absorption and scattering to the attenuation of UV and photosynthetically available radiation in Lake BiwaLimnol. Oceanogr 47 95CrossRefGoogle Scholar
1989 Mode of action of the massively accumulated β-carotene of in protecting the alga against damage by excess irradiationPlant Physiol 91 1040CrossRefGoogle ScholarPubMed
1973 Complementary chromatic adaptation in a filamentous blue-green algaJ. Cell Biol 58 419CrossRefGoogle Scholar
1992 Effects of turbulence on the marine dinoflagellateGymnodinium nelsonii. J. Phycol 28 267CrossRefGoogle Scholar
1989 Productivity of the Ocean: Present and PastChichesterWiley
1998 Phytoplankton development and turbulent mixing in Lake Kinneret (1992–1996)J. Plankton Res 20 709CrossRefGoogle Scholar
1989 Photo adaptation and the ‘package’ effect in (Chlorophyceae)J. Phycol 25 70CrossRefGoogle Scholar
1994 Evaluation of bio-optical algorithms to remotely sense primary production from spaceJ. Geophys. Res 99 7979CrossRefGoogle Scholar
1882 Uber die Verteilung der Algen im Golfvon Neapel nebst einem Verzeichnis der bisher daselbst beobachten ArtenMitt. Zool. Sta Neopol 3 393Google Scholar
2007 Measurements and modeling of the volume scattering function in the coastal northern Adriatic SeaAppl. Opt 46 5189CrossRefGoogle ScholarPubMed
2000 Photochemical transformation of dissolved organic matter in lakesLimnol. Oceanogr 45 753CrossRefGoogle Scholar
1995 Influences of absorption and scattering on vertical changes in the average cosine of the underwater light fieldLimnol. Oceanogr 40 1347CrossRefGoogle Scholar
1990 Measurement of the light attenuation coefficient of water in Lake BaikalOceanology 30 756Google Scholar
2002 Acquisition of inorganic carbon by the marine haptophyte (Prymnesiophyceae)J. Phycol 38 914CrossRefGoogle Scholar
1990 Evidence for phytoplankton succession and chromatic adaptation in the Sargasso Sea during spring 1985Mar. Ecol. Prog. Ser 60 113CrossRefGoogle Scholar
1992 Bio-optical models and the problems of scalingPrimary Productivity and Biogeochemical Cycles in the Sea175New YorkPlenumCrossRefGoogle Scholar
1987 Oceanic primary production estimates from measurements of spectral irradiance and pigment concentrationsGlobal Biogeochem. Cycles 1 171CrossRefGoogle Scholar
1984 Temporal and spatial variability of phytoplankton in a subtropical ecosystemLimnol. Oceanogr 29 527CrossRefGoogle Scholar
2007 Benthic photosynthesis in submerged Wadden Sea intertidal flatsEstuar. Coast. Shelf Sci 71 704CrossRefGoogle Scholar
2003 An algorithm for the retrieval of suspended sediment concentrations in the Irish Sea from SeaWiFS ocean colour satellite imageryJ. Remote Sens 24 3791CrossRefGoogle Scholar
2005 Estimating suspended sediment concentrations from ocean colour measurements in moderately turbid waters: the impact of variable particle scattering propertiesRemote Sens. Environ 94 373CrossRefGoogle Scholar
2008 Spectral absorption properties of dissolved and particulate matter in Lake ErieRemote Sens. Environ 112 1702CrossRefGoogle Scholar
1974 Primary productivity of phytoplankton in Loch Leven, KinrossProc. Roy. Soc. Edin. (B) 74 157Google Scholar
1989 Phagotrophic sustenance of a metalimnetic phytoplankton peakLimnol. Oceanogr 34 155CrossRefGoogle Scholar
1973 Variations in benthic boundary layer phenomena: nepheloid layer in the North American basinSuspended Solids in Water227New YorkPlenumGoogle Scholar
1991 Spatial and temporal variability of global surface solar irradianceJ. Geophys. Res 96 16839CrossRefGoogle Scholar
2002 The influence of microphytobenthos on the Northern Adriatic ecosystem: a modelling studyEstuar. Coast. Shelf Sci 55 109CrossRefGoogle Scholar
1998 Growth and recruitment in as related to average irradiance in the water columnAquat. Bot 61 181CrossRefGoogle Scholar
1978 Observations on the diel migration of marine dinoflagellates off the Baja California coastMar. Biol 46 41CrossRefGoogle Scholar
1980 Blue-light-induced cortical fibre reticulation concomitant with chloroplast aggregation in the algaVaucheria sessilis. Planta 147 355Google Scholar
2009 Bio-optical variability of the absorption and scattering properties of the Queensland inshore and reef watersJ. Geophys. Res 114 C05003CrossRefGoogle Scholar
1993 Optical absorption spectra of waters from the Orinoco River outflow: terrestrial input of colored organic matter to the CaribbeanJ. Geophys. Res 98 2271CrossRefGoogle Scholar
1977 Comparative photosynthesis of sun and shade plantsAnn. Rev. Plant Physiol 28 355CrossRefGoogle Scholar
1994 Inorganic carbon source for photosynthesis in the aquatic macrophytes and Aquat. Bot 48 109CrossRefGoogle Scholar
1975 Phycobiliproteins and complementary chromatic adaptationAnn. Rev. Plant Physiol 26 369CrossRefGoogle Scholar
1986 Determination of the attenuation coefficients of visible and ultraviolet radiation in heavy waterAppl. Opt 25 877CrossRefGoogle ScholarPubMed
1976 The design and evaluation of a measurement system for photosynthetically active quantum scalar irradianceLimnol. Oceanogr 21 326CrossRefGoogle Scholar
1990 A modern spectral transmissometerProc. Soc. Photo-Opt. Instrum. Eng., Ocean Optics X 1302 373CrossRefGoogle Scholar
1980 Airborne remote sensing of sea surface chlorophyll and temperature along the outer British Columbia coastProc. 6th Can. Symp. Rem. Sens541Google Scholar
2002 Biomass, photosynthesis and growth of in a high-arctic fjord, NE GreenlandMar. Biol 141 11Google Scholar
2001 Relationship of light scattering at an angle in the backward direction to the backscattering coefficientAppl. Opt 40 5503CrossRefGoogle ScholarPubMed
2001 Spatial and temporal variability of absorption by dissolved material at a continental shelfJ. Geophys. Res 106 9499CrossRefGoogle Scholar
2009 Acceptance angle effects on the beam attenuation in the oceanOptics Express 17 1536CrossRefGoogle ScholarPubMed
1986 A discussion of the adaptations for carbon acquisition in relation to the growth strategy of aquatic isoetidsAquat. Bot 26 259CrossRefGoogle Scholar
2006 Atmospherically-promoted photosynthetic activity in a well-mixed ecosystem: significance of wet deposition events of nitrogen compoundsEstuar. Coast. Shelf Sci 69 449CrossRefGoogle Scholar
2005 Dependence of light-saturated photosynthesis on temperature and community structureDeep-Sea Res 52 1284CrossRefGoogle Scholar
1996 Inherent optical properties of the Irish Sea determined from underwater irradiance measurementsEstuar. Coast. Shelf Sci 43 433CrossRefGoogle Scholar
1998 The distribution of fine suspended sediments in the surface waters of the Irish Sea and its relation to tidal stirringInt. J. Remote Sens 19 2789CrossRefGoogle Scholar
2000 Optical properties of a region of freshwater influence (the Clyde Sea)Estuar. Coast. Shelf Sci 50 717CrossRefGoogle Scholar
1987 Aquatic plant photosynthesis: strategies that enhance carbon gainPlant Life in Aquatic and Amphibious Habitats79OxfordBlackwellGoogle Scholar
2002 C4 mechanisms in aquatic angiosperms: comparisons with terrestrial C4 systemsFunct. Plant Biol 29 379CrossRefGoogle Scholar
1988 Optical properties, nutrients and phytoplankton of freshwater coastal dune lakes in south-east QueenslandAust J. Mar. Freshwater Res 39 805CrossRefGoogle Scholar
1986 The spectral distribution and attenuation of underwater irradiance in Tasmanian inland watersFreshwater Biol 16 313CrossRefGoogle Scholar
2000 A mesoscale phytoplankton bloom in the polar Southern Ocean stimulated by iron fertilizationNature 407 695CrossRefGoogle ScholarPubMed
1982 A comparative analysis of nutrients and other factors influencing estuarine phytoplankton productivityEstuarine ComparisonsNew YorkAcademicGoogle Scholar
1931 Hvalradets Skrift 1 1
1984 Seasonal dynamics of suspended-sediment plumes from the Tana and Sabaki Rivers, Kenya: analysis of Landsat imageryRemote Sens. Environ 16 165CrossRefGoogle Scholar
1976 Changing lobster abundance and the destruction of kelp beds by sea urchinsMar. Biol 34 137CrossRefGoogle Scholar
2006 Spaceborne observations of ocean glint reflectance and modeling of wave slope distributionsJ. Geophys. Res 111 C06005CrossRefGoogle Scholar
1995 Variability in the chlorophyll-specific absorption coefficients of natural phytoplankton: analysis and parameterizationJ. Geophys. Res 100 13321CrossRefGoogle Scholar
1986 Light attenuation and scattering by phytoplanktonic cells: a theoretical modelAppl. Opt 25 571CrossRefGoogle Scholar
1981 Absorption by dissolved organic matter of the sea (yellow substance) in the UV and visible domainsLimnol. Oceanogr 26 43CrossRefGoogle Scholar
1995 In situ methods for measuring the inherent optical properties of ocean watersLimnol. Oceanogr 40 393CrossRefGoogle Scholar
1990 Spectral absorption coefficients of living phytoplankton and non algal biogenous matter: a comparison between the Peru upwelling and the Sargasso SeaLimnol. Oceanogr 35 562CrossRefGoogle Scholar
1985 Airborne laser fluorosensor survey of the Columbia and Snake rivers: simultaneous measurements of chlorophyll, dissolved organics and optical attenuationInt. J. Remote Sens 6 1707CrossRefGoogle Scholar
1981 Use of water Raman emission to correct airborne laser fluorosensor data for effects of water optical attenuationAppl. Opt 20 2889CrossRefGoogle ScholarPubMed
1976 Circadian rhythms of chloroplast orientation and photosynthetic capacity inUlva. Plant Physiol 58 22CrossRefGoogle Scholar
2001 Determination of chlorophyll changes in Lake Garda using an image-based radiative transfer code for Landsat TM imagesInt. J. Remote Sens 22 487CrossRefGoogle Scholar
1993 Modeling the seasonality of submarine light and primary production in the Arabian SeaMar. Ecol. Prog. Ser 101 209CrossRefGoogle Scholar
1959 The effect of wavelength and intensity of light on the proportion of pigments inPorphyridium cruentum. Amer. J. Bot 46 433CrossRefGoogle Scholar
1997 Remote sensing of coccolithophore blooms in the western South Atlantic OceanRemote Sens. Environ 60 83CrossRefGoogle Scholar
1990 The radiometric determination of total pigment and seston and its potential use in shelf seasEstuar. Coast. Shelf Sci 31 1CrossRefGoogle Scholar
1985 Three photosynthetic antenna porphyrins in a primitive green algaBiochim. Biophys. Acta 807 143CrossRefGoogle Scholar
1987 Functional organization of chlorophyll a and carotenoids in the algaNannochloropsis salina. Plant Physiol 83 434CrossRefGoogle ScholarPubMed
1968 The effect of growth environment on the physiology of algae: light intensityJ. Phycol 4 38CrossRefGoogle ScholarPubMed
1967 Emission spectra of chlorophyll-a in polar and non-polar solventsJ. Chem. Phys 46 334CrossRefGoogle Scholar
1992 Estimating the impact of fungal parasites on phytoplankton populationsLimnol. Oceanogr 37 252CrossRefGoogle Scholar
1981 The photo regulated expression of multiple phycocyanin genesEur. J. Biochem 119 425CrossRefGoogle Scholar
1980 Estimating the productivity of lakes and reservoirsThe Functioning of Freshwater EcosystemsCambridgeCambridge University PressGoogle Scholar
1993 Isolation and characterization of a Photosystem I-associated antenna (LHC I) and a Photosystem I-core complex from the chlorophyll c-containing alga J. Photochem. Photobiol. B 20 87CrossRefGoogle Scholar
1968 Properties of the crustacyanins and the yellow lobster shell pigmentsBiochemistry 7 844CrossRefGoogle Scholar
1974 ERTS-l digital classifications of the water regimes comprising Lake OntarioProc. 2nd Canad. Symp. Rem. Sens627Google Scholar
1974 The detection of suspended solids and chlorophyll a utilizing multispectral ERTS-I dataProc. 2nd Canad. Symp. Rem. Sens551Google Scholar
1988 Particulate concentrations in Lake St Clair as recorded by a shipborne multispectral optical monitoring systemRemote Sens. Environ 25 201CrossRefGoogle Scholar
1979 Determination of inherent optical properties of Lake Ontario coastal watersAppl. Opt 18 3926CrossRefGoogle ScholarPubMed
1991 Effects of whole-lake base addition on the optical properties of three clearwater acidic lakesCan. J. Fish. Aquat. Sci 48 1030CrossRefGoogle Scholar
1987 Chlorophyll-protein composition of the thylakoid membrane from , a prokaryote containing chlorophyllb. Eur. J. Biochem 168 295CrossRefGoogle ScholarPubMed
1963 Diatoms of Antarctic sea ice as agents of primary productionNature 199 1255CrossRefGoogle Scholar
2001 CO2 and HCO3− uptake in marine diatoms acclimated to different CO2 concentrationsLimnol. Oceanogr 46 1378CrossRefGoogle Scholar
1972 The activity of ribulose diphosphate carboxylase in extracts of in the day and night phases of the circadian rhythm of photosynthesisPlant Physiol 50 446CrossRefGoogle ScholarPubMed
1978 Energy distribution in the photochemical apparatus of photosynthesisAnn. Rev. Plant Physiol 29 345CrossRefGoogle Scholar
1975 Fluorescence quenching in photosystem II of chloroplastsBiochim. Biophys. Acta 376 116CrossRefGoogle ScholarPubMed
1999 The role of benthic microalgae in neritic ecosystemsOceanogr. Mar. Biol. Annu. Rev 37 47Google Scholar
1972 Research on red algal pigments. 2. Pigments of (Duby) Schotter (Rhodophyceae, Gigartinales) and their seasonal variations at different light intensitiesPhycologia 11 141CrossRefGoogle Scholar
1973 Research on red algal pigments. 5. The effect of white and green light on the rate of photosynthesis and its relationship to pigment components inGracilaria compressa. Phycologia 12 195CrossRefGoogle Scholar
1954 Observations sur les mouvements des diatomees à la surface des sediments marins de la zone intercotidaleVie milieu 5 242Google Scholar
1986 The loss of seagrass in Cockburn Sound, Western Australia II. Possible causes of seagrass declineAquat. Bot 24 269CrossRefGoogle Scholar
1987 Factors influencing the magnitude of phytoplankton primary production in a high-energy surf zoneEstuar. Coast. Shelf Sci 24 741CrossRefGoogle Scholar
1983 Basis for spectral curvature algorithms in remote sensing of chlorophyllAppl. Opt 22 1084CrossRefGoogle ScholarPubMed
1988 Role of satellites in estimating primary productivity on the northwest Atlantic continental shelfCont. Shelf Res 8 179CrossRefGoogle Scholar
2006 Comparative study on microphytobenthic pigments of muddy and sandy intertidal sediments of the Tagus estuaryEstuar. Coast. Shelf Sci 66 225CrossRefGoogle Scholar
1999 Semianalytic Moderate-Resolution Imaging Spectrometer algorithms for chlorophyll a and absorption with bio-optical domains based on nitrate-depletion temperaturesJ. Geophys. Res 104 5403CrossRefGoogle Scholar
1991 Reflectance model for quantifying chlorophyll in the presence of productivity degradation productsJ. Geophys. Res 96 20599CrossRefGoogle Scholar
1989 Marine humic and fulvic acids: their effects on remote sensing of ocean chlorophyllLimnol. Oceanogr 34 68CrossRefGoogle Scholar
1972 A technique for the estimation of indices of refraction of marine phytoplanktonLimnol. Oceanogr 17 33CrossRefGoogle Scholar
1985 Subchloroplast fractions from the brown alga : phosphatidylglycerol contentsPlant Cell Physiol 26 131Google Scholar
1988 Polypeptide composition of light-harvesting complexes from some brown algae and diatomsFEBS Lett 229 11CrossRefGoogle Scholar
1991 Major role of the cyanobacterium in nutrients cycling in the North Atlantic OceanScience 254 1356CrossRefGoogle Scholar
1985 Relationship between primary production and irradiance in coral reef algal communitiesLimnol. Oceanogr 30 784CrossRefGoogle Scholar
1998 Impact of dissolved organic carbon, phosphorus, and grazing on phytoplankton biomass and production in experimental lakesLimnol. Oceanogr 43 73CrossRefGoogle Scholar
2008 Photosynthetic utilization of bicarbonate in is reduced by inhibitors of mitochondrial ATPase and electron transportPlant Physiol 147 879CrossRefGoogle ScholarPubMed
2000 Induction of a C4-like mechanism of CO2 fixation in , a submersed aquatic speciesPlant Physiol 123 1611CrossRefGoogle Scholar
1999 Differential response of equatorial Pacific phytoplankton to iron fertilizationLimnol. Oceanogr 44 237CrossRefGoogle Scholar
1992 Estimation of photosynthetic rate from measurements of natural fluorescence: analysis of the effects of light and temperatureDeep-Sea Res 39 1695CrossRefGoogle Scholar
1990 Evidence for a simple relationship between natural fluorescence, photosynthesis and chlorophyll in the seaDeep-Sea Res 37 951CrossRefGoogle Scholar
2006 Variability of the relationship between the particulate backscattering coefficient and the volume scattering function measured at fixed anglesJ. Geophys. Res 111CrossRefGoogle Scholar
2005 Optical properties of the particles in the Crimea coastal waters (Black Sea)J. Geophys. Res 110 C11020CrossRefGoogle Scholar
2006 Spectral variation of the volume scattering function measured over the full range of scattering angles in a coastal environmentAppl. Opt 45 3605CrossRefGoogle Scholar
1987 Oceanic phytoplankton, atmospheric sulphur, cloud albedo and climateNature 326 655CrossRefGoogle Scholar
1988 An improved dark-object subtraction technique for atmospheric scattering of multispectral dataRemote Sens. Environ 24 459CrossRefGoogle Scholar
1996 Image-based atmospheric corrections – revisited and improvedPhotogramm. Eng. Remote Sens 62 1025Google Scholar
1996 Photosynthesis and respiration of phaeophycean-dominated macroalgal communities in summer and winterAquat. Bot 55 159CrossRefGoogle Scholar
1986 The individual cell in phytoplankton ecology: cell cycles and applications of flow cytometryPhotosynthetic picoplankton343Can. Bull. Fish. Aquat. Sci 214Google Scholar
1992 nov. gen. nov. sp.: an oxytrophic marine prokaryote containing divinyl chlorophyll and Arch. Microbiol 157 297CrossRefGoogle Scholar
1991 What controls phytoplankton production in nutrient-rich areas of the open sea?Limnol. Oceanogr. (special issue) 36
1988 A novel free-living prochlorophyte abundant in the oceanic euphotic zoneNature 334 340CrossRefGoogle Scholar
2001 Photosystem I: function and physiologyAnn. Rev. Plant Physiol. Plant Mol. Biol 52 593CrossRefGoogle ScholarPubMed
2002 Uptake of inorganic carbon by (Chlorophyta) from the Baltic SeaJ. Phycol 38 493CrossRefGoogle Scholar
1993 Photoprotection and photoinhibitory damageMolecular Processes of Photosynthesis. Adv. Molec. Cell BioI., Vol. 7Greenwich, CTJAI PressGoogle Scholar
1985 Isolation and characterization of a siphonaxanthin-chlorophyll protein complex of Photosysytem I from a species (Siphonales)Biochim. Biophys. Acta 806 154CrossRefGoogle Scholar
2008 Microphytobenthic primary production as 14C uptake in sublittoral sediments of the Gulf of Trieste (northern Adriatic Sea): methodological aspects and data analysesEstuar. Coast. Shelf Sci 77 113CrossRefGoogle Scholar
1939 The utilization of solar energy by aquatic organismsProblems of Lake Biology27American Association for the Advancement of ScienceGoogle Scholar
1970 Spectra of back scattered light from the sea obtained from aircraft as a measure of chlorophyll concentrationScience 167 1119CrossRefGoogle Scholar
1939 Laboratory analysis of the selective absorption of light by sea waterJ. Opt. Soc. Am 29 43CrossRefGoogle Scholar
2005 Toward a taxon-specific parameterization of bio-optical models of primary production: a case study in the North AtlanticJ. Geophys. Res 110 C07512CrossRefGoogle Scholar
1995 Specific phytoplankton biomasses and their relation to primary production in the tropical North AtlanticDeep-Sea Res 42 1475CrossRefGoogle Scholar
1997 Sources of variability in the column photosynthetic cross section for Antarctic coastal watersJ. Geophys. Res 102 25047CrossRefGoogle Scholar
1980 Photosynthesis: Physical Mechanisms and Chemical PatternsCambridgeCambridge University PressGoogle Scholar
2004 Properties of light absorption in a highly coloured estuarine system in south-east Australia which is prone to blooms of the toxic dinoflagellateGymnodinium catenatum. Estuar. Coast. Shelf Sci 60 101CrossRefGoogle Scholar
2001 Optical properties of waters in the Australasian sector of the Southern OceanJ. Geophys. Res 106 31611CrossRefGoogle Scholar
1996 Photosynthetic response of the giant kelp (Phaeophyceae) to ultraviolet radiationJ. Phycol 32 614CrossRefGoogle Scholar
1989 Maximal yield of photosynthesis in the northwestern Sargasso SeaJ. Mar. Res 47 869CrossRefGoogle Scholar
1993 Quantifying absorption by aquatic particles: a multiple scattering correction for glass-fiber filtersLimnol. Oceanogr 38 1321CrossRefGoogle Scholar
1987 Turbidity as a control on phytoplankton biomass and productivity in estuariesContinental Shelf Res 7 1367CrossRefGoogle Scholar
1991 Tidal stirring and phytoplankton bloom dynamics in an estuaryJ. Mar. Res 49 203CrossRefGoogle Scholar
1983 River discharge controls phytoplankton dynamics in the Northern San Francisco Bay estuaryEstuar. Coast. Shelf Sci 16 415CrossRefGoogle Scholar
1996 A massive phytoplankton bloom induced by an ecosystem-scale iron fertilization experiment in the equatorial Pacific OceanNature 383 495CrossRefGoogle ScholarPubMed
1988 Effect of light history on the ultrastructure and physiology of (Dinophyceae)J. Phycol 24 67CrossRefGoogle Scholar
1984 Significance of biomass and light availability to phytoplankton productivity in San Francisco BayMar. Ecol. Prog. Ser 17 15CrossRefGoogle Scholar
1987 An empirical model for estimating phytoplankton productivity in estuariesMar. Ecol. Prog. Ser 36 299CrossRefGoogle Scholar
1992 Can phytoplankton maintain a positive carbon balance in a turbid, freshwater, tidal estuary?Limnol. Oceanogr 37 1608CrossRefGoogle Scholar
1987 Primary production in a turbid estuary, the Ems-Dollard: field and model studiesContinental Shelf Res 7 1405CrossRefGoogle Scholar
1983 Physiological characteristics of photosynthesis in : evidence for bicarbonate transport in a unicellular red algaJ. Phycol 19 216CrossRefGoogle Scholar
2002 The diversity of inorganic carbon acquisition mechanisms in eukaryotic microalgaeFunct. Plant Biol 29 261CrossRefGoogle Scholar
2006 Photosynthetic performance, light absorption, and pigment composition of (Laminariales), Phaeophyceae) blades from different depthsJ. Phycol 42 1225CrossRefGoogle Scholar
1990 Photoadaptation, growth and production of bottom ice algae in the AntarcticJ. Phycol 26 399CrossRefGoogle Scholar
1995 Dynamics of a lytic virus infecting the photosynthetic marine picoflagellateMicromonas pusilla. Limnol. Oceanogr 40 730CrossRefGoogle Scholar
1954 Measurement of the roughness of the sea surface from photographs of the sun's glitterJ. Opt. Soc. Amer 44 838CrossRefGoogle Scholar
1981 Studies on the mechanism of photoinhibition in higher plantsPlant Physiol 67 1161CrossRefGoogle ScholarPubMed
1988 The molecular mechanism of photoinhibition facts and fictionAust. J. Plant Physiol 15 27CrossRefGoogle Scholar
1982 The deep chlorophyll maximum: comparing vertical profiles of chlorophyll aCan. J. Fish. Aquat. Sci 39 791CrossRefGoogle Scholar
1981 Effects of nitrate on the diurnal vertical migration, carbon to nitrogen ratio, and the photosynthetic capacity of the dinoflagellateGymnodinium splendens. Mar. Biol 62 81CrossRefGoogle Scholar
1992 Photosynthetic characteristics and estimated growth rates indicate grazing is the proximate control of primary production in the equatorial PacificJ. Geophys. Res 97 639CrossRefGoogle Scholar
2003 Light harvesting and the package effect in the seagrasses Banks ex König and L.: optical constraints on photoacclimationAquat. Bot 75 261CrossRefGoogle Scholar
1986 Chlorophyll-protein complexes from and mutants deficient in chlorophyll bPlant Physiol 80 223CrossRefGoogle ScholarPubMed
1988 The flow of energy in marine ecosystems, with special reference to the continental shelfContinental Shelves203AmsterdamElsevierGoogle Scholar
2003 Bio-optical properties in waters influenced by the Mississippi River during low flow conditionsRemote Sens. Environ 84 538CrossRefGoogle Scholar
2006 Bio-optical properties and ocean color algorithms for coastal waters influenced by the Mississippi River during a cold frontAppl. Opt 45 7410CrossRefGoogle ScholarPubMed
1999 Determining optical absorption of colored dissolved organic matter in seawater with a liquid capillary waveguideLimnol. Oceanogr 44 1142CrossRefGoogle Scholar
1986 Temperature and light: the determining factors in maximum depth distribution of aquatic macrophytes in Ontario, CanadaHydrobiologia 133 73CrossRefGoogle Scholar
2006 Temporal variability in phytoplankton pigments, picoplankton and coccolithophores along a transect through the North Atlantic and tropical southwestern PacificDeep-Sea Res 53 689CrossRefGoogle Scholar
2005 SeaWiFS ocean colour chlorophyll algorithms for the southern Baltic SeaInt. J. Remote Sens 26 247CrossRefGoogle Scholar
2004 Source of inorganic carbon for photosynthesis in two marine dinoflagellatesJ. Phycol 40 285CrossRefGoogle Scholar
1994 Effects of UV-B irradiation on growth and survival of Antarctic marine diatomsMar. Biol 119 507CrossRefGoogle Scholar
1987 Optical properties of the Waikato River, New ZealandMitt. Geol.-Paläont. Inst. Univ. Hamburg, SCOPE/ UNEP Sonderbd 64 443Google Scholar
1992 Yellow substance in coastal and marine waters round the South Island, New ZealandN. Z. J. Mar. Freshwater Res 26 311CrossRefGoogle Scholar
1986 Optical properties of some freshwater phytoplanktonic algaeHydrobiologia 133 165CrossRefGoogle Scholar
1987 Absorption of light by yellow substance in freshwater lakesLimnol. Oceanogr 32 416CrossRefGoogle Scholar
1988 Estimates of optical properties of water from Secchi disk depthsWater Res. Bull 24 1329CrossRefGoogle Scholar
1984 Optical characterization of natural waters by PAR measurement under changeable light conditionsN. Z. J. Mar. Freshwater Res 18 455CrossRefGoogle Scholar
2003 Colour and Clarity of Natural Waters: Science and Management of Optical Water QualityBlackburn PressNew JerseyGoogle Scholar
1988 Lake water colour: comparison of direct observations with underwater spectral irradianceWater Res. Bull 24 11CrossRefGoogle Scholar
1981 Seasonal photosynthetic and respiratory responses of the intertidal red alga, Harvey (Rhodophyta, Ceramiales) from a mangrove swamp and a salt marshPhycologia 20 165CrossRefGoogle Scholar
1997 Reducing the effects of fouling on chlorophyll estimates derived from long-term deployments of optical instrumentsJ. Geophys. Res 102 5851CrossRefGoogle Scholar
1974 Production and analysis of a humic-acid-like exudate from the aquatic fungusAureobasidium pullulans. J. Amer. Water Works Ass 66 484CrossRefGoogle Scholar
2005 Synthesis of iron fertilization experiments: from the Iron Age in the Age of EnlightenmentJ. Geophys. Res 110 C09516CrossRefGoogle Scholar
1992 Contribution of resuspended microphytobenthos to total phytoplankton and its possible role for grazersNetherlands J. Sea Res 30 91CrossRefGoogle Scholar
2007 How ambiguous is the inverse problem of ocean color in coastal waters?J. Geophys. Res 112 C03004CrossRefGoogle Scholar
1968 Metabolic fractionation of carbon isotopes in marine plankton – I. Temperature and respiration experimentsDeep-Sea Res 15 1Google Scholar
1996 Seasonal seawater optical properties of the U.S. Middle Atlantic BightJ. Geophys. Res 101 22727CrossRefGoogle Scholar
1993 Detection of optical water quality parameters for eutrophic waters by high resolution remote sensingAmsterdamVrije UniversiteitGoogle Scholar
2005 Retrospective seagrass change detection in a shallow coastal tidal lakeRemote Sens. Environ 97 415CrossRefGoogle Scholar
1991 Quantitative modelling of inland water quality for high-resolution MSS systemsIEEE Trans. Geosci. Remote Sens 29 89CrossRefGoogle Scholar
2004 Influence of the Amazon River on the surface optical properties of the western tropical North Atlantic OceanJ. Geophys. Res 109 C11001CrossRefGoogle Scholar
1981 Mélange vertical et capacité photosynthétique du phytoplancton estuarien (estuaire du Saint Laurent)Mar. Biol 64 243Google Scholar
1992 Photoprotection and other responses of plants to high light stressAnn. Rev. Plant Physiol. Plant Mol. Biol 43 599CrossRefGoogle Scholar
2004 SIMBAD: a field radiometer for satellite ocean-color validationAppl. Opt 43 4055CrossRefGoogle ScholarPubMed
1983 Modeling of the atmospheric effects and its application to the remote sensing of ocean colorAppl. Opt 22 3751CrossRefGoogle ScholarPubMed
2000 Application of the Raman scattering coefficient of water to calculations in marine opticsAppl. Opt 39 1893CrossRefGoogle ScholarPubMed
1978 Optics of turbid estuarine water: approximations and applicationsWater Res 12 1059CrossRefGoogle Scholar
1973 Action spectra for chromatic adaptation inTolypothrix tenuis. Plant Physiol 51 382CrossRefGoogle ScholarPubMed
1994 Bio-optical and physical variability in the subarctic North Atlantic Ocean during the spring of 1989J. Geophys. Res 99 22541CrossRefGoogle Scholar
2009 Parameterization of light absorption by components of seawater in optically complex coastal waters of the Crimea PeninsulaAppl. Opt 48 1249CrossRefGoogle ScholarPubMed
1992 A modified fiber-optic light microprobe to measure spherically integrated photosynthetic photon flux density: characterization of periphyton photosynthesis-irradiance patternsLimnol. Oceanogr 37 871CrossRefGoogle Scholar
1976 Pigment composition and photosynthetic CO2 fixation of andPorphyridium aerugineum. Biochem. Physiol. Pflanzen 170 103CrossRefGoogle Scholar
1979 Optical properties, colour and turbidityNeusiedlersee: The Limnology of a Shallow Lake in Central Europe15The HagueJunkGoogle Scholar
2009 Monitoring transparency in inland waters using multispectral imagesInt. J. Remote Sens 30 1567CrossRefGoogle Scholar
2007 Estimation of light penetration, and horizontal and vertical visibility in oceanic and coastal waters from surface reflectanceJ. Geophys. Res 112 C06003CrossRefGoogle Scholar
2002 Spectral signature of highly turbid waters: application with SPOT data to quantify suspended particulate matter concentrationsRemote Sens. Environ 81 149CrossRefGoogle Scholar
1978 Factors affecting photosynthesis and its seasonal variation in the seagrasses (Ucria) Aschers., and (L.) Delile in the MediterraneanJ. Exp. Mar. Biol. Ecol 31 173CrossRefGoogle Scholar
1979 Physiological aspects of primary production in seagrassesAquat. Bot 7 139CrossRefGoogle Scholar
1981 Chromatic adaptation of photosynthesis in benthic marine algae: an examination of its ecological significance using a theoretical modelLimnol. Oceanogr 26 271CrossRefGoogle Scholar
1986 Pigment composition and photosynthetic action spectra of sporophytes of Laminaria (Phaeophyta) grown in different light qualities and irradiancesBr. Phycol. J 21 199CrossRefGoogle Scholar
1990 Light harvesting and pigment composition in marine phytoplankton and macro algaeLight and Life in the Sea89CambridgeCambridge University PressGoogle Scholar
1998 Partitioning particulate light absorption: a budget for a Mediterranean bayLimnol. Oceanogr 43 236CrossRefGoogle Scholar
1976 Light utilization efficiencies of phytoplankton in Lake Kinneret (Sea of Galilee)Limnol. Oceanogr 21 226CrossRefGoogle Scholar
1979 Seasonal changes in the spectral composition of downwelling irradiance in Lake Kinneret (Israel)Limnol. Oceanogr 24 652CrossRefGoogle Scholar
1981 Light utilization by phytoplankton in Lake Kinneret (Israel)Limnol. Oceanogr 26 660CrossRefGoogle Scholar
1967 Uptake of new and regenerated forms of nitrogen in primary productivityLimnol. Oceanogr 12 196CrossRefGoogle Scholar
1991 Low specific nitrate uptake rate: a common feature of high-nutrient low-chlorophyll marine ecosystemsLimnol. Oceanogr 36 1678CrossRefGoogle Scholar
1998 Ultraviolet radiation-absorbing mycosporine-like amino acids in coral reef organisms: a biochemical and environmental perspectiveJ. Phycol 34 418CrossRefGoogle Scholar
1988 Photosynthetic performance of measured in the Alaskan High ArcticMar. Biol 98 277CrossRefGoogle Scholar
2003 Depth-related variability in the photobiology of two populations of and Mar. Biol 142 1219CrossRefGoogle Scholar
1975 Seasonal studies on the relative importance of different size fractions of phytoplankton in Narragansett Bay (U.S.A.)Mar. Biol 32 271CrossRefGoogle Scholar
1956 The flattening of the absorption spectrum of suspensions as compared to that of solutionsBiochim. Biophys. Acta 19 1CrossRefGoogle ScholarPubMed
1987 Remote sensing of phytoplankton. An attempt from the Landsat Thematic MapperInt. J. Remote Sens 8 1563CrossRefGoogle Scholar
1987 Aspects of the underwater light field of eight central New York lakesWater Res. Bull 23 1193CrossRefGoogle Scholar
1988 A simple technique for estimating absorption and scattering coefficientsWater Res. Bull 24 397CrossRefGoogle Scholar
1984 Scattering and absorption of light in Onondaga LakeJ. Environ. Eng 110 1134CrossRefGoogle Scholar
2000 Algal carotenoids. Part 64. Structure and chemistry of 4-keto-19′-hexanoyloxyfucoxanthin with a novel carotenoid end groupJ. Chem. Soc., Perkin Trans 1 1223CrossRefGoogle Scholar
1960 Menge und Verhältnis der PigmenteEncyclopaedia of Plant Physiology444BerlinSpringer-VerlagGoogle Scholar
2004 Optical properties of melting landfast sea ice and underlying seawater in Santala Bay, FinlandJ. Geophys. Res 109 C09003CrossRefGoogle Scholar
2008 Bio-optical and structural properties inferred from irradiance measurements within the bottommost layers in an Arctic landfast sea ice coverJ. Geophys. Res 113CrossRefGoogle Scholar
2005 Spatial variations in phytoplankton pigment ratios, optical properties, and environmental gradients in Oregon coast surface watersJ. Geophys. Res 110CrossRefGoogle Scholar
2008 Sea urchin overgrazing of seagrasses: a review of current knowledge on causes, consequences and managementEstuar. Coast. Shelf Sci 79 569CrossRefGoogle Scholar
1985 Photoinhibition of temperate lake phytoplankton by near-surface irradiance: evidence from vertical profiles and field experimentsJ. Phycol 21 419CrossRefGoogle Scholar
2002 N uptake conditions during summer in the Subantarctic and Polar Frontal Zones of the Australian sector of the Southern OceanJ. Geophys. Res 107 C113182CrossRefGoogle Scholar
1958 Yield of photosynthesis from simultaneous illumination with pairs of wavelengthsScience 127 1059Google Scholar
1942 The photosynthetic efficiency of phycocyanin in and the problem of carotenoid participation in photosynthesisJ. Gen. Physiol 25 579CrossRefGoogle ScholarPubMed
1943 The dependence of the quantum yield of photosynthesis on wave length of lightAmer. J. Bot 30 165CrossRefGoogle Scholar
1884 Untersuchungen uber die quantitativen Beziehungen zwischen Absorption des Lichtes und Assimilation in PflanzenzellenBot. Zeit 42 81Google Scholar
1902 Ueber experimentelle Erzeugung zweckmässiger Aenderungen der Färbung pflanzlicher Chromophylle durch farbiges LichtArch. Anat. Physiol. Lpz.:Physiol. Abt333Google Scholar
2002 Variations in the photosynthetic performance along the leaves of the tropical seagrassThalassia testudinum. Mar. Biol 140 891Google Scholar
1968 An incubation method for estimating the carbon content of phytoplankton in natural samplesLimnol. Oceanogr 13 547CrossRefGoogle Scholar
1979 Particulate organic matter flux and planktonic new production in the oceanNature 282 677CrossRefGoogle Scholar
2001 Seaglider: a long-range autonomous underwater vehicle for oceanographic researchIEEE J. Oceanic Engineering 26 424CrossRefGoogle Scholar
1986 Dissolved humic substances of the Amazon River systemLimnol. Oceanogr 31 739CrossRefGoogle Scholar
1992 Medium resolution imaging spectrometer (MERIS). Draft brochureParisEuropean Space AgencyGoogle Scholar
1983 Laboratory analysis of techniques for remote sensing of estuarine parameters using laser excitationAppl. Opt 22 54CrossRefGoogle ScholarPubMed
1987 Dynamics of Lake Michigan phytoplankton: the deep chlorophyll layerJ. Great Lakes Res 13 285CrossRefGoogle Scholar
1984 In situ quantum efficiency of Lake Superior phytoplanktonJ. Great Lakes Res 10 399CrossRefGoogle Scholar
2004 Rates of primary productivity and growth in measured at different depths, over an annual cycle, at West Island, South AustraliaMar. Biol 145 41CrossRefGoogle Scholar
1998 Biogeochemical controls and feedback on ocean primary productionScience 281 200CrossRefGoogle Scholar
1981 Light-shade adaptation of , a hermatypic coral from the Gulf of EilatNature 289 172CrossRefGoogle Scholar
1978 Effects of light intensity on photosynthesis and dark respiration in six species of marine phytoplanktonMar. BioI 45 289CrossRefGoogle Scholar
1980 Light–shade adaptation: two strategies in marine phytoplanktonPlant Physiol 66 592CrossRefGoogle ScholarPubMed
1973 Effect of light intensity and glycerol on the growth, pigment composition and ultrastructure of spJ. Phycol 9 489Google Scholar
1969 A numerical model for the estimation of photosynthetic production, integrated over time and depth, in natural watersLimnol. Oceanogr 14 906CrossRefGoogle Scholar
1976 The vertical and seasonal distribution of chlorophyll in lakes of the Experimental Lakes Area, northwestern Ontario: implication for primary production estimatesLimnol. Oceanogr 21 767CrossRefGoogle Scholar
2005 An estimation of annual new production and carbon fluxes in the northeast Atlantic Ocean during 2001J. Geophys. Res 110CrossRefGoogle Scholar
1991 On the accuracy of determining light absorption by ‘yellow substance’ through measurements of induced fluorescenceLimnol. Oceanogr 36 777CrossRefGoogle Scholar
1999 A method using chemical oxidation to remove light absorption by phytoplankton pigmentsJ. Phycol 35 1090CrossRefGoogle Scholar
1980 Apparent bicarbonate uptake and possible plasmalemma proton efflux inChara corallina. Plant Physiol 66 1198CrossRefGoogle Scholar
2008 SeaUV and SeaUVC: algorithms for the retrieval of UV/visible diffuse attenuation coefficients from ocean colorRemote Sens. Environ 112 1584Google Scholar
1998 Diel migration of phytoplankton and spectral light field in the Ría de Vigo (NW Spain)Mar. Biol 130 491CrossRefGoogle Scholar
1990 Sun-stimulated fluorescence. I: Influence of oceanic propertiesInt. J. Remote Sens 11 2125CrossRefGoogle Scholar
1990 Sun-stimulated chlorophyll fluorescence. 2: Impact of atmospheric propertiesInt. J. Remote Sens 11 2149CrossRefGoogle Scholar
1989 Changes in the levels of ribulose-1, 5-bisphosphate carboxylase/oxygenase (Rubisco) in (Chlorophyta) during light and shade adaptationPlant Cell Physiol 30 221CrossRefGoogle Scholar
2007 Wind speed influence on phytoplankton bloom dynamics in the Southern Ocean Marginal Ice ZoneJ. Geophys. Res 112 C08006CrossRefGoogle Scholar
1978 Adaptation of the photosynthetic apparatus of to strong and weak light conditionsPhysiol. Plant 43 43CrossRefGoogle Scholar
1989 The structure of chlorophyll c3, a novel marine photosyhthetic pigmentJ. Chem. Soc., Chem. Commun 23 1827CrossRefGoogle Scholar
1963 Observations of the function of chlorophyll a and accessory pigments in photosynthesisPhotosynthesis Mechanisms in Green Plants352WashingtonNational Academy of Science-National Research CouncilGoogle Scholar
1983 The removal of dissolved humic acid during estuarine mixingEstuar. Coast. Shelf Sci 16 431CrossRefGoogle Scholar
l982 Photosynthetic characteristics of planktonic blue-green algae: the response of twenty strains grown under high and low lightBr. Phycol. J 17 169CrossRefGoogle Scholar
l982 Photosynthetic characteristics of planktonic blue-green algae: changes in photosynthetic capacity and pigmentation of Van Goor under high and low lightBr. Phycol. J 17 183CrossRefGoogle Scholar
1984 A diatom light-harvesting pigment-protein complexPlant Physiol 76 483CrossRefGoogle ScholarPubMed
1986 Biogenesis and light regulation of the major light-harvesting chlorophyll-protein of diatomsPlant Physiol 80 43CrossRefGoogle ScholarPubMed
1980 Absorption coefficient instrument for turbid natural watersAppl. Opt 19 1688CrossRefGoogle ScholarPubMed
2002 SeaWiFS data interpretation in a coastal area in the Bay of BiscayInternat. J. Remote Sens 23 881CrossRefGoogle Scholar
1988 Measurement of the absorption coefficient of ocean water using isotropic illuminationProc. Soc. Photo-Opt. Instrum. Eng., Ocean Optics IX 925 142CrossRefGoogle Scholar
2007 Photosynthetic electron transport in (Chlorophyceae) measured by fast repetition rate fluorometry: relation to carbon assimilationJ. Plankton Res 29 199CrossRefGoogle Scholar
1960 Effect of chromatic lights on phycobilin formation in a blue-green algaTolypothrix tenuis. Plant Cell Physiol 1 293Google Scholar
1962 Photochemical interconversion between precursors of phycobilin chromoproteids in Plant Cell Physiol 3 209Google Scholar
1962 Changes in composition of cellular material during formation of phycobilin chromoproteids in a bluegreen algaTolypothrix tenuis. J. Biochem 52 38CrossRefGoogle Scholar
1988 Photosynthetic characteristics of Coral Sea picoplankton (<2 μm size fraction)Biol. Oceanogr 5 163Google Scholar
1902 Ueber den Einfluss farbigen Lichts auf die Faerbung levender OscillarienAbh. Preuss Akad. Wiss. Berlin, No. 5Google Scholar
1980 Population genetics of (Bacillariophyceae) in Narragansett BayJ. Phycol 16 464CrossRefGoogle Scholar
1982 Physiological variation and electrophoretic banding patterns of genetically different seasonal populations of (Bacillariophyceae)J. Phycol 18 148CrossRefGoogle Scholar
1990 Modelling spectral diffuse attenuation, absorption, and scattering coefficients in a turbid estuaryLimnol. Oceanogr 35 1486CrossRefGoogle Scholar
1996 Seagrass depth limits in the Indian River Lagoon (Florida, U.S.A.): application of an optical water quality modelEstuar. Coast. Shelf Sci 42 267CrossRefGoogle Scholar
1974 Incident solar irradiance and underwater light penetration as factors controlling the chlorophyll content of a shallow equatorial lake (Lake George, Uganda)J. Ecol 62 593CrossRefGoogle Scholar
1975 Photosynthetic production and irradiance-photosynthesis relationships of the phytoplankton from a shallow equatorial lake (Lake George, Uganda)Oecologia 18 165CrossRefGoogle Scholar
1982 Vertical separation of light and available nutrients as a factor causing replacement of green algae by blue-green algae in the plankton of a stratified lakeJ. Ecol 70 829CrossRefGoogle Scholar
1989 Optical properties of gas-vacuolate cells and colonies of in relation to light attenuation in a turbid, stratified reservoir (Mount Bold Reservoir, South Australia)Aust. J. Mar. Freshwater Res 40 595CrossRefGoogle Scholar
1977 Recent contributions in phycobiliproteins and phycobilisomesPhotochem. Photobiol 26 685CrossRefGoogle Scholar
1996 The relationship of solar-stimulated natural fluorescence and primary productivity in Mexican Pacific watersLimnol. Oceanogr 41 1697CrossRefGoogle Scholar
2000 The main nonpolar chlorophyll from (Prymnesiophyceae) is a chlorophyll 2-monogalactosyldiacylglyceride ester: a mass spectrometry studyJ. Phycol 36 497CrossRefGoogle ScholarPubMed
1995 Spectra characterization of new chlorophyll c pigments isolated from (Prymnesiophyceae) by high-performance liquid chromatographyJ. Phycol 31 761CrossRefGoogle Scholar
1997 Inherent optical property of ocean color spectra and its biogeochemical interpretation. 1. Time series from the Sargasso SeaJ. Geophys. Res 102 18607CrossRefGoogle Scholar
1987 Light and temperature dependence of the carbon to chlorophyll ratio in microalgae and cyanobacteria: implications for physiology and growth of phytoplanktonNew Phytol 106 1CrossRefGoogle Scholar
1987 Light absorption by a marine diatom: experimental observations and theoretical calculations of the package effect in a small speciesMar. Biol 96 299CrossRefGoogle Scholar
1975 Nutrients, biomass and primary productivity of nanoplankton in eutrophic Lake Vombsjön, SwedenOikos 26 121CrossRefGoogle Scholar
1989 The relationship between the quantum yield of photosynthetic electron transport and quenching of chlorophyll fluorescenceBiochim. Biophys. Acta 990 87CrossRefGoogle Scholar
1986 Photosynthetic characteristics of giant kelp determinedin situ. Mar. Biol 90 473CrossRefGoogle Scholar
2009 Field characterization of wave-induced underwater light field fluctuationsJ. Geophys. Res 114 C06025CrossRefGoogle Scholar
1997 Do light quality and low nutrient concentration favour picocyanobacteria below the thermocline of the oligotrophic Lake Stechlin?J. Plankton Res 19 771CrossRefGoogle Scholar
2002 Changes in primary productivity and chlorophyll in response to iron fertilization in the Southern Polar Frontal ZoneLimnol. Oceanogr 47 1324CrossRefGoogle Scholar
1937 Untersuchungen uber Assimilation und Atmung submerser WasserpflanzenJahrb. Wiss. Bot 85 267Google Scholar
1994 An atmospheric correction method for the automatic retrieval of surface reflectance from TM imagesInt. J. Remote Sens 15 2065CrossRefGoogle Scholar
2006 Retrieval of chlorophyll fluorescence spectra through polarization discriminationAppl. Opt 45 5568CrossRefGoogle ScholarPubMed
1960 The ecological distribution of the deep water algae of Eniwetok atollEcology 41 210CrossRefGoogle Scholar
1992 The peak near 700 nm on radiance spectra of algae and water: relationships of its magnitude and position with chlorophyll concentrationInt. J. Remote Sens 13 3367CrossRefGoogle Scholar
1991 Optical models of mesotrophic and eutrophic water bodiesInt. J. Remote Sens 12 375CrossRefGoogle Scholar
1981 Photosynthetic accessory proteins with bilin prosthetic groupsThe Biochemistry of Plants51New YorkAcademic PressGoogle Scholar
1985 Light harvesting by phycobilisomesAnn. Rev. Biophys. Biophys. Chem 14 47CrossRefGoogle ScholarPubMed
1987 Photochemical reaction centres: structure, organization and functionAnn. Rev. Plant Physiol 38 11CrossRefGoogle Scholar
1981 Photosynthesis and respiration of the tropical red seaweeds, (Tambalang and Elkhorn varieties) andE. denticulatum. Aquat. Biol 10 353Google Scholar
1985 Inorganic carbon uptake by phytoplankton in Vineyard Sound, Massachusetts I. Measurements of the photosynthesis-irradiance response of winter and early-spring assemblagesJ. Exp. Mar. Biol. Ecol 85 21CrossRefGoogle Scholar
1986 Suspended clay concentration controlled by filter-feeding zooplankton in a tropical reservoirNature 323 330CrossRefGoogle Scholar
1999 Heterogeneity of oxygen production and consumption in a photosynthetic microbial mat as studied by planar optodesJ. Phycol 35 270CrossRefGoogle Scholar
2006 Using a digital camera for water quality measurements in Galway BayEstuar. Coast. Shelf Sci 66 429CrossRefGoogle Scholar
1969 Energy transfer from carotenoids to chlorophyll in blue-green, red and green algae and greening bean leavesBiochim. Biophys. Acta 172 252CrossRefGoogle ScholarPubMed
1992 The pigments of : the presence of divinyl chlorophyll and in a marine prokaryoteLimnol. Oceanogr 37 425Google Scholar
2002 Top-down control of phytoplankton biomass and community structure in the monsoonal Arabian SeaLimnol. Oceanogr 47 1307CrossRefGoogle Scholar
2002 A five channel chlorophyll concentration algorithm applied to SeaWiFS data processed by SeaDAS in coastal watersInternat. J. Remote Sens 23 1639CrossRefGoogle Scholar
1963 Light injury and inhibition in Antarctic freshwater planktonLimnol. Oceanogr 8 313CrossRefGoogle Scholar
1979 Outdoor algal mass cultures. II. Photosynthetic yield limitationsWater Res 13 119CrossRefGoogle Scholar
1988 Light responses of a submersed macrophyte: implications for survival in turbid tidal watersEcology 69 1775CrossRefGoogle Scholar
2008 Comparison of atmospheric correction algorithms for TM image in inland watersInt. J. Remote Sens 29 2199CrossRefGoogle Scholar
2000 Measurement of photosynthetic parameters in benthic organisms in situ using a SCUBA-based fast repetition rate fluorometerLimnol. Oceanogr 45 242CrossRefGoogle Scholar
1985 Ship perturbation of irradiance measurements at seaAppl. Opt 24 4172CrossRefGoogle ScholarPubMed
1989 Can the Lambert-Beer law be applied to the diffuse attenuation coefficient of ocean water?Limnol. Oceanogr 34 1389CrossRefGoogle Scholar
1989 Dependence of the diffuse reflectance of natural waters on the sun angleLimnol. Oceanogr 34 1484CrossRefGoogle Scholar
1991 Absorption and scattering estimates from irradiance measurements: Monte Carlo simulationsLimnol. Oceanogr 36 769CrossRefGoogle Scholar
2005 Normalized water-leaving radiance: revisiting the influence of surface roughnessAppl. Opt 44 241CrossRefGoogle ScholarPubMed
1998 A radiance-irradiance inversion algorithm for estimating the absorption and backscattering coefficients of natural watersAppl. Opt 37 3886CrossRefGoogle ScholarPubMed
1973 Irradiance reflectivity of a flat ocean as a function of its optical propertiesAppl. Opt 12 1549CrossRefGoogle ScholarPubMed
1988 Exact Rayleigh scattering calculations for use with the Nimbus-7 coastal zone color scannerAppl. Opt 27 862CrossRefGoogle ScholarPubMed
1975 Computed relationships between the inherent and apparent optical properties of a flat, homogeneous oceanAppl. Opt 14 417CrossRefGoogle ScholarPubMed
1980 Atmospheric effects in the remote sensing of phytoplankton pigmentsBoundary-layer Meteorol 18 299CrossRefGoogle Scholar
1981 Clear water radiances for atmospheric correction of coastal zone color scanner imageryAppl. Opt 20 4175CrossRefGoogle ScholarPubMed
1983 Phytoplankton pigment concentrations in the Middle Atlantic Bight: comparison of ship determinations and CZCS estimatesAppl. Opt 22 20CrossRefGoogle ScholarPubMed
1980 Phytoplankton pigments from the Nimbus-7 Coastal Zone Scanner: comparison with surface measurementsScience 210 63CrossRefGoogle Scholar
1975 Estimation of the depth of sunlight penetration in the sea for remote sensingAppl. Opt 14 413CrossRefGoogle ScholarPubMed
1983 Remote Assessment of Ocean Colour for Interpretation of Satellite Visible Imagery. A ReviewNew YorkSpringerCrossRefGoogle Scholar
1994 Retrieval of water-leaving radiance and aerosol optical thickness over the oceans with SeaWiFS: a preliminary algorithmAppl. Opt 33 443CrossRefGoogle ScholarPubMed
1969
1957 The chemical composition of lake waters in Halifax County, Nova ScotiaLimnol. Oceanogr 2 12CrossRefGoogle Scholar
1983 The chemical composition of lakes in the north-central United StatesLimnol. Oceanogr 28 287CrossRefGoogle Scholar
2004 Circadian rhythm of photosynthesis and concurrent oscillations of transcript abundance of photosynthetic genes in the marine red algaGrateloupia turuturu. Eur. J. Phycol 39 431CrossRefGoogle Scholar
1999 Spectral dependence of the scattering coefficient in case 1 and case 2 watersAppl. Opt 38 2377CrossRefGoogle Scholar
1996 Chlorophyll standing crop and phytoplankton production in the western Irish Sea during 1992 and 1993J. Plankton Res 18 1735CrossRefGoogle Scholar
1980 Observations of fluorescence of in situ chlorophyll in Saanich InletBoundary-layer Meteorol 18 235CrossRefGoogle Scholar
1999 Interpretation of the 685 nm peak in water-leaving radiance spectra in terms of fluorescence, absorption and scattering, and its observation by MERISInt. J. Remote Sens 20 1771CrossRefGoogle Scholar
2007 Validation of chlorophyll fluorescence derived from MERIS on the west coast of CanadaInt. J. Remote Sens 28 625CrossRefGoogle Scholar
2005 Detection of intense plankton blooms using the 709 nm band of the MERIS imaging spectrometerInt. J. Remote Sens 26 2005CrossRefGoogle Scholar
2008 Global monitoring of plankton blooms using MERIS MCIInt. J. Remote Sens 29 6209CrossRefGoogle Scholar
2001 Circadian rhythm of photosynthetic oxygen evolution in (Rhodophyta): dependence on light quality and quantityJ. Phycol 37 1020CrossRefGoogle Scholar
2006 Design and analysis of a flow-through integrating cavity absorption meterAppl. Opt 45 8990CrossRefGoogle ScholarPubMed
1996 The chlorophyll-carotenoid proteins of oxygenic photosynthesisAnn. Rev. Plant Physiol. Plant Mol. Biol 47 685CrossRefGoogle ScholarPubMed
2003 Contributions of phytoplankton and other particles to inherent optical properties in New England continental shelf watersLimnol. Oceanogr 48 2377CrossRefGoogle Scholar
1989 Separate photosensitizers mediate degradation of the 32-kDa photosystem II reaction center protein in the visible and UV spectral regionsProc. Natl. Acad. Sci. (Wash.) 86 6617CrossRefGoogle ScholarPubMed
1989 The contribution of phytoplankton productivity in turbid freshwaters to their trophic statusHydrobiologia 173 127CrossRefGoogle Scholar
1997 The significance of intracellular self-shading on the biooptical properties of brown, red and green macroalgaeJ. Phycol 33 408CrossRefGoogle Scholar
1986 Subunit separation (α, α′, β) of cryptomonad biliproteinsPhotochem. Photobiol 43 81CrossRefGoogle ScholarPubMed
1981 Energy transfer in a light-harvesting carotenoid-chlorophyll -chlorophyll -protein of Photochem. Photobiol 33 903CrossRefGoogle Scholar
1987 Specific absorption coefficient of chlorophyll at 675 nmLimnol. Oceanogr 32 608CrossRefGoogle Scholar
1998 Photoinhibition in Mediterranean macroalgae by solar radiation measured on site by PAM fluorescenceAquat. Bot 61 225CrossRefGoogle Scholar
1994 Functional aspects of secondary carotenoids in (Volvocales). III. Action as a “sunshade”J. Phycol 30 241CrossRefGoogle Scholar
1974 Light and photosynthesis of different marine algal groupsOptical Aspects of Oceanography345LondonAcademic PressGoogle Scholar
1980 Primary production: geographical variationsThe Functioning of Freshwater Ecosystems235CambridgeCambridge University PressGoogle Scholar
2001 Light regime in an Arctic fjord: a study related to stratospheric ozone depletion as a basis for determination of UV effects on algal growthMar. Biol 138 649CrossRefGoogle Scholar
1979 Growth patterns of . in response to temperature, irradiance, salinity and nitrogen sourceMar. Biol 50 319CrossRefGoogle Scholar
1921 Jahrb. Wiss. Botan 60 531
1923 Uber die Bedeutung von Lichtintensität und Wellenlänge fur die Assimilation Färbiger AlgenZ. Bot 15 305Google Scholar
1988 Photosynthetic physiology of (Dinophyceae) during its subpycnocline transport in Chesapeake BayJ. Phycol 24 77CrossRefGoogle Scholar
1992 Determination of phytoplankton chlorophyll concentrations in the Chesapeake Bay with aircraft remote sensingRemote Sens. Environ 40 79CrossRefGoogle Scholar
2002 Toward a predictive understanding of primary productivity in a temperate, partially stratified estuaryEstuar. Coast. Shelf Sci 55 437CrossRefGoogle Scholar
1986 Phytoplankton production in two East coast estuaries: photosynthesis-light functions and patterns of carbon assimilation in Chesapeake and Delaware BaysEstuar. Coast. Shelf Sci 23 773CrossRefGoogle Scholar
1981 Diel periodicity of photosynthesis in marine phytoplanktonMar. Biol 61 95CrossRefGoogle Scholar
1982 Diel oscillations of the photosynthesis-irradiance relationship in natural assemblages of phytoplanktonMar. Biol 67 167CrossRefGoogle Scholar
1982 Primary production as influenced by diel periodicity of phytoplankton photosynthesisMar. Biol 67 179CrossRefGoogle Scholar
1992 Remote sensing of Lake Chicot, Arkansas: monitoring suspended sediments, turbidity, and Secchi depth with Landsat dataRemote Sens. Environ 39 15CrossRefGoogle Scholar
1980 The measurement of photosynthesis in natural populations of phytoplanktonThe Physiological Ecology of Phytoplankton129OxfordBlackwellGoogle Scholar
1986 Phytoplankton Ecology: Structure, Function and FluctuationLondonChapman & HallCrossRefGoogle Scholar
1979 Physiological and environmental constraints in the ecology of the planktonic dinoflagellateCeratium hirundinella. Freshwater Biol 9 413CrossRefGoogle Scholar
1988 Angular distribution of clear sky short wavelength radianceSolar Energy 40 57CrossRefGoogle Scholar
1983 Review of the biological oceanography of the Strait of Georgia: pelagic environmentCan. J. Fish. Aquat. Sci 40 1064CrossRefGoogle Scholar
1984 Synthesis of marine humic substances from unsaturated lipidsNature 309 244CrossRefGoogle Scholar
1977 An annual carbon budget for the kelpLaminaria longicruris. Mar. Biol 44 85CrossRefGoogle Scholar
2003 The use of pulse amplitude modulated fluorometry to determine fine-scale temporal and spatial variation of in situ photosynthetic activity within an -dominated canopyAquat. Bot 77 1CrossRefGoogle Scholar
1985 Photosynthetic action spectrum of the coccolithophorid, (Haptophyceae): 19′ hexanoyloxyfucoxanthin as antenna pigmentJ. Phycol 21 282CrossRefGoogle Scholar
1950 Photosynthetic action spectra of marine algaeJ. Gen. Physiol 33 389CrossRefGoogle ScholarPubMed
1976 Peridinin-chlorophyll proteins of the dinoflagellate (Plymouth 450)Plant Physiol 57 297CrossRefGoogle Scholar
1980 Dynamic aspects of dinoflagellate distribution patterns in a small productive lakeJ. Ecol 68 75CrossRefGoogle Scholar
1981 Primary production and rates of algal growth in Lake TanganyikaLimnol. Oceanogr 26 532CrossRefGoogle Scholar
1991 The effect of resuspension on algal production in a shallow lakeHydrobiologia 213 183CrossRefGoogle Scholar
2003 Photochemical and microbial degradation of dissolved lignin phenols: implications for the fate of terrigenous dissolved organic matter in marine environmentsJ. Geophys. Res 108 C93291CrossRefGoogle Scholar
1982 Extraterrestrial solar irradiance variability. Two and one-half years of measurement from Nimbus 7Solar Energy 29 125CrossRefGoogle Scholar
2009 Distribution and chromatic adaptation of phytoplankton within a shelf sea thermoclineLimnol. Oceanogr 54 525CrossRefGoogle Scholar
2008 Impacts of chromophoric dissolved organic material on surface ocean heating in the Chukchi SeaJ. Geophys. Res 113 C07024CrossRefGoogle Scholar
1985 The chlorophyll-protein complexes of sp. (Prochlorophyta)Biochim. Biophys. Acta 806 107CrossRefGoogle Scholar
1988 Chlorophyll proteins of the prymnesiophyte (Droop) comb. nov.: identification of the major light-harvesting complexBiochim. Biophys. Acta 932 223CrossRefGoogle Scholar
1993 The major intrinsic light-harvesting protein of : characterization and relation to other lightharvesting proteinsPhotochem. Photobiol 57 125CrossRefGoogle Scholar
2008 Relationship between the irradiance reflectance and inherent optical properties of seawaterJ. Geophys. Res 113 C03030CrossRefGoogle Scholar
1981 Seasonal variations in maximum photosynthetic rates of phytoplankton in Saanich Inlet, Vancouver Island, British ColumbiaJ. Exp. Mar. Biol. Ecol 52 1CrossRefGoogle Scholar
1963 Computations of lightscattering and extinction by spheres according to diffraction and geometrical optics and some comparisons with the Mie theoryJ. Opt. Soc. Amer 53 577CrossRefGoogle Scholar
1993 Determination of the major groups of phytoplankton pigments from the absorption spectra of total particulate matterJ. Geophys. Res 98 22789CrossRefGoogle Scholar
1999 Depth-integrated primary production in the eastern tropical and subtropical North Atlantic basin from ocean colour imageryInt. J. Remote Sens 20 1435CrossRefGoogle Scholar
2005 Chlorophyll biomass in the global oceans: airborne lidar retrieval using fluorescence of both chlorophyll and chromophoric dissolved organic matterAppl. Opt 44 2857CrossRefGoogle ScholarPubMed
1981 Airborne simultaneous spectroscopic detection of laser-induced water Raman backscatter and fluorescence from chlorophyll and other naturally occurring pigmentsAppl. Opt 20 3197CrossRefGoogle ScholarPubMed
1995 Inherent optical properties of the ocean: retrieval of the absorption coefficient of chromophoric dissolved organic matter from airborne laser spectral fluorescence measurementsAppl. Opt 34 7032CrossRefGoogle ScholarPubMed
1973 Inherent and apparent optical properties of the western Mediterranean and the HardangerfjordUniv. Copenhagen, Inst. Phys. Oceanogr. Rep 21 1Google Scholar
1975 A spectral light absorption meter for measurements in the seaLimnol. Oceanogr 20 1024CrossRefGoogle Scholar
1977 Inherent and apparent optical properties of the North Sea. Fladen Ground experiment – Flex 75Univ. Copenhagen, Inst. Phys. Oceanogr. Rep 32 1Google Scholar
1979 On the origin of yellow substance in the marine environmentIn 17th General Assembly of I.A.P.S.O. (Canberra, 1979)71Google Scholar
1986 Variability of the sea with special reference to the Secchi discProc. Soc. Photo-Opt. Instrum. Eng., Ocean Optics VIII 637 294CrossRefGoogle Scholar
1988 Natural occurrences and optical effects of gelbstoffUniv. Copenhagen, Inst. Phys. Oceanogr. Rep 50 1Google Scholar
2002 Optical measurements on the Louisiana Shelf off the Mississippi RiverEstuar. Coast. Shelf Sci 55 599CrossRefGoogle Scholar
1977 Inherent and apparent optical properties of Icelandic waters. ‘Bjarni Saemundsson Overflow 73’Univ. Copenhagen, Inst. Phys. Oceanogr. Rep 33 1Google Scholar
1977 A theoretical proof of the existence of the submarine asymptotic daylight fieldUniv. Copenhagen, Inst. Phys. Oceanogr. Rep 34 1Google Scholar
1983 Satellite and ship studies of coccolithophore production along a continental shelf edgeNature 304 339CrossRefGoogle Scholar
1991 Spatial and temporal distribution of phytoplankton and primary production in the western Bransfield Strait regionDeep-Sea Res 38 961CrossRefGoogle Scholar
1978 Toward universal multispectral suspended sediment algorithmsRemote Sens. Environ 7 323CrossRefGoogle Scholar
2009 Spatial and temporal variability in bio-optical properties of the Wadden SeaEstuar. Coast. Shelf Sci 83 360CrossRefGoogle Scholar
1983 Cultivation of the green alga , in tropical waters and some aspects of its physiological ecologyAquaculture 32 361CrossRefGoogle Scholar
1983 Field investigation of techniques for remote laser sensing of oceanographic parametersRemote Sens. Environ 13 17CrossRefGoogle Scholar
1978 The Coastal Zone Colour Scanner (CZCS) experimentThe Nimbus 7 Users' GuideBeltsvilleManagement & Technical Services CoGoogle Scholar
1980 Nimbus-7 Coastal Zone Colour Scanner: system description and initial imageryScience 210 60CrossRefGoogle ScholarPubMed
2002 Induction of sunscreen compounds in Antarctic macroalgae by different radiation conditionsMar. Biol 141 619Google Scholar
2009 A novel ocean color index to detect floating algae in the global oceansRemote Sens. Environ 113 2118CrossRefGoogle Scholar
2001 Atmospheric correction and cross-calibration of LANDSAT-7/ETM+ imagery over aquatic environments: a multiplatform approach using SeaWiFS/MODISRemote Sens. Environ 78 99CrossRefGoogle Scholar
2005 Red tide detection and tracing using MODIS fluorescence data: a regional example in SW Florida coastal watersRemote Sens. Environ 97 311CrossRefGoogle Scholar
1999 Molecular structure, localization and function of biliproteins in the chlorophyll containing photosynthetic prokaryote, Biochim. Biophys. Acta 112 250CrossRefGoogle Scholar
1998 A photosystem I reaction center driven by chlorophyll in oxygenic photosynthesisProc. Natl. Acad. Sci. (Wash.) 95 13319CrossRefGoogle ScholarPubMed
2003 Inorganic carbon acquisition in two species of marine prymnesiophytesEur. J. Phycol 38 181CrossRefGoogle Scholar
2005 Characterization of the CO2-concentrating mechanism in the unicellular algaEustigmatos vischeri. Eur. J. Phycol 40 409CrossRefGoogle Scholar
2000 Active transport of CO2 by three species of marine microalgaeJ. Phycol 36 314CrossRefGoogle Scholar
1999 Critical depth and critical turbulence: two different mechanisms for the development of phytoplankton bloomsLimnol. Oceanogr 44 1781CrossRefGoogle Scholar
2009 Exudation and decomposition of chromophoric dissolved organic matter (CDOM) from some temperate macroalgaeEstuar. Coast. Shelf Sci 84 147CrossRefGoogle Scholar
1998 Photoinhibition and the availability of inorganic carbon restrict photosynthesis by surface blooms of cyanobacteriaLimnol. Oceanogr 43 408CrossRefGoogle Scholar
1998 The productive and optical status of the oligotrophic waters of the Southern Aegean Sea (Cretan Sea), Eastern MediterraneanJ. Plankton Res 20 985CrossRefGoogle Scholar
1970 Ecological studies on the productivity of aquatic plant communitiesBot. Mag. (Tokyo) 83 330CrossRefGoogle Scholar
1983 Isolation and characterization of a major chlorophyll 2 light-harvesting protein from a species (Cryptophyceae)Biochim. Biophys. Acta 772 310CrossRefGoogle Scholar
1979 Sun Report (Report of the working group on symbols, units and nomenclature in physical oceanography)ParisGoogle Scholar
1997 Light limitation and distribution of chlorophyll pigments in a highly turbid estuary: the Gironde (SW France)Estuar. Coast. Shelf Sci 44 507CrossRefGoogle Scholar
1988 Microphotometric analysis of individual particle absorption spectraLimnol. Oceanogr 33 128CrossRefGoogle Scholar
1989 Microphotometric characterization of phytoplankton and detrital absorption properties in the Sargasso SeaLimnol. Oceanogr 34 1706CrossRefGoogle Scholar
1961 A comparative study of irradiance, beam transmittance and scattering in the sea near BermudaLimnol. Oceanogr 6 129CrossRefGoogle Scholar
1973 Action spectrum of photosynthesis for obtained with carbon-14Physiol. Plant 28 498CrossRefGoogle Scholar
1980 Depression of primary productivity by humic matter in lake and reservoir waters of the boreal forest zoneCan. J. Fish. Aquat. Sci 37 2300CrossRefGoogle Scholar
1977 A theoretical study of phytoplankton growth and nutrient distribution in the Pacific Ocean off the northwestern U.S. coastDeep-Sea Res 24 753CrossRefGoogle Scholar
1938 A laboratory study of the absorption of light by lake watersTrans. Wisc. Acad. Sci. Arts Lett 31 1Google Scholar
1976 Mathematical formulation of the relationship between photosynthesis and light for phytoplanktonLimnol. Oceanogr 21 540CrossRefGoogle Scholar
1981 The influence of carbon dioxide depletion on growth and sinking rate of two planktonic diatoms in cultureBr. Phycol. J 16 395CrossRefGoogle Scholar
1961 Paper chromatographic separation of chlorophylls and carotenoids in marine algaeBiochem. J 80 336CrossRefGoogle ScholarPubMed
1972 Preparation and some properties of crystalline chlorophyll 1 and 2 from marine algaeBiochim. Biophys. Acta 279 15CrossRefGoogle ScholarPubMed
1984 Responses of unicellular marine plants to natural blue-green light environmentsBlue Light Effects in Biological Systems497BerlinSpringerCrossRefGoogle Scholar
1977 Effect of blue-green light on photosynthetic pigments and chloroplast structure in the marine diatomStephanopyxis turris. J. Phycol 13 271Google Scholar
1978 Chloroplast structural changes induced by white light in the marine diatomStephanopyxis turris. J. Phycol 14 238CrossRefGoogle Scholar
1987 A new spectrally distinct component in preparations of chlorophyll from the micro-alga (Prymnesiophyceae)Biochim. Biophys. Acta 894 180CrossRefGoogle Scholar
2005 Lake responses to reduced nutrient loading: an analysis of contemporary long-term data from 35 case studiesFreshwater Biol 50 1747CrossRefGoogle Scholar
1961 Optical measurements in the eastern North AtlanticMedd. Oceanogr. Inst. Goteborg, Ser. B 8 1Google Scholar
1974 Significant relationships between optical properties of the seaOptical Aspects of Oceanography77LondonAcademic PressGoogle Scholar
1938 On the angular distribution of submarine daylight and the total submarine illuminationSven. Hydrogr.-Biol. Komm. Skr., Ny Ser. Hydrogr 14 1Google Scholar
1969 A quanta and energy meter for photosynthetic studiesUniv. Copenhagen Inst. Phys. Oceanogr. Rep 10 1Google Scholar
1983 Spectral attenuation and irradiance in the Laurentian Great LakesJ. Great Lakes Res 9 60CrossRefGoogle Scholar
1988 Utilizing the components of vector irradiance to estimate the scalar irradiance in natural watersAppl. Opt 27 4012CrossRefGoogle ScholarPubMed
1976 The interactions of components controlling net phytoplankton photosynthesis in a well-mixed lake (Lough Neagh, Northern Ireland)Freshwater Biol 6 551CrossRefGoogle Scholar
1977 Light penetration in relation to phytoplankton content of the euphotic zone of Lough Neagh, N. IrelandOikos 28 74CrossRefGoogle Scholar
1978 The influence of turbidity on net phytoplankton photosynthesis in some Irish lakesFreshwater Biol 8 573CrossRefGoogle Scholar
1963 The simulated measurement of oceanic primary productionAust. J. Mar. Freshwater Res 14 139CrossRefGoogle Scholar
1976 The relation of oceanic primary production to available photosynthetic irradianceAust. J. Mar. Freshwater Res 27 441CrossRefGoogle Scholar
2003 Calculation of UV attenuation and colored dissolved organic matter absorption spectra from measurements of ocean colorJ. Geophys. Res 108 C93301CrossRefGoogle Scholar
2003 Dynamics and optics of the Hudson River outflow plumeJ. Geophys. Res 108 C103323CrossRefGoogle Scholar
2002 Photosynthetic physiology and physicochemical forcing in the Arabian Sea, 1995Deep-Sea Res 49 415CrossRefGoogle Scholar
1986 Physiological ecology of picoplankton in various oceanographic provincesPhotosynthetic picoplankton287Google Scholar
1956 The attenuation of light in sea and estuarine waters in relation to the concentration of suspended solid matterJ. Mar. Biol. Ass. U.K 35 431CrossRefGoogle Scholar
2005 The metabolic cost of bicarbonate use in the submerged plantElodea nuttallii. Aquat. Bot 83 71CrossRefGoogle Scholar
1964 Enhancement in the blue-green algaAnacystis nidulans. Plant Physiol 39 938CrossRefGoogle ScholarPubMed
1965 Pigment variations in induced by light of selected wavelengthsJ. Phycol 1 6CrossRefGoogle Scholar
1978 Adaptations to fluctuating irradiance by natural phytoplankton communitiesLimnol. Oceanogr 23 920CrossRefGoogle Scholar
1992 The influence of humic substances on lacustrine planktonic food chainsHydrobiologia 229 73CrossRefGoogle Scholar
1984 Light penetration and some related characteristics in small forest lakes in Southern FinlandVerh. Internat. Verein. LimnoI 22 811Google Scholar
1978 A diurnal study of the phytoplankton in the eutrophic lake Lovojärvi, Southern FinlandArch. Hydrobiol 83 494Google Scholar
1978 Vertical and seasonal variation of phytoplankton photosynthesis in a brown-water lake with winter ice coverFreshwater Biol 8 561CrossRefGoogle Scholar
1996 Light limitation of phytoplankton development in an oligotrophic lake – Loch Ness, ScotlandFreshwater Biol 35 533CrossRefGoogle Scholar
1968 The adaptation of plankton algae. II. Aspects of the temperature adaptation ofSkeletonema costatum. Physiol. Plant 21 423CrossRefGoogle Scholar
1977 Limitations on macrophytes in a eutrophic lake, Loch LevenJ. Ecol 65 175431CrossRefGoogle Scholar
1994 Detection, identification and mapping of cyanobacteria – using remote sensing to measure the optical quality of inland watersAust. J. Mar. Freshwater Res 45 801CrossRefGoogle Scholar
1979 Diurnal rhythms of apparent photosynthesis of a brown algaSpatoglossum pacificum. Botanica Marina 22 199Google Scholar
2001 Seasonal and non-seasonal variability of satellite-derived chlorophyll and coloured dissolved organic matter concentration in the California CurrentJ. Geophys. Res 106 2517CrossRefGoogle Scholar
1972 Pigment cycles in two high-arctic Canadian lakesVer. Internat. Verein Limnol 18 250Google Scholar
1937 Annln. Hydrogr. Berl 65 276
(1961). What do we know about the ‘Gelbstoff’?Union Geod. Geophys. Int. Monogr 10 59 1976Google Scholar
1984 Blue-green and green light adaptations on photosynthetic activity in some algae collected from the sub-surface layer in the western Pacific OceanBlue Light Effects in Biological Systems517BerlinSpringerCrossRefGoogle Scholar
1976 The light-harvesting chlorophyll /-protein complex ofChlamydomonas reinhardtii. Plant Physiol 57 47CrossRefGoogle Scholar
1987 Effect of irradiances up to 2000 μE m−2 s−1 on marine WH7803 – I. Growth, pigmentation and cell compositionDeep-Sea Res 34 479CrossRefGoogle Scholar
1987 Effect of irradiances up to 2000 μE m−2 s−1 on marine WH7803 – II. Photosynthetic responses and mechanismsDeep-Sea Res 34 499Google Scholar
1988 Zeaxanthin and β-carotene in WH7803 respond differently to irradianceLimnol. Oceanogr 33 1623Google Scholar
1985 Diel periodicity in the photosynthetic capacity of coastal and offshore phytoplankton assemblagesMar. Ecol. Prog. Ser 25 131CrossRefGoogle Scholar
1999 CO2 concentrating mechanisms in photosynthetic microorganismsAnn. Rev. Plant Physiol. Plant Mol. Biol 50 539CrossRefGoogle ScholarPubMed
1970 The FMPO-64 marine underwater irradiance meter and its application in hydro-optical studiesOceanology 10 282Google Scholar
1990 Supramolecular assembly of fucoxanthin-chlorophyll-protein complexes isolated from a brown alga, . Electron microscope studiesPlant Cell Physiol 31 439Google Scholar
1991 Fluorescence properties of the allenic carotenoid fucoxanthin: implication for energy transfer in photosynthetic pigment systemsPhotosynthesis Res 27 221Google ScholarPubMed
1990 Photosynthetic pathways in freshwater aquatic plantsTrends Ecol. Evol 5 330CrossRefGoogle ScholarPubMed
1983 Light and the annual variation of oxygen- and carbon-based measurements of productivity in a macrophyte-dominated riverLimnol. Oceanogr 28 503CrossRefGoogle Scholar
1991 Water quality mapping of Augusta Bay, Italy from Landsat-TM dataInt. J. Remote Sens 12 803CrossRefGoogle Scholar
1990 Formation of carbonyl compounds from UV-induced photo degradation of humic substances in natural waters: fate of riverine carbon in the seaLimnol. Oceanogr 35 1503CrossRefGoogle Scholar
1973 Chlorophyll and fluorescence in marine centric diatoms: responses of chloroplasts to light and nutrient stressMar. Biol 23 39CrossRefGoogle Scholar
1976 Another look at the nitrite and chlorophyll maxima in the central North PacificDeep-Sea Res 23 1199Google Scholar
1982 Spectral absorption by marine particles of coastal waters of Baja CaliforniaLimnol. Oceanogr 27 492CrossRefGoogle Scholar
1980 Structures and apoprotein linkages of phycoerythrobilin and phycocyanobilinBiochem. J 187 311CrossRefGoogle ScholarPubMed
1985 Early evaluation of thematic mapper data for coastal process studiesAdv. Space Res 5 21CrossRefGoogle Scholar
1976 Photosynthetic rates of benthic marine algae in relation to light intensity and seasonal variationsMar. Biol 37 215CrossRefGoogle Scholar
1999 Effect of light on vertical migration and photosynthesis of (Euglenophyta)J. Phycol 35 245CrossRefGoogle Scholar
1975 A theoretical analysis of the contribution of algal cells to the attenuation of light within natural waters. I. General treatment of suspensions of pigmented cellsNew Phytol 75 11CrossRefGoogle Scholar
1975 A theoretical analysis of the contributions of algal cells to the attenuation of light within natural waters. II. Spherical cellsNew Phytol 75 21CrossRefGoogle Scholar
1976 A theoretical analysis of the contribution of algal cells to the attenuation of light within natural waters. III. Cylindrical and spheroidal cellsNew Phytol 77 341CrossRefGoogle Scholar
1976 Yellow substance (gelbstoff) and its contribution to the attenuation of photosynthetically active radiation in some inland and coastal southeastern Australian watersAust. J. Mar. Freshwater Res 27 61CrossRefGoogle Scholar
1977 Use of a quanta meter to measure attenuation and underwater reflectance of photosynthetically active radiation in some inland and coastal southeastern Australian watersAust. J. Mar. Freshwater Res 28 9CrossRefGoogle Scholar
1977 Thermal dissociation of fucoxanthin-protein binding in pigment complexes from chloroplasts of (Phaeophyta)Plant Sci. Lett 9 373CrossRefGoogle Scholar
1979 Spectral distribution of photosynthetically active radiation in some south-eastern Australian watersAust. J. Mar. Freshwater Res 30 81CrossRefGoogle Scholar
1980 Relationship between nephelometric turbidity and scattering coefficients in certain Australian watersAust. J. Mar. Freshwater Res 31CrossRefGoogle Scholar
1980 Spectral absorption properties of natural waters: contribution of the soluble and particulate fractions to light absorption in some inland waters of southeastern AustraliaAust. J. Mar. Freshwater Res 31 287CrossRefGoogle Scholar
1981 A Monte Carlo study of the nature of the underwater light field in, and the relationships between optical properties of, turbid yellow watersAust. J. Mar. Freshwater Res 32 517CrossRefGoogle Scholar
1981 Estimation of the scattering coefficient of natural waters using underwater irradiance measurementsAust. J. Mar. Freshwater Res 32 533CrossRefGoogle Scholar
1981 A Monte Carlo procedure for simulating the penetration of light into natural watersCSIRO Division of Plant Industry1Google Scholar
1982 Prediction of optical water qualityPrediction in Water Quality307CanberraAustralian Academy of ScienceGoogle Scholar
1984 Dependence of relationship between inherent and apparent optical properties of water on solar altitudeLimnol. Oceanogr 29 350CrossRefGoogle Scholar
1985 Effect of suspensoids (turbidity) on penetration of solar radiation in aquatic ecosystemsHydrobiologia 125 195CrossRefGoogle Scholar
1988 Optical water quality – what does it mean and how should we measure it?J. Water Pollut. Control Fed 60 194Google Scholar
1989 The assessment and prediction of optical water quality13th Fed. Conv. Aust. Water Wastewater Assoc., 89/2504CanberraInstitution of EngineersGoogle Scholar
1991 Volume scattering function, average cosines and the underwater light fieldLimnol. Oceanogr 36 455CrossRefGoogle Scholar
1992 Monte Carlo modelling of the performance of a reflective tube absorption meterAppl. Opt 31 6463CrossRefGoogle Scholar
1994 Estimation of the absorption and scattering coefficients of natural waters by use of underwater irradiance measurementsAppl. Opt 33 3276CrossRefGoogle ScholarPubMed
1997 Point-source integrating cavity absorption meter: theoretical principles and numerical modelingAppl. Opt 36 6123CrossRefGoogle ScholarPubMed
1999 Multiple scattering of a photon flux: implications for the integral average cosine of the underwater light fieldAppl. Opt 38 3134CrossRefGoogle ScholarPubMed
2003 The vertical attenuation of irradiance as a function of the optical properties of the waterLimnol. Oceanogr 48 9CrossRefGoogle Scholar
2004 Notes for course on Monte Carlo modelling of radiative transfer in the ocean, Ocean Optics Conference XVIIFremantleWestern Australiawww.kirkmarineoptics.comGoogle Scholar
1998 Optical properties of ocean waters in the vicinity of the Chatham Rise, South Pacific OceanMar. Freshwater Res 49 1Google Scholar
1972 Relationship of photosynthetic effectiveness of different kinds of light to chlorophyll content and chloroplast structure in greening wheat and in ivy leavesAust. J. Biol. Sci 25 215CrossRefGoogle Scholar
1986 The spectral absorption and scattering properties of dissolved and particulate components in relation to the underwater light yield of some tropical Australian freshwatersFreshwater Biol 16 573CrossRefGoogle Scholar
1979 A study of the seagrass in the carbon budget of an estuaryAquat. Bot 7 173CrossRefGoogle Scholar
1984 Underwater radiant energy absorbed by phytoplankton, detritus, dissolved organic matter, and pure waterLimnol. Oceanogr 29 340CrossRefGoogle Scholar
1986 Light utilization efficiency and quantum yield of phytoplankton in a thermally stratified seaLimnol. Oceanogr 31 557CrossRefGoogle Scholar
1985 Estimation of the spectral absorption coefficients of phytoplankton in the seaBull. Marine Sci 37 634Google Scholar
1974 Coastal and estuarine studies with ERTS-I and SkylabRemote Sens. Env 3 153CrossRefGoogle Scholar
1982 Cyanobacterial blooms: carbon and nitrogen limitations have opposite effects on the buoyancy ofOscillatoria. Science 215 1629Google Scholar
1988 Comparative transparency, depth of mixing and stability of stratification in lakes of Cameroon, West AfricaLimnol. Oceanogr 33 27CrossRefGoogle Scholar
1979 Photosynthesis of marine phytoplankton as a function of underwater irradianceSoviet Plant Physiol 26 737Google Scholar
1991 Secchi disk and photometer estimates of light regimes in Alaskan lakes: effects of yellow colour and turbidityLimnol. Oceanogr 36 91CrossRefGoogle Scholar
2007 Within-day and seasonal patterns of microphytobenthos biomass determined by co-measurement of sediment and water column chlorophylls in the intertidal mudflat of Nanura Saga, Ariake Sea, JapanEstuar. Coast. Shelf Sci 72 42CrossRefGoogle Scholar
1993 Use of active fluorescence to estimate phytoplankton photosynthesis in situLimnol. Oceanogr 38 1646CrossRefGoogle Scholar
1998 Measurements of variable chlorophyll fluorescence using fast repetition rate techniques: defining methodology and experimental protocolsBiochim. Biophys. Acta 1367 88CrossRefGoogle ScholarPubMed
1990 Natural variation in photosynthetic energy conversion efficiency: a field study in the Gulf of MaineLimnol. Oceanogr 35 72CrossRefGoogle Scholar
2007 The membrane-associated CpcG2-phycobilisome in : a new photosystem I antennaPlant Physiol 144 1200CrossRefGoogle ScholarPubMed
1990 Passive and active optical remote sensing of the inland water phytoplanktonISPRS J. Photogramm. Remote Sens 44 257CrossRefGoogle Scholar
1984 On the influence of river and eolian suspended matter on the optical properties of sea waterOceanology 24 331Google Scholar
1971 The nephelometric method for determining the total scattering coefficient of light in sea waterIzv. Atmos. Oceanic Phys 7 835Google Scholar
1977 Relation between the spectral values of the light absorption coefficients of sea water, phytoplanktonic pigments, and the yellow substanceOceanology 17 278Google Scholar
2005 CDOM and its contribution to the underwater light climate of a shallow, microtidal estuary in south-western AustraliaEstuar. Coast. Shelf Sci 63 469CrossRefGoogle Scholar
2005 Empirical relationship between coloured dissolved organic matter (CDOM) absorption and apparent optical properties in Baltic Sea watersInt. J. Remote Sens 26 345CrossRefGoogle Scholar
1979 Degradation by sunlight of dissolved fluorescing substances in the upper layers of the eastern Atlantic OceanNeth. J. Sea Res 13 325CrossRefGoogle Scholar
1998 Light attenuation and photosynthesis of aquatic plant communitiesLimnol. Oceanogr 43 396CrossRefGoogle Scholar
2003 The use of variable fluorescence measurements in aquatic ecosystems: differences between multiple and single turnover measuring protocols and suggested terminologyEur. J. Phycol 38 103CrossRefGoogle Scholar
1992 Spectral light measurements in microbenthic phototrophic communities with a fiber-optic microprobe coupled to a sensitive diode array detectorLimnol. Oceanogr 37 1813CrossRefGoogle Scholar
1994 The light field of microbenthic communities: radiance distribution and microscale optics of sandy coastal sedimentsLimnol. Oceanogr 39 1368Google Scholar
1994 Atomic model of plant light-harvesting complex by electron crystallographyNature 367 614CrossRefGoogle ScholarPubMed
1999 Penetration of ultraviolet radiation in the waters of the estuary and Gulf of St. LawrenceLimnol. Oceanogr 44 710CrossRefGoogle Scholar
1984 Observations of light scattering functions in two oceanic areasDeep-Sea Res 31 295CrossRefGoogle Scholar
1970 Inherent optical properties of the Sargasso SeaUniv. Copenhagen Inst. Phys. Oceanogr. Rep 11 1Google Scholar
1990 Satellite-derived estimates of primary production on the northwest Atlantic continental shelfContinental Shelf Res 10 461CrossRefGoogle Scholar
2009 Mapping coloured dissolved organic matter concentration in coastal watersInt. J. Remote. Sens 30 5843CrossRefGoogle Scholar
1998 Seasonal variation in physiological parameters of phytoplankton across the North AtlanticJ. Plankton Res 20 17CrossRefGoogle Scholar
2007 Primary productivity, differential size fraction and pigment composition responses in two Southern Ocean in situ iron enrichmentsDeep-Sea Res 54 747CrossRefGoogle Scholar
1967 The vertical distribution of attached marine algae in MaltaJ. Ecol 55 361CrossRefGoogle Scholar
1972 Temperature, transparency, and phytoplankton productivity in Crater Lake, OregonLimnol. Oceanogr 17 410Google Scholar
1999 Bicarbonate uptake and ultilization in marine macroalgaeEur. J. Phycol 34 79CrossRefGoogle Scholar
1997 Photosynthetic carbon ultilization by (Chlorophyta) from a Swedish rockpoolEur. J. Phycol 32 49CrossRefGoogle Scholar
1992 Microalgal photosynthesis and spectral scalar irradiance in coastal marine sediments of Limfjorden, DenmarkLimnol. Oceanogr 37 760CrossRefGoogle Scholar
1986 Use of Thematic Mapper data to assess water quality in Green Bay and central Lake MichiganPhotogramm. Eng. Remote Sens 52 671Google Scholar
1989 Monitoring water quality and river plume transport in Green Bay, Lake Michigan with SPOT-l imageryPhotogramm. Eng. Remote Sens 55 349Google Scholar
1959 Selective scattering of light by pigmentsin vivo. Arch. Biochem. Biophys 84 428CrossRefGoogle ScholarPubMed
2000 Attenuation of ultraviolet radiation in mountain lakes: factors controlling the among- and within-lake variabilityLimnol. Oceanogr 45 1274CrossRefGoogle Scholar
1993 Water quality monitoring in estuarine waters using the Landsat Thematic MapperRemote Sens. Environ 46 268CrossRefGoogle Scholar
1996 Spectral absorption and fluorescence excitation properties of phytoplanktonic populations at a mesotrophic and an oligotrophic site in the tropical North Atlantic (EUMELI program)Deep-Sea Res 43 1215CrossRefGoogle Scholar
2003 Primary production, new production, and growth rate in the equatorial Pacific: changes from mesotrophic to oligotrophic regimeJ. Geophys. Res 108 C128141CrossRefGoogle Scholar
1980 The Functioning of Freshwater EcosystemsCambridgeCambridge University Press
2000 Analysis of a point-source integrating-cavity absorption meterAppl. Opt 39 6118CrossRefGoogle ScholarPubMed
2003 Climatic control of ultraviolet radiation effects on lakesLimnol. Oceanogr 48 2062CrossRefGoogle Scholar
2005 A seasonal study of diatom dynamics in the North Atlantic during the POMME experiment (2001): evidence for Si limitation of the spring bloomJ. Geophys. Res 110CrossRefGoogle Scholar
2003 A new method for the measurement of the optical volume scattering coefficient in the upper oceanJ. Atmos. Ocean. Technol 20 5632.0.CO;2>CrossRefGoogle Scholar
2006 Remote Sensing of Inherent Optical Properties: Fundamental Testing of Algorithms and ApplicationsIOCCG. DartmouthNova Scotia
2002 Deriving inherent optical properties from water color: a multiband quasi-analytical algorithm for optically deep watersAppl. Opt 41 5755CrossRefGoogle ScholarPubMed
2005 Diffuse attenuation coefficient of downwelling irradiance: an evaluation of remote sensing methodsJ. Geophys. Res 110 C02017Google Scholar
2005 A model for the diffuse attenuation coefficient of downwelling irradianceJ. Geophys. Res 110 C02016Google Scholar
2007 Euphotic zone depth: its derivation and implication to ocean-color remote sensingJ. Geophys. Res 112 C03009Google Scholar
2002 Dinoflagellate symbioses: strategies and adaptations for the acquisition and fixation of inorganic carbonFunct. Plant Biol 29 309CrossRefGoogle Scholar
1981 Photosynthesis of zooxanthellae in corals of different depthsSoviet Plant Physiol 27 863Google Scholar
1988 Effects of light and temperature on photosynthesis of the nuisance alga (L.). Kutz from Green Bay, MichiganNew Phytol 109 53CrossRefGoogle Scholar
1991 Inorganic carbon limitation of photosynthesis in (Chlorophyta)J. Phycol 27 667CrossRefGoogle Scholar
1980
1959 Submarine illumination and vertical distribution of algal vegetationProc. 9th Int. Bot. Congr183CanadaUniversity of Toronto PressGoogle Scholar
1966 Submarine light and algal shore zonationLight as an Ecological Factor305OxfordBlackwellGoogle Scholar
1968 Photosynthesis of some marine algae in clear, tropical oceanic waterBot. Mar 11 72CrossRefGoogle Scholar
1988 Light acclimation in (Rhodophyta): growth, photosynthesis and phycobilisomesJ. Phycol 24 452Google Scholar
1984 Turbulent motions may control phytoplankton photosynthesis in the upper oceanNature 311 49CrossRefGoogle Scholar
1985 Measuring photosynthetic action spectra of natural phytoplankton populationsJ. Phycol 21 310CrossRefGoogle Scholar
1985 Absorption and photosynthetic action spectra for natural phytoplankton populations: implications for production in the open seaLimnol. Oceanogr 30 794CrossRefGoogle Scholar
1977 Dissolved organic carbon in some dark Venezuelan waters and a revised equation for spectrophotometric determination of dissolved organic carbonArch. Hydrobiol 79 441Google Scholar
1980 Effects of chromatic adaptation on the photochemical apparatus of photosynthesis in Plant Physiol 65 714CrossRefGoogle Scholar
1982 Absolute absorption cross-sections for photosystem II and the minimum quantum requirement for photosynthesis in Biochim. Biphys. Acta 680 95CrossRefGoogle Scholar
1986 Experimental approaches to field measurements: methods and interpretation251Can. Bull. Fish Aquat. Sci 214Google Scholar
1995 Immunological and ultrastructural characterization of the photosynthetic complexes of the prochlorophyte (Oxychlorobacteria)J. Phycol 31 934CrossRefGoogle Scholar
2001 Photosynthetic characteristics of sub-tidal benthic microalgal populations from a temperate, shallow water marine ecosystemAquat. Bot 70 9CrossRefGoogle Scholar
2008 Transmission and absorption of solar radiation by Arctic sea ice during the melt seasonJ. Geophys. Res 113 C03023CrossRefGoogle Scholar
1997 Rubisco of is redistributed between the pyrenoid and the stroma as a light/shade responseMar. Biol 127 521CrossRefGoogle Scholar
1977 Seagrass vegetation of Sinai and IsraelSeagrass Ecosystems263New YorkMarcel DekkerGoogle Scholar
1979 Quantitative aspects of sea grass communities particularly of those dominated by , in Sinai (northern Red Sea)Aquat. Bot 7 119CrossRefGoogle Scholar
1999 Visible and near-ultraviolet absorption spectrum of liquid waterAppl. Opt 38 1216CrossRefGoogle ScholarPubMed
1985 Deepest known plant life discovered on an uncharted seamountScience 227 57CrossRefGoogle ScholarPubMed
1986 Deepwater plant communities from an uncharted seamount off San Salvador Island, Bahamas: distribution, abundance, and primary productivityDeep-Sea Res 33 881CrossRefGoogle Scholar
2004 Crystal structure of spinach major light-harvesting complex at 2.72 Å resolutionNature 428 287CrossRefGoogle ScholarPubMed
2003 A temporal study of mycosporine-like amino acids in surface water phytoplankton from the English channel and correlation with solar irradiationJ. Mar. Biol. Ass. U.K 83 1CrossRefGoogle Scholar
1982 Photosynthesis and pigments influenced by light intensity and salinity in the halophile (Chlorophyta)J. Mar. BioI. Ass. U.K 62 493CrossRefGoogle Scholar
2001 Non-isotropy of the upward radiance field in typical coastal (Case 2) watersInt. J. Remote Sens 22 275CrossRefGoogle Scholar
2008 Variability in factors causing light attenuation in Lake VictoriaFreshwater Biol 53 535CrossRefGoogle Scholar
1995 An estimate of global primary production from satellite radiometer dataJ. Plankton Res 17 1245CrossRefGoogle Scholar
1990 Effects of light quality on chlorophyll and biliprotein accumulation in seaweedsMar. Biol 104 321CrossRefGoogle Scholar
1968 Carbon/chlorophyll relationships in an upwelling areaLimnol. Oceanogr 13 202CrossRefGoogle Scholar
2004 Photosynthesis and light regime in the Azores Front region during summer: are light-saturated computations of primary production sufficient?Deep-Sea Res 51 1229CrossRefGoogle Scholar
1977 The primary productivity of submerged macrophytes in West Blue Lake, ManitobaCan. J. Bot 55 118CrossRefGoogle Scholar
1971 Seasonal growth of under recorded underwater light conditions near HeligolandFourth European Mar. Biology Symposium347CambridgeCambridge University PressGoogle Scholar
1979 Continuous underwater light measurement near Helgoland (North Sea) and its significance for characteristic light limits in the sublittoral regionHelgoländer Wiss. Meeresunters 32 403CrossRefGoogle Scholar
2004 Diffuse attenuation coefficients Kd(PAR) at the estuarine North Sea-Baltic Sea transition: time-series, partitioning, absorption and scatteringEstuar. Coast. Shelf Sci 61 251CrossRefGoogle Scholar
1981 Predation, enrichment and phytoplankton community structureLimnol. Oceanogr 26 86CrossRefGoogle Scholar
1990 Exogenous sources of inorganic carbon for photosynthesis by marine macroalgaeJ. Phycol 26 439CrossRefGoogle Scholar
2002 Freshwater angiosperm carbon concentrating mechanisms: processes and patternsFunct. Plant Biol 29 393CrossRefGoogle Scholar
1988 Seasonal changes in the standing crop and chlorophyll content of Banks ex König and its epiphytes in the northern Gulf of MexicoAquat. Bot 31 277CrossRefGoogle Scholar
1983 Phycocyanin 612: a biochemical and photo physical studyBiochemistry 22 5568CrossRefGoogle Scholar
1983 Phycocyanin 645: the chromophore assay of phycocyanin 645 from the cryptomonad speciesJ. Biol. Chem 258 14327Google ScholarPubMed
1983 Chromatographic and spectroscopic analysis of phycoerythrin 545 and its subunitsArch. Mikrobiol 135 194CrossRefGoogle Scholar
1993 Effects of water velocity on photosynthesis and dark respiration in submerged stream macrophytesPlant Cell Environ 16 317CrossRefGoogle Scholar
2002 Carbon acquisition and carbon dynamics by aquatic isoetidsAquat. Bot 73 351CrossRefGoogle Scholar
1998 Theoretical developments on the optical properties of highly turbid waters and sea iceLimnol. Oceanogr 43 29Google Scholar
1997 Instruments and methods for measuring the backward-scattering coefficient of ocean watersAppl. Opt 36 6057CrossRefGoogle ScholarPubMed
1993 The average cosine due to an isotropic light source in the oceanJ. Geophys. Res 100 13179CrossRefGoogle Scholar
1998 Theory and measurements of the complete beam spread function of sea iceLimnol. Oceanogr 43 36CrossRefGoogle Scholar
1997 Regulation and localization of key enzymes during the induction of Kranz-less, C4-type photosynthesis inHydrilla verticillata. Plant Physiol 115 1681CrossRefGoogle Scholar
1990 The uniqueness of humic substances in each of soil, stream and marine environmentsAnalyt. Chim. Acta 232 19CrossRefGoogle Scholar
1997 Algal production of dimethyl sulfide and its atmospheric roleJ. Phycol 33 889CrossRefGoogle Scholar
1992 Effects of variable irradiance on phytoplankton productivity in shallow estuariesLimnol. Oceanogr 37 54CrossRefGoogle Scholar
1977 Environmental regulation of phytoplankton productivity in the lower Hudson estuaryEstuar. Coast. Mar. Sci 5 157CrossRefGoogle Scholar
1977 Light-saturated photosynthesis by phytoplankton size fractions in the New York Bight, U.S.AMar. Biol 42 281CrossRefGoogle Scholar
1982 Phytoplankton photosynthesis and carbon specific growth: light-saturated rates in a nutrient-rich environmentLimnol. Oceanogr 27 226CrossRefGoogle Scholar
1981 Parameters of light-dependent photosynthesis for phytoplankton size fractions in temperate estuarine and coastal environmentsMar. Biol 61 289CrossRefGoogle Scholar
2003 Vertical heterogeneity in physiological characteristics of spp. matsMar. Biol 143 1029CrossRefGoogle Scholar
1972 Ecological energetics of the seaweed zone in a marine bay on the Atlantic coast of Canada. II. Productivity of the seaweedsMar. Biol 14 199Google Scholar
1975 Primary production of marine macrophytesPhotosynthesis and Productivity in Different Environments207CambridgeCambridge University PressGoogle Scholar
1986 Cyanobacterial acclimation to Photosystem I or Photosystem II lightPlant Physiol 82 185CrossRefGoogle ScholarPubMed
1976 Sea depth effects on the algal photosynthetic apparatus. IV. Observations on the photosynthetic apparatus of (Siphonales) at sea depths between 7 and 16 mMem. Biol. Mar. Ocean 6 197Google Scholar
2000 Determination of the fluorescence quantum yield by oceanic phytoplankton in their natural habitatAppl. Opt 39 6275CrossRefGoogle ScholarPubMed
2002 Optimization of a semianalytical ocean color model for global-scale applicationsAppl. Opt 41 2705CrossRefGoogle ScholarPubMed
1978 Phytoplankton photosynthetic response to vertical movement in a mixed layerMar. Biol 46 203CrossRefGoogle Scholar
2007 Phytoplankton pigment absorption: a strong predictor of primary productivity in the surface oceanDeep-Sea Res 54 155CrossRefGoogle Scholar
1990 Raman scattering and in-water ocean optical propertiesAppl. Opt 29 71CrossRefGoogle ScholarPubMed
1989 General patterns in the seasonal development of chlorophyll for temperate lakesLimnol. Oceanogr 34 856CrossRefGoogle Scholar
1994 Testing the iron hypothesis in ecosystems of the equatorial Pacific OceanNature 371 123CrossRefGoogle Scholar
1987 Quantitative in vivo absorption spectra of phytoplankton: detrital absorption and comparison with fluorescence excitation spectraLimnol. Oceanogr 32 620CrossRefGoogle Scholar
2001 Photosystem II electron transport rates and oxygen production in natural waterblooms of freshwater cyanobacteria during a diel cycleJ. Plankton Res 23 57CrossRefGoogle Scholar
1979 Vertical distribution and longevity of subtidal seaweeds in northern New England, U.S.ABot. Mar 30 511Google Scholar
1975 Physiological studies of subtidal red algaeJ. Exp. Mar. Biol. Ecol 20 237CrossRefGoogle Scholar
1981 Primary processes of photosynthesisThe Biochemistry of Plants97New YorkAcademic PressGoogle Scholar
2009 Phytoplankton community adaptation to changing light levels in the southern Beaufort Sea, Canadian ArcticEstuar. Coast. Shelf Sci 82 537CrossRefGoogle Scholar
1967 A preliminary list of sublittoral marine algae from the west of ScotlandBr. Phycol. Bull 3 175CrossRefGoogle Scholar
2008 Expression and inhibition of the carboxylating and decarboxylating enzymes in the photosynthetic C4 pathway of marine diatomsPlant Physiol 146 300CrossRefGoogle ScholarPubMed
2001 Macroalgal blooms contribute to the decline of seagrass in nutrient-enriched coastal watersJ. Phycol 37 453CrossRefGoogle Scholar
2005 Evidence for wavelength dependence of the scattering phase function and its implication for modeling radiance transfer in shelf seasAppl. Opt 44 126CrossRefGoogle ScholarPubMed
2006 Identification and characterisation of two optical water types in the Irish Sea from in situ inherent optical properties and seawater constituentsEstuar. Coast. Shelf Sci 68 305CrossRefGoogle Scholar
2003 Estimation of absorption and backscattering coefficients from in situ radiometric measurements: theory and validation in case II watersAppl. Opt 42 2804CrossRefGoogle ScholarPubMed
2007 Optical water type discrimination and tuning remote sensing band-ratio algorithms: application to retrieval of chlorophyll and Kd(490) in the Irish and Celtic SeasEstuar. Coast. Shelf Sci 73 827CrossRefGoogle Scholar
2002 Optical and hydrographic consequences of freshwater run-off during spring phytoplankton growth in a Scottish fjordJ. Plankton Res 24 1163CrossRefGoogle Scholar
2003 Inherent and apparent optical properties in coastal waters: a study of the Clyde Sea in early summerEstuar. Coast. Shelf Sci 56 369CrossRefGoogle Scholar
2007 Potential impacts of nonalgal materials on water-leaving Sun-induced chlorophyll fluorescence signals in coastal watersAppl. Opt 46 7720CrossRefGoogle ScholarPubMed
2001 Spectrofluorometric characterization of dissolved organic matter for indication of precursor organic material and aromaticityLimnol. Oceanogr 46 38CrossRefGoogle Scholar
1992 Phytoplankton biomass, light attenuation and mixing in the Shannon estuaryJ. Mar. Biol. Ass. U.K 72 709CrossRefGoogle Scholar
2004 Marine planktonic ciliates that prey on macroalgae and enslave their chloroplastsLimnol. Oceanogr 49 308CrossRefGoogle Scholar
1980 Applied aspects of seagrassesHandbook of Seagrass Biology297New YorkGarland STPM PressGoogle Scholar
1971 Effect of nitrogen supply and light intensity during growth on the photosynthetic capacity and carboxydismutase activity of leaves of spphastata. Carnegie Inst. Wash. Yearbook 70 551Google Scholar
1979 Attenuation of light and daily integral rates of photosynthesis attained by planktonic algaeLimnol. Oceanogr 24 1038CrossRefGoogle Scholar
1979 Photosynthesis and growth of (Cyanophyta) in an equatorial lake (Lake Simbi, Kenya)Limnol. Oceanogr 24 753CrossRefGoogle Scholar
1981 Photosynthetic activity of phytoplankton in tropical African soda lakesHydrobiologia 81 71CrossRefGoogle Scholar
2006 Analysis of estuarine colour components during non-monsoon period through Ocean Colour MonitorEstuar. Coast. Shelf Sci 66 523CrossRefGoogle Scholar
1999 Selective feeding on natural phytoplankton by before, during and after the 1997 spring bloom in the Norwegian SeaLimnol. Oceanogr 44 154CrossRefGoogle Scholar
1986 Molecular evidence for a terrestrial component of organic matter dissolved in ocean waterNature 321 61CrossRefGoogle Scholar
1908 Beiträge zur Optik trüber Medien, speziell kolloidalen Metall-losungenAnn. Phys 25 377CrossRefGoogle Scholar
1997 Modeling the vertical distribution of chlorophyll in the California Current SystemJ. Geophys. Res 102 8587CrossRefGoogle Scholar
2004 Using MODIS Terra 250 m imagery to map concentrations of total suspended matter in coastal watersRemote Sens. Environ 93 259CrossRefGoogle Scholar
2002 Determination of apparent quantum yield spectra for the formation of biologically labile productsLimnol. Oceanogr 47 343CrossRefGoogle Scholar
1999 The importance of understanding the molecular, cellular, and ecophysiological bases of harmful algal bloomsJ. Phycol 35 1353CrossRefGoogle Scholar
1999 Fluorescence properties of chlorophyll -dominating prokaryotic alga, : studies using time-resolved fluorescence spectroscopy on intact cellsBiochim. Biophys. Acta 1412 37CrossRefGoogle ScholarPubMed
2000 Uphill energy transfer in a chlorophyll -dominating oxygenic photosynthetic prokaryoteAcaryochloris marina. Biochim. Biophys. Acta 1456 27CrossRefGoogle Scholar
2003 Antenna systems and energy transfer in Cyanophyta and RhodophytaLight-Harvesting Antennas in Photosynthesis. Advances in Photosynthesis and Respiration 13 281SpringerDordrechtCrossRefGoogle Scholar
1980 Kinetic evidence for a common photosynthetic step in diverse seaweedsMar. Biol 58 89Google Scholar
2004 Vertical migratory rhythms of benthic diatoms in a tropical intertidal sand flat: influence of irradiance and tidesMar. Biol 145 9CrossRefGoogle Scholar
1990 Algorithms for determining the absorption coefficients of aquatic particulates using the quantitative fiber technique (QFT)SPIE Ocean Optics X 1302 137CrossRefGoogle Scholar
1991 Light limitation of phytoplankton biomass and macronutrient utilization in the Southern OceanLimnol. Oceanogr 36 1662CrossRefGoogle Scholar
1991 Bio-optical properties of Antarctic Peninsula waters: differentiation from temperate ocean modelsDeep-Sea Res 38 1009CrossRefGoogle Scholar
1991 Observations and modelling of the Antarctic phytoplankton crop in relation to mixing depthDeep-Sea Res 38 981CrossRefGoogle Scholar
1988 Chlorophyll specific absorption and fluorescence excitation spectra for light-limited phytoplanktonDeep-Sea Res 35 639CrossRefGoogle Scholar
1986 Ocean colour algorithms from the Case 2 waters of the Irish Sea in comparison to algorithms from Case 1 watersContinental Shelf Res 5 403CrossRefGoogle Scholar
1992 Determination of chlorophyll of inland waters on the basis of spectral reflectanceLimnol. Oceanogr 37 147CrossRefGoogle Scholar
1997 Pigment composition of a novel oxygenic photosynthetic prokaryote containing chlorophyll as the major chlorophyllPlant Cell Physiol 38 274CrossRefGoogle Scholar
1989 A numerical model for the computation of radiance distribution in natural waters with wind-roughened surfacesLimnol. Oceanogr 34 1473CrossRefGoogle Scholar
http://modis.gsfc.nasa.gov
1978 Colour, ultraviolet absorbance and salinity of the surface waters off the west coast of IrelandNature 274 782CrossRefGoogle Scholar
1997 Seasonal phytoplankton dynamics in the eastern tropical AtlanticJ. Geophys. Res 102 12389CrossRefGoogle Scholar
1976 Pigment changes and photosynthetic rates under selected wavelengths in the growing tips of (C. Agardh) J. Agardh var Cheney during vegetative growthBr. Phycol. J 11 165CrossRefGoogle Scholar
2000 Phytoplankton chlorophyll distributions and primary production in the Southern OceanJ. Geophys. Res 105 28709CrossRefGoogle Scholar
1991 Photochemical degradation of dissolved organic carbon and its impact on the oceanic carbon cycleNature 353 60CrossRefGoogle Scholar
1994 Dissolved humic substances of vascular plant origin in a coastal marine environmentLimnol. Oceanogr 39 762CrossRefGoogle Scholar
1992 Evaluation of simplified procedures for retrieval of land surface reflectance factors from satellite sensor outputRemote Sens. Environ 41 169CrossRefGoogle Scholar
1966 Etude experimentale de la diffusion de la lumiere par l'eau, les solutions de chlorure de sodium et leau de mer optiquement puresJ. Chim. Phys 10 1359CrossRefGoogle Scholar
1973 Diffusion de la lumiere par les eaux de mer. Resultats experimentaux et approche theoriqueOptics of the Sea3.1Neuilly-sur-SeineNATOGoogle Scholar
1974 Optical properties of pure water and pure seawaterOptical Aspects of Oceanography1LondonAcademic PressGoogle Scholar
1978 Available, usable and stored radiant energy in relation to marine photosynthesisDeep-Sea Res 25 673CrossRefGoogle Scholar
1980 In-water and remote measurement of ocean colourBoundary-layer Meteorol 18 177CrossRefGoogle Scholar
1982 Optical properties and radiant energy in the waters of the Guinea dome and of the Mauritanian upwelling area: relation to primary productionRapp. P. V. Reun. Cons. Int. Explor. Mer 180 94Google Scholar
1987 Chlorophyll-specific scattering coefficient of phytoplankton. A simplified theoretical approachDeep-Sea Res 34 1093CrossRefGoogle Scholar
1991 Light and marine photosynthesis: a spectral model with geochemical and climatological implicationsProg. Oceanog 26 263CrossRefGoogle Scholar
1993 and : a comparative study of their optical properties in relation to their size and pigmentationJ. Mar. Res 51 617CrossRefGoogle Scholar
1989 Surface pigments, algal biomass profiles, and potential production of the euphotic layer: relationships reinvestigated in view of remote-sensing applicationsLimnol. Oceanogr 34 1545CrossRefGoogle Scholar
1981 Theoretical results concerning light absorption in a discrete medium, and application to specific absorption of phytoplanktonDeep-Sea Res 28 1375CrossRefGoogle Scholar
1986 Inherent optical properties of algal cells including picoplankton: theoretical and experimental results. In T. Platt & W. K. W. Li (eds), Photosynthetic picoplankton (pp. 521–59)Can. Bull. Fish. Aquat. Sci 214Google Scholar
1991 Diffuse reflectance of oceanic waters: its dependence on sun angle as influenced by the molecular scattering contributionAppl. Opt 30 4427CrossRefGoogle Scholar
1993 Diffuse reflectance of oceanic waters. II. Bidirectional aspectsAppl. Opt 32 6864CrossRefGoogle ScholarPubMed
1996 Diffuse reflectance of oceanic waters. III. Implication of bidirectionality for the remote-sensing problemAppl. Opt 35 4850CrossRefGoogle ScholarPubMed
2006 Bio-optical properties of high chlorophyll Case 1 waters and of yellow-substance-dominated Case 2 watersDeep-Sea Res 53 1439CrossRefGoogle Scholar
2007 Examining the consistency of products derived from various ocean color sensors in open ocean (Case 1) waters in the perspective of a multi-sensor approachRemote Sens. Environ 111 69CrossRefGoogle Scholar
1987 Growth rate and quantum yield time response for a diatom to changing irradiances (energy and colour)Limnol. Oceanogr 32 1066CrossRefGoogle Scholar
1975 Analyse spectrale des coefficients d'attenuation diffuse, de reflection diffuse, d'absorption et de retrodiffusion pour diverses regions marinesLaboratoire dOceanographie PhysiqueVillefranche-sur-MerGoogle Scholar
1974 Relation between total quanta and total energy for aquatic photosynthesisLimnol. Oceanogr 19 591CrossRefGoogle Scholar
1999 Role of pyrenoids in the CO2-concentrating mechanism: comparative morphology, physiology and molecular phylogenetic analysis of closely related strains of and (Volvocales)Planta 208 365CrossRefGoogle Scholar
1971 Photosynthetic rates, gross patterns of carbon dioxide assimilation and activities of ribulose diphosphate carboxylase in marine algae grown at different temperaturesPhysiol. Plant 25 372CrossRefGoogle Scholar
2004 Seasonal cycle of phytoplankton UV absorption at the Bermuda Atlantic Time-series Study (BATS) siteLimnol. Oceanogr 49 215CrossRefGoogle Scholar
2003 In situ determination of the quantum yield of phytoplankton chlorophyll fluorescence: a simple algorithm, observations, and a modelLimnol. Oceanogr 48 618CrossRefGoogle Scholar
1989 A two-component description of spectral absorption by marine particlesLimnol. Oceanogr 34 1500CrossRefGoogle Scholar
1994 Determination of phytoplankton crops by top-down and bottom-up mechanisms in a group of English lakes, the West Midland meresLimnol. Oceanogr 39 1020CrossRefGoogle Scholar
2000 11 NASA Goddard Space Flight CenterGreenbelt, Maryland24
1979 Landsat test of diffuse reflectance models for aquatic suspended solids measurementRemote Sens. Env 8 169CrossRefGoogle Scholar
1988 Inorganic carbon uptake by a small-celled strain ofStichococcus bacillaris. Planta 175 460Google Scholar
1990 The role of symbiotic algae in carbon and energy flux in reef coralsCoral Reefs75AmsterdamElsevierGoogle Scholar
2009 Flow-through integrating cavity absorption meter: experimental resultsAppl. Opt 48 3596CrossRefGoogle ScholarPubMed
1971 The photosynthetic unit in measured by repetitive short flashesPlant Physiol 48 282CrossRefGoogle ScholarPubMed
2002 Quantification of surface suspended sediments along a river dominated coast with NOAA AVHRR and SeaWiFS measurements: Louisiana, USAInt. J. Remote Sens 23 3229CrossRefGoogle Scholar
1976 Chlorophyll and peptide compositions in the two photosystems of marine green algaeBiochim. Biophys. Acta 423 227CrossRefGoogle ScholarPubMed
1986 Pigment composition of chlorophyll-protein complexes isolated from the green algaBryopsis maxima. Plant Cell Physiol 27 311Google Scholar
1987
2000 SeaWiFS Postlaunch Technical Report Series 11
1987 Algal photo inhibition and photosynthesis in the aquatic environmentPhotoinhibition39AmsterdamElsevierGoogle Scholar
1998 Ultraviolet sunscreens in (Dinophyceae): mycosporine-like amino acids protect against inhibition of photosynthesisJ. Phycol 34 928CrossRefGoogle Scholar
1986 Algal photosynthetic membrane complexes and the photosynthesis-irradiance curve: a comparison of light-adaptation responses in (Chlorophyta)J. Phycol 22 531CrossRefGoogle Scholar
1995 Particulate and dissolved spectral absorption on the continental shelf of the southeastern United StatesJ. Geophys. Res 100 8715CrossRefGoogle Scholar
1990 Chromatic light effects and physiological modelling of absorption properties of (= sp.)Mar. Ecol. Prog. Ser 63 37CrossRefGoogle Scholar
2007 Hydrography of chromophoric dissolved organic matter in the North AtlanticDeep-Sea Res 54 710CrossRefGoogle Scholar
2006 Structure and function of photosystems I and IIAnn. Rev. Plant Biol 57 521CrossRefGoogle ScholarPubMed
2002 Assessment of a microscopic photobleaching technique for measuring the spectral absorption efficiency of individual phytoplankton cellsJ. Plankton Res 24 741CrossRefGoogle Scholar
1982 Estimation of the chlorophyll concentration from measurements of the colour index in different regions of the oceanOceanology 22 280Google Scholar
1977 Passive remote sensing of phytoplankton via chlorophyll fluorescenceJ. Geophys. Res 82 3487CrossRefGoogle Scholar
2007 Primary production and spatial distribution of subtidal microphytobenthos in a temperate coastal system, the Bay of Brest, FranceEstuar. Coast. Shelf Sci 74 367CrossRefGoogle Scholar
2006 CO2 uptake patterns depend on water current velocity and shoot morphology in submerged stream macrophytesFreshwater Biol 51 1331CrossRefGoogle Scholar
2002 Deep chlorophyll- maximum at one station in the middle Adriatic SeaJ. Mar. Biol. Ass. U.K 82 9Google Scholar
1985 Factors influencing inorganic turbidity in a Great Plains reservoirHydrobiologia 123 109CrossRefGoogle Scholar
2005 Submerged macrophytes, zooplankton and the predominance of low- over high-chlorophyll states in western boreal, shallow-water wetlandsFreshwater Biol 50 868CrossRefGoogle Scholar
1968 Underwater observations on the vertical distribution of algae at St. Mary's, Isles of ScillyBr. Phycol. Bull 3 585CrossRefGoogle Scholar
1977 The ecology of Lough Ine. XX. The Laminaria forest at CarrigathornaJ. Ecol 65 919CrossRefGoogle Scholar
1989 The effect of sediment type on the relationship between reflectance and suspended sediment concentrationInt. J. Remote Sens 10 1283CrossRefGoogle Scholar
1979 Occurrence and biological role of light-induced chromatophore displacements in seaweedsMar. Biol 51 77CrossRefGoogle Scholar
1976 Algal biliproteins and phycobilinsChemistry and Biochemistry of Plant Pigments328LondonAcademic PressGoogle Scholar
2007 Phytoplankton primary productivity characteristics in response to photosynthetically active radiation in three Kenyan Rift Valley saline-alkaline lakesJ. Plankton Res 29 1041CrossRefGoogle Scholar
1988 Changes in accumulation and synthesis of transcripts encoding phycobilisome components during acclimation of to different light qualitiesPlant Physiol 88 1077CrossRefGoogle ScholarPubMed
1981 Suspended-sediment distribution and certain aspects of phytoplankton production off Georgia, U.S.AMar. Geol 40 171CrossRefGoogle Scholar
1992 Photoregulation of phycobilisome structure during complementary chromatic adaptation in the marine cyanophyte sp. C86J. Phycol 28 803CrossRefGoogle Scholar
1985 Constant phycobilisome size in chromatically adapted cells of the cyanobacterium , and variation in spPlant Physiol 79 943CrossRefGoogle ScholarPubMed
1990 Significant relationship between the backward scattering coefficient of sea water and the scatterance at 120°Appl. Opt 29 4658CrossRefGoogle ScholarPubMed
1982 Chloroplast pigments in selected marine Chaetophoraceae and Chaetosiphonaceae (Chlorophyta): the occurrence and significance of siphonaxanthinBot. Mar 25 133CrossRefGoogle Scholar
2007 Parameterization of the inherent optical properties of Murchison Bay, Lake VictoriaAppl. Opt 46 8553CrossRefGoogle ScholarPubMed
1990 Optical properties of waters in the Murray-Darling basin, South-eastern AustraliaAust. J. Mar. Freshwater Res 41 581CrossRefGoogle Scholar
1991 Distribution of phytoplankton pigments in the North Pacific Ocean in relation to physical and optical variabilityDeep-Sea Res 38 243CrossRefGoogle Scholar
1984 An unusual phycoerythrin from a marine cyanobacteriumScience 224 80CrossRefGoogle ScholarPubMed
1994 Seagrasses, dredging and light in Laguna Madre, Texas, U.S.AEstuar. Coast. Shelf Sci 39 75CrossRefGoogle Scholar
1980 Relationships between oceanic epizooplankton distribution and the seasonal deep chlorophyll maximum in the northwestern Atlantic OceanJ. Mar. Res 3 507Google Scholar
2009 Increases in the longwave photobleaching of chromophoric dissolved organic matter in coastal watersLimnol. Oceanogr 54 145CrossRefGoogle Scholar
2001 Calculation of spectral weighting functions for the solar photobleaching of chromophoric dissolved organic matter in temperate lakesLimnol. Oceanogr 46 1455CrossRefGoogle Scholar
2006 Using inherent optical properties to investigate biogeochemical dynamics in a tropical macrotidal coastal systemJ. Geophys. Res 111 C07021CrossRefGoogle Scholar
2002 Annual primary production in Narragansett Bay with no Bay-wide winter–spring phytoplankton bloomEstuar. Coast. Shelf Sci 54 1013CrossRefGoogle Scholar
1992 Episodic atmospheric nitrogen deposition to oligotrophic oceansNature 357 397CrossRefGoogle Scholar
1964 A tracer study of the inorganic carbon uptake during coccolith formation and photosynthesis in the coccolithophoridCoccolithus huxleyi. Physiol. Plant 3 1Google Scholar
2008 Primary production in the Arctic Ocean, 1998–2006J. Geophys. Res 113 C08005CrossRefGoogle Scholar
1983 Carotenoid enhancement and its role in maintaining blue-green algal surface bloomsLimnol. Oceanogr 28 847CrossRefGoogle Scholar
1982 Blue-green algal scums: an explanation for their occurrence during freshwater bloomsLimnol. Oceanogr 27 212CrossRefGoogle Scholar
1974 Optical properties of water in the near infraredJ. Opt. Soc. Amer 64 1107CrossRefGoogle Scholar
1985 Photosynthesis-irradiance relationships in sea ice microalgae from McMurdo Sound, AntarcticaJ. Phycol 21 341CrossRefGoogle Scholar
1986 Inorganic carbon uptake by the marine diatomPhaeodactylum tricornutum. Planta 169 222Google ScholarPubMed
1998 Microbiological mediation of spectral reflectance from intertidal cohesive sedimentsLimnol. Oceanogr 43 1207CrossRefGoogle Scholar
1979 Expansion of a Central California kelp forest following the mass mortality of sea urchinsMar. Biol 51 83CrossRefGoogle Scholar
1993 Temperature-dependent absorption of water in the red and near-infrared portions of the spectrumLimnol. Oceanogr 38 188Google Scholar
1986 Phytoplankton pigment patterns in the California Current as determined by satelliteLimnol. Oceanogr 31 927CrossRefGoogle Scholar
1978 Estimation of the concentration of suspension and chlorophyll in the sea from the spectrum of outgoing radiation measured from a helicopterOceanology 18 278Google Scholar
1977 On the optical classification of ocean waters from the spectral attenuation of solar radiationOceanology 17 28Google Scholar
1985 Chlorophyll distribution in the Delaware estuary: regulation by light limitationEstuar. Coast. Shelf Sci 21 711CrossRefGoogle Scholar
2006 Vertical distribution of phytoplankton biomass, production and growth in the Atlantic subtropical gyresDeep-Sea Res 53 1616CrossRefGoogle Scholar
2005 Seasonal and inter-annual variability of chlorophyll and primary production in the Equatorial Atlantic: in situ and remote sensing observationsJ. Plankton Res 27 189CrossRefGoogle Scholar
1981 Water-depth effects in photosynthetic pigment content of the benthic algae andUdotea petiolata. Aquat. Bot 11 373CrossRefGoogle Scholar
1997 Fate of primary production in oceanic meadows of the MediterraneanAquat. Bot 59 307CrossRefGoogle Scholar
1960 The diurnal rhythm of the littoral diatoms of the river Eden estuary, FifeJ. Ecol 48 725CrossRefGoogle Scholar
1989 Determination of the cross-section absorption coefficient of individual phytoplankton cells by analytical flow cytometryLimnol. Oceanogr 34 1727CrossRefGoogle Scholar
2008 Seaglider observations of blooms and subsurface chlorophyll maxima off the Washington coastLimnol. Oceanogr 53 2169CrossRefGoogle Scholar
1981 Photoadaptation in marine phytoplankton: response of the photosynthetic unitMar. Biol 62 91CrossRefGoogle Scholar
1987 Phytoplankton productivity in relation to light intensity: a simple equationEstuar. Coast. Shelf Sci 24 813CrossRefGoogle Scholar
1972 Volume Scattering Functions for Selected Ocean Waters72Scripps InstOceanogrCrossRefGoogle Scholar
2002 Optical properties of Otago Shelf waters: South Island New ZealandEstuar. Coast. Shelf Sci 55 613CrossRefGoogle Scholar
1984 Study of the spectral variation of absorption and scattering in some Australian coastal watersAust. J. Mar. Freshwater Res 35 635CrossRefGoogle Scholar
1978 A mechanism to account for macrophyte decline in progressively eutrophicated freshwatersAquat. Bot 4 103CrossRefGoogle Scholar
2008 Mapping seagrass species, cover and biomass in shallow waters: an assessment of satellite multi-spectral and airborne hyper-spectral imaging systems in Moreton Bay (Australia)Remote Sens. Environ 112 3413CrossRefGoogle Scholar
2000 Light availability and variations in phytoplankton standing crops in a nutrient-rich blackwater riverLimnol. Oceanogr 45 916CrossRefGoogle Scholar
1991 The abundance and composition of freshwater picocyanobacteria in relation to light penetrationLimnol. Oceanogr 36 1457CrossRefGoogle Scholar
2008 Relationship between the attenuation of downwelling irradiance at 490 nm with the attenuation of PAR (400 nm–700 nm) in the Baltic SeaRemote Sens. Environ 112 668CrossRefGoogle Scholar
1972 Monte Carlo calculations of radiative transfer in the Earth's atmosphere–ocean system. 1. Flux in the atmosphere and oceanJ. Phys. Oceanogr 2 1392.0.CO;2>CrossRefGoogle Scholar
1969 The concept of energy efficiency in primary productionLimnol. Oceanogr 14 653CrossRefGoogle Scholar
1986 Primary production of the ocean water column as a function of surface light intensity: algorithm for remote sensingDeep-Sea Res 33 149CrossRefGoogle Scholar
1980 The relationship between photosynthesis and light for natural assemblages of coastal marine phytoplanktonJ. Mar. Res 38 687Google Scholar
1976 The relationship between photosynthesis and light for natural assemblages of coastal marine phytoplanktonJ. Phycol 12 421Google Scholar
1986 Photosynthetic picoplanktonCan. Bull. Fish. Aquat. Sci 214
1993 Estimators of primary production for interpretation of remotely sensed data on ocean colorJ. Geophys. Res 98 14561CrossRefGoogle Scholar
1988 Ocean primary production and available light: further algorithms for remote sensingDeep-Sea Res 35 855CrossRefGoogle Scholar
2008 Operational estimation of primary production at large geographical scalesRemote Sens. Environ 112 3437CrossRefGoogle Scholar
1990 Primary production by phytoplankton: analytic solutions for daily rates per unit area of water surfaceProc. R. Soc. Lond. B 241 101CrossRefGoogle Scholar
1992 Nutrient control of phytoplankton photosynthesis in the western North AtlanticNature 356 229CrossRefGoogle Scholar
1975 Primary production of marine microphytesPhotosynthesis and Productivity in Different Environments249CambridgeCambridge University PressGoogle Scholar
1945 The angular distribution of submarine daylight in deep waterSci. Proc. R. Dublin Soc 24 29Google Scholar
1929 Photoelectric measurements of submarine illumination throughout the yearJ. Mar. Biol. Ass. U.K 16 297CrossRefGoogle Scholar
1997 Absorption spectrum (380–700 nm) of pure water. II. Integrating cavity measurementsAppl. Opt 36 8710CrossRefGoogle ScholarPubMed
(1957). Exact reflectance under a cardioidal luminance distributionQ. J. Roy. Meteorol. Soc 83 540 1976CrossRefGoogle Scholar
1959 Theoretical proof of the existence of characteristic diffuse light in natural watersJ. Mar. Res 18 1Google Scholar
1961 Application of radiative transfer theory to light measurements in the seaUnion Geod. Geophys. Inst. Monogr 10 11Google Scholar
1986 Secchi disk science: visual optics of natural watersLimnol. Oceanogr 31 909CrossRefGoogle Scholar
1976 The role of peridin-chlorophyll proteins in the photosynthetic light adaptation of the marine dinoflagellate, spPlanta 130 225CrossRefGoogle Scholar
1987 Diurnal patterns of size-fractioned primary productivity across a coastal frontMar. Biol 96 563CrossRefGoogle Scholar
1976 Effects of growth irradiance on the photosynthetic action spectra of the marine dinoflagellate, spPlanta 130 251CrossRefGoogle ScholarPubMed
1977 Characterization of photosynthetic rhythms in marine dinoflagellates. I. Pigmentation, photosynthetic capacity and respirationPlant Physiol 60 384CrossRefGoogle ScholarPubMed
1986 Diurnal patterns in photosynthetic capacity and depth-dependent photosynthesis irradiance relationships in spp. and larger phytoplankton in three water masses in the Northwest Atlantic OceanMar. Biol 91 205CrossRefGoogle Scholar
1977 Characterization of photosynthetic rhythms in marine dinoflagellates. II. Photosynthesis-irradiance curves and in vivo chlorophyll fluorescencePlant Physiol 60 388CrossRefGoogle Scholar
1991 The control of the production process of phytoplankton by the physical structure of the aquatic environment with special reference to its optical propertiesAquatic Sciences 53 136CrossRefGoogle Scholar
1985 Inhibition by proton buffers of photosynthetic utilization of bicarbonate inChara corallina. Aust. J. Plant Physiol 12 257CrossRefGoogle Scholar
2002 Modes of inorganic carbon uptake in the cyanobacterium, sp. PCC 7942Funct. Plant Biol 29 131CrossRefGoogle Scholar
2008 On the relationship between carbon fixation efficiency and bio-optical characteristics of phytoplanktonJ. Plankton Res 30 43CrossRefGoogle Scholar
1971 Etude theorique du regime asymptotique: relations entre caracteristiques optiques et coefficient d'extinction relative à la penetration de la lumiere du jourCah. Oceanogr 23 35Google Scholar
2005 Rapid light curves: a powerful tool to assess photosynthetic activityAquat. Bot 82 222CrossRefGoogle Scholar
1976 Correlation of changes in pigment content with photosynthetic capacity of seaweeds as a function of depthMar. Biol 37 231CrossRefGoogle Scholar
1977 Changes in photosynthetic pigment concentration in seaweeds as a function of depthMar. Biol 37 223CrossRefGoogle Scholar
1977 Adaptation of light-harvesting pigments to downwelling light and the consequent photosynthetic performance of the eulittoral rockweeds andFucus vesiculosus. Mar. Biol 42 293CrossRefGoogle Scholar
1980 Diurnal photosynthetic performance of seaweeds measured under natural conditionsMar. Biol 56 21CrossRefGoogle Scholar
2008 Hyperspectral remote sensing of cyanobacteria in turbid productive waters using optically active pigments, chlorophyll and phycocyaninRemote Sens. Environ 112 4009CrossRefGoogle Scholar
1985 Light intensity adaptation and phycobilisome composition ofMicrocystis aeruginosa. Plant Physiol 79 983CrossRefGoogle Scholar
1983 Adaptation of the cyanobacterium to light intensityPlant Physiol 72 829CrossRefGoogle ScholarPubMed
1991 The photosynthetic and growth rate responses of two freshwater angiosperms in lakes of different trophic status: responses to light and dissolved inorganic carbonFreshwater Biol 25 399CrossRefGoogle Scholar
1970 Endogenous inorganic carbon sources in plant photosynthesisBiol. Rev 45 167CrossRefGoogle Scholar
2001 What fraction of the organic carbon in sacoglossans is obtained from photosynthesis by kleptoplastids? An investigation using the natural abundance of stable carbon isotopesMar. Biol 138 537CrossRefGoogle Scholar
1988 Effect of dissolved NaCl, MgCl2 and Na2SO4 in seawater on the optical attenuation in the region from 430 to 630 nmAppl. Opt 27 3387CrossRefGoogle Scholar
2004 The role of the C4 pathway in carbon accumulation and fixation in a marine diatomPlant Physiol 135 2106CrossRefGoogle Scholar
1988 Alternative methods of photosynthetic carbon assimilation in marine macroalgaePlant Physiol 87 686CrossRefGoogle ScholarPubMed
1995 The relative increase of larger phytoplankton in a subsurface chlorophyll maximum of the northern Adriatic SeaJ. Plankton Res 17 1535CrossRefGoogle Scholar
1977 Some responses of to light. 1. Pigmentation changes in the natural habitatBot. Gaz 138 123CrossRefGoogle Scholar
1993 The unusual light-harvesting complex of : supramolecular composition and assemblyBiochim. Biophys. Acta 1143 163CrossRefGoogle Scholar
1983 Adaptation of unicellular algae to irradiance: an analysis of strategiesNew Phytol 93 157CrossRefGoogle Scholar
1966 Magnesium 2,4-divinylphaeoporphyrin a5 monomethyl ester, a protochlorophyll-like pigment present in some unicellular flagellatesPhytochem 5 223CrossRefGoogle Scholar
1994 Biofouling control for optical backscatter sediment sensorsMar. Geol 116 255CrossRefGoogle Scholar
1993 Carbon dioxide limitation of marine phytoplankton growth ratesNature 361 249CrossRefGoogle Scholar
1977 Distribution of excitation energy amongst Photosystem I and Photosystem II in red algaeBiochim. Biophys. Acta 459 175CrossRefGoogle Scholar
1991 Evaluation of measurements and calculation of primary production in the Dogger Bank area (North Sea) in summer 1988Mar. Ecol. Prog. Ser 69 125CrossRefGoogle Scholar
1942 The relationship of vertical turbulence and spring diatom floweringsJ. Mar. Res 5 67Google Scholar
1987 Mapping of water quality in coastal waters using Airborne Thematic Mapper dataInt. J. Remote Sens 8 85CrossRefGoogle Scholar
1988 Comparison of measured suspended sediment concentrations with suspended sediment concentrations estimated from Landsat MSS dataInt. J. Remote Sens 9 379CrossRefGoogle Scholar
1991 An algorithm for estimating surface suspended sediment concentrations with Landsat MSS digital dataWater Res. Bull 27 373CrossRefGoogle Scholar
1990 The relationship of MSS and TM digital data with suspended sediments, chlorophyll and temperature in Moon Lake, MississippiRemote Sens. Environ 33 137CrossRefGoogle Scholar
1987 Using Landsat multispectral scanner data to estimate suspended sediments in Moon Lake, MississippiRemote Sens. Environ 23 65CrossRefGoogle Scholar
1976 Remote sensing of suspended sediments in surface watersPhotogramm. Eng. Rem. Sens 42 1539Google Scholar
1987 Photosynthesis and cell division by Antarctic microalgae: comparison of benthic, planktonic and ice algaeJ. Phycol 23 233CrossRefGoogle Scholar
1984 and underwater light attenuation in a hypertrophic lake (Hartbeespoort Dam, South Africa)J. Ecol 72 1001CrossRefGoogle Scholar
1995 Microalgal light-harvesting in extreme low-light environments in McMurdo Sound, AntarcticaJ. Phycol 31 508CrossRefGoogle Scholar
1995 A towed near-surface optical reflectance meter for measuring ocean colour in support of remote sensingDeep-Sea Res 42 2093CrossRefGoogle Scholar
1974 Teledetection par satellite dans l'evaluation de la qualite de l'eauVerh. Int. Verein. Limnol 19 189Google Scholar
1969 Crystallization of eutrophication concepts in Northern EuropeEutrophication: Causes, Consequences, Correctives50WashingtonNational Academy of ScienceGoogle Scholar
1979 Seasonal attenuation of quantum irradiance (400–700 nm) in three Nebraska reservoirsHydrobiologia 63 81CrossRefGoogle Scholar
1998 Theoretical and experimental approaches to improve the accuracy of particulate absorption coefficients derived from the quantitative filter techniqueLimnol. Oceanogr 43 1649CrossRefGoogle Scholar
1989 Modelling phytoplankton absorption from total absorption spectra in productive inland marine watersLimnol. Oceanogr 34 1510CrossRefGoogle Scholar
1994 High resolution vertical profiles of spectral absorption, attenuation and scattering coefficients in highly stratified watersOcean Optics XII. Proc. SPIE 2258 309CrossRefGoogle Scholar
2006 Chlorophyll- variability off Patagonia based on SeaWiFS dataJ. Geophys. Res 111 C05021CrossRefGoogle Scholar
1992 Active uptake of CO2 by the diatomNavicula pelliculosa. J. Exp. Bot 43 571CrossRefGoogle Scholar
2005 Practical test of a point-source integrating cavity absorption meter: the performance of different collector assembliesAppl. Opt 44 5549CrossRefGoogle ScholarPubMed
1965 Persistent vertical-migration rhythms in benthic microflora. IV. A diurnal rhythm of the epipelic diatom association in non-tidal flowing waterBr. Phycol. Bull 2 465CrossRefGoogle Scholar
1966 Persistent vertical-migration rhythms in benthic microflora. II. Field and laboratory studies on diatoms from the banks of the River AvonJ. Mar. Biol. Ass. U.K 46 191CrossRefGoogle Scholar
1976 Circulation observations in the Louisiana Bight using Landsat imageryRemote Sens. Env 5 55CrossRefGoogle Scholar
2008 An evaluation of algorithms for the remote sensing of cyanobacterial biomassRemote Sens. Environ 112 3996CrossRefGoogle Scholar
1956 Photosynthesis in the ocean as a function of light intensityLimnol. Oceanogr 1 61CrossRefGoogle Scholar
1957 The estimation of phytoplankton production in the ocean from chlorophyll and light dataLimnol. Oceanogr 2 281CrossRefGoogle Scholar
2008 Mapping seagrass beds using IKONOS satellite image and side scan sonar measurements: a Japanese case studyInt. J. Remote Sens 29 281CrossRefGoogle Scholar
1997 Daily course of photosynthesis and photoinhibition in (Rhodophyta) from different shore levelsEur. J. Phycol 32 363CrossRefGoogle Scholar
1966 Primary production by phytoplankton community in some Japanese lakes and its dependence on lake depthArch. Hydrobiol 62 1Google Scholar
1984 Factors governing pelagic production in polar seasMarine Phytoplankton and Productivity1New YorkSpringerGoogle Scholar
1984 Hypolimnetic phosphorus retrieval by diel vertical migrations of lake phytoplanktonFreshwater Biol 14 431CrossRefGoogle Scholar
1982 Photosynthetic and photo respiratory responses of the aerial and submerged leaves ofMyriophyllum brasiliense. Aquat. Bot 13 147CrossRefGoogle Scholar
1983 Two photosynthetic mechanisms mediating the low photorespiratory state in submersed aquatic angiospermsPlant Physiol 73 488CrossRefGoogle Scholar
1977 A method for studying photosynthetic capacities of unicellular algae based on in vivo chlorophyll fluorescencePhysiol. Plant 40 315CrossRefGoogle Scholar
1991 Minimum light requirements of submerged freshwater macrophytes in laboratory growth experimentsJ. Ecol 79 749CrossRefGoogle Scholar
2005 Seasonal variation of absorption by particles and colored dissolved organic matter (CDOM) in Funka Bay, southwestern Hokkaido, JapanEstuar. Coast. Shelf Sci 64 447CrossRefGoogle Scholar
1962 On the instrument for measuring angular distribution of underwater radianceBull. Jap. Soc. Sci. Fish 28 489CrossRefGoogle Scholar
1987 Variations in the spectral values of specific absorption of phytoplanktonLimnol. Oceanogr 32 403CrossRefGoogle Scholar
1991 Estimation of new production in the ocean by compound remote sensingNature 353 129CrossRefGoogle Scholar
1989 A three-component model of ocean colour and its application to remote sensing of phytoplankton pigments in coastal waters1nt. J. Remote Sens 10 1373CrossRefGoogle Scholar
1945 Beiträge zur Kenntnis der optischen Eigenschaften der Karntner SeenArch. Hydrobiol 41 259Google Scholar
1988 Influence of inter- and intra-daily light-field variability on photosynthesis by coastal phytoplanktonMar. Biol 100 127CrossRefGoogle Scholar
2000 Remote sensing and seasonal patterns of phycocyanin, carotenoid and chlorophyll pigments in eutrophic watersArchiv. Für Hydrobiologie: Advances in Limnology 55 153Google Scholar
1998 Estimation of chlorophyll from time series measurements of high spectral resolution reflectance in an eutrophic lakeJ. Phycol 34 383CrossRefGoogle Scholar
1986 Depth distribution of phytoplankton and associated spectral changes in downward irradiance in Lake Zurich (1980/81)Hydrobiologia 134 183CrossRefGoogle Scholar
1974 Lake eutrophication as indicated by ERTS satellite imagerySymposium on Remote Sensing and Photo Interpretation247CanadaInternational Society for PhotogrammetryGoogle Scholar
1992 Remote sensing of suspended sediments: the Lake Chicot, Arkansas projectInt. J. Remote Sens 13 1487CrossRefGoogle Scholar
1993 The light-harvesting system of the unicellular alga (Prasinophyceae): evidence for the lack of a photosystem I-specific antenna complexPhotochem. Photobiol 57 132CrossRefGoogle Scholar
1990 Remote sensing of coastal waters by airborne lidar and satellite radiometer. Part 2: MeasurementsInt. J. Remote Sens 11 2185CrossRefGoogle Scholar
1998 Photosystem II quantum yields and xanthophyll-cycle pigments of the macroalga (Phaeophyceae): responses under natural sunlightJ. Phycol 34 104CrossRefGoogle Scholar
1991 Variability in spectral and non spectral measurements of photosynthetic light utilization efficienciesMar. Ecol. Prog. Ser 78 253CrossRefGoogle Scholar
1995 Assessment of Photosystem II photochemical quantum yield by chlorophyll fluorescence quenching analysisAust. J. Plant Physiol 22 209CrossRefGoogle Scholar
1993 PAM fluorometer based on medium-frequency pulsed Xe flash measuring light: a highly sensitive new tool in basic and applied photosynthesis researchPhotosynthesis Res 36 65CrossRefGoogle ScholarPubMed
1986 Continuous recording of photochemical and non-photochemical chlorophyll fluorescence quenching with a new type of modulation fluorometerPhotosynthesis Res 10 51CrossRefGoogle ScholarPubMed
2004 Circadian rhythm of photosynthesis in (Rhodophyta): independence of the cell cycle and possible photosynthetic clock targetsEur. J. Phycol 39 423CrossRefGoogle Scholar
2002 The photosynthetic light response of growing along a depth gradient in the Gulf of Aqaba, the Red SeaAquat. Bot 74 263CrossRefGoogle Scholar
1996 The role of photosynthesis/light relationships in determining lower depth limits of Characeae in South Island, New Zealand lakesFreshwater Biol 35 69CrossRefGoogle Scholar
2005 Derivation of dissolved organic carbon concentrations from SeaWiFS dataInt. J. Remote Sens 26 283CrossRefGoogle Scholar
1978 Phytoplankton distribution and light attenuation in Port Hacking estuaryAust. J. Mar. Freshwater Res 29 31CrossRefGoogle Scholar
1985
1994 The attenuation of ultraviolet radiation in temperate lakesArch. Hydobiol., Ergebn. Limnol 43 135Google Scholar
1978 Descriptive ecology of offshore, deep-water, benthic algae in the temperate western North Atlantic OceanMar. Biol 44 309CrossRefGoogle Scholar
1978 Adaptation of the photosynthetic apparatus of to strong and weak light conditionsPhysiol. Plant 43 35CrossRefGoogle Scholar
2008 Diurnal movement of chloroplasts in and their effect on PAM fluorometric measurements of photosynthetic ratesAquat. Bot 88 273CrossRefGoogle Scholar
2001 Phytoplankton distribution and survival in the thermoclineLimnol. Oceanogr 46 486CrossRefGoogle Scholar
1976 Substrate sediments and subtidal ecology of Gulf St. Vincent and Investigator StraitNatural History of the Adelaide Region161AdelaideRoyal Society of South AustraliaGoogle Scholar
1970 The sublittoral ecology of West Island, South Australia: environmental features and algal ecologyTrans. R. Soc. South Aust 94 105Google Scholar
1971 Pearson Island Expedition 1969. 7. The subtidal ecology of benthic algaeTrans. R. Soc. South Aust 94 155Google Scholar
1976 The subtidal algal and seagrass ecology of St. Francis Island, South AustraliaTrans. R. Soc. South Aust 100 177Google Scholar
1988 The continental shelf ecosystem off the northeast coast of the United StatesContinental Shelves279AmsterdamElsevierGoogle Scholar
1959 Spectrophotometry of translucent biological materials – opal glass transmission methodMeth. Biochem. Anal 7 77Google Scholar
2002 Mycosporine-like amino acids and related gadusols: biosynthesis, accumulation, and UV-protective function in aquatic organismsAnn. Rev. Physiol 64 223CrossRefGoogle Scholar
1996 Vertical distributions and photosynthetic action spectra of two oceanic picophytoplankters, and spMar. Biol 127 15CrossRefGoogle Scholar
1975 Changes in the activity of fucoxanthin-excited photosynthesis in the marine diatom grown under different culture conditionsMar. Biol 33 185CrossRefGoogle Scholar
1973 Selective transmission of light in the ocean waters and its relation to phytoplankton photosynthesisJ. Oceanogr. Soc. Japan 29 257CrossRefGoogle Scholar
2000 Efficiency of water-column light utilization in the subarctic northwestern PacificLimnol. Oceanogr 45 982Google Scholar
1997 Productivity of picoplankton compared with that of larger phytoplankton in the subarctic regionJ. Plankton Res 19 907CrossRefGoogle Scholar
1976 An analysis of the visible absorption spectrum of chlorophyll monomer, dimers and oligomers in solutionJ. Amer. Chem. Soc 98 8222CrossRefGoogle Scholar
1998 Light absorption and scattering by ocean waters in the vicinity of the Chatham Rise, South Pacific OceanMar. Freshwater Res 49 455CrossRefGoogle Scholar
1978 The deep chlorophyll maximum and mesoscale environmental heterogeneity in the western half of the North Pacific central gyreDeep-Sea Res 25 1193CrossRefGoogle Scholar
1968 Studies on algal substances in the sea. I. Gelbstoff (humic material) in terrestrial and marine watersJ. Exp. Mar. Biol. Ecol 2 174CrossRefGoogle Scholar
1969 Studies on algal substances in the sea. II. The formation of gelbstoff (humic material) by exudates of PhaeophytaJ. Exp. Mar. BioI. Ecol 3 279Google Scholar
1984 Some remarks on the ratio between the upward irradiance and nadir radiance just beneath the sea surfaceBeitr. Meeresk 51 75Google Scholar
1987 On the parameterization of irradiance for open sea photoprocessesJ. Geophys. Res 92 14648CrossRefGoogle Scholar
1990 Meridional variations of the springtime phytoplankton community in the Sargasso SeaJ. Mar. Res 48 379CrossRefGoogle Scholar
2005 Independence and interdependencies among global ocean color properties: reassessing the bio-optical assumptionJ. Geophys. Res 110 C07011CrossRefGoogle Scholar
2002 Global distribution and dynamics of colored dissolved and detrital organic materialsJ. Geophys. Res 107 3228CrossRefGoogle Scholar
1978 Aleuts, sea otters, and alternative stable-state communitiesScience 200 403CrossRefGoogle Scholar
2005 Remote sensing of the cyanobacterial pigment phycocyanin in turbid inland waterLimnol. Oceanogr 50 237CrossRefGoogle Scholar
2001 Satellite remote sensing of submerged kelp beds on the Atlantic coast of CanadaInternat. J. Remote Sens 22 2083CrossRefGoogle Scholar
1997 Harmful algal blooms: their ecophysiology and general relevance to phytoplankton blooms in the seaLimnol. Oceanogr 42 1137CrossRefGoogle Scholar
1936 Photosynthesis in relation to light and carbon dioxideProc. Natl. Acad. Sci. (Wash.) 22 504CrossRefGoogle ScholarPubMed
1938 Limiting factors in photosynthesis: light and carbon dioxideJ. Gen. Physiol 22 21CrossRefGoogle ScholarPubMed
1980 Photosynthesis by aquatic plants: effects of unstirred layers in relation to assimilation of CO2 and HCO3−; and to carbon isotopic discriminationNew Phytol 86 245CrossRefGoogle Scholar
1968 The optical characterization of natural waters by means of an ‘extinction coefficient’Limnol. Oceanogr 13 423CrossRefGoogle Scholar
1970 An oceanographic radiance distribution camera systemAppl. Opt 9 2015CrossRefGoogle ScholarPubMed
1978 The bio-optical state of ocean waters and remote sensingLimnol. Oceanogr 23 247CrossRefGoogle Scholar
1979 Penetration of UV-B and biologically effective dose rates in natural watersPhotochem. Photobiol 29 311CrossRefGoogle Scholar
1980 Biologically effective dose transmitted by culture bottles in 14C productivity measurementsLimnol. Oceanogr 25 364CrossRefGoogle Scholar
1981 Optical properties of the clearest natural waters (200–800 nm)Appl. Opt 20 177CrossRefGoogle Scholar
1982 Oceanic chlorophyll concentrations as determined by satellite (Nimbus-7 Coastal Zone Colour Scanner)Mar. Biol 66 269CrossRefGoogle Scholar
1980 Photoinhibition of photosynthesis in natural watersPhotochem. Photobiol 31 585CrossRefGoogle Scholar
1987 Optical characterization of primary productivity across a coastal frontMar. Biol 96 575CrossRefGoogle Scholar
1989 Estimation of a photon budget for the upper ocean in the Sargasso SeaLimnol. Oceanogr 34 1673CrossRefGoogle Scholar
1992 Ozone depletion: ultraviolet radiation and phytoplankton biology in Antarctic watersScience 255 952CrossRefGoogle ScholarPubMed
1989 Bio-optical modelling of photosynthetic production in coastal watersLimnol. Oceanogr 34 1524CrossRefGoogle Scholar
1987 Carbonic anhydrase-dependent inorganic carbon uptake by the red macroalgaChondrus crispus. Plant Physiol 83 735CrossRefGoogle ScholarPubMed
1989 Mechanism of photosynthetic carbon dioxide uptake by the red macroalgaChondrus crispus. Plant Physiol 89 93CrossRefGoogle ScholarPubMed
2007 Using primary productivity as an index of coastal eutrophication: the units of measurement matterJ. Plankton Res 29 1CrossRefGoogle Scholar
1977 The respiration of photosynthetic carbon in eutrophic areas of the oceanJ. Mar. Res 35 557Google Scholar
1986 Importance of ice edge phytoplankton production in the Southern OceanBioScience 36 251CrossRefGoogle Scholar
2004 A methodology to determine primary production and phytoplankton photosynthetic parameters from Fast Repetition Rate FluorometryJ. Plankton Res 26 1337CrossRefGoogle Scholar
2005 Integration of radiative transfer into satellite models of ocean primary productionJ. Geophys. Res 110 C10014CrossRefGoogle Scholar
2008 Optical scattering and backscattering by organic and inorganic particulates in U.S. coastal watersAppl. Opt 47 666CrossRefGoogle ScholarPubMed
1976 Sea depth effects on the algal photosynthetic apparatus: 1. Chlorophyll pigments of Halimeda tuna Lam. (Chlorophyceae, Siphonales)Mem. Biol. Mar. Ocean 6 21Google Scholar
1986 Long range vertical migration of in tropical Lake Cahora Bassa (Mozambique)Limnol. Oceanogr 31 650CrossRefGoogle Scholar
1988 Photosynthetic characteristics and pigment content and composition in (L.) Aschers in a depth gradientAquat. Bot 32 307CrossRefGoogle Scholar
1996 The impact of grazing waterfowl on submerged macrophytes: in situ experiments in a shallow eutrophic lakeAquat. Bot 53 73CrossRefGoogle Scholar
2001 Inter-specific differences in photosynthetic carbon uptake, photosynthate partitioning and extracellular organic carbon release by deep-water characean algaeFreshwater Biol 46 453CrossRefGoogle Scholar
1989 Chlorophyll fluorescence from single cells: interpretation of flow cytometric signalsLimnol. Oceanogr 34 1749CrossRefGoogle Scholar
2001 Temporal and vertical variability in optical properties of New England shelf waters during late summer and springJ. Geophys. Res 106 9455CrossRefGoogle Scholar
1995 Light absorption by phytoplankton, photosynthetic pigments and detritus in the California Current SystemDeep-Sea Res 42 171CrossRefGoogle Scholar
1974 Circadian periodicities in natural populations of marine phytoplanktonAdv. Mar. Biol 12 325CrossRefGoogle Scholar
1976 Primary production of sands in the lagoon of an atoll and the role of Foraminiferan symbiontsMar. Biol 37 29CrossRefGoogle Scholar
1976 Light and plant response in fresh waterLight as an Ecological Factor93OxfordBlackwellGoogle Scholar
1971 Spectral intensity in some Scottish freshwater lochsFreshwater Biol 1 321CrossRefGoogle Scholar
1970 Photosynthesis and zonation of freshwater macrophytes. I. Depth distribution and shade tolerance. II. Adaptability of species of deep and shallow waterNew Phytol 69 205CrossRefGoogle Scholar
1983 Final results for STREX and JASIN photoanalyses with preliminary search for whitecap algorithmWhitecaps and the Marine Atmosphere, Report 5 8Galway, IrelandUniversity CollegeGoogle Scholar
1986 Relative real refractive index of marine microorganisms: a technique for flow cytometric estimationAppl. Opt 25 1930CrossRefGoogle ScholarPubMed
1978 Volume scattering function of suspended particulate matter at near-forward angles: a comparison of experimental and theoretical valuesAppl. Opt 17 1125CrossRefGoogle ScholarPubMed
1979 Irradiance and absorption spectra measurements in the tropical East Atlantic (Canberra, 1979)73San DiegoInternational Association for the Physical Sciences of the OceanGoogle Scholar
1983 The influence of whitecaps on the albedo of the sea surfaceWhitecaps and the Marine Atmosphere78Galway, IrelandUniversity CollegeGoogle Scholar
1974 Primary production in relation to temperature structure, biomass concentration, and light conditions at an inshore and offshore station in Lake OntarioJ. Fish. Res. Bd. Canada 31 1215CrossRefGoogle Scholar
1986 Chloroplast structure and supramolecular organization of photosynthetic membranesEncycl. Plant Physiol. (n.s.) 19 1Google Scholar
1986 Photosynthesis III: photosynthetic membranes and light harvesting systemsEncycl. Plant Physiol. (n.s.) 19Google Scholar
2004 Parameterization of the chlorophyll -specific in vivo light absorption coefficient covering estuarine, coastal and oceanic watersInt. J. Remote Sens 25 5117CrossRefGoogle Scholar
2006 Light and picophytoplankton in the Gulf of Eilat (Aqaba)J. Geophys. Res 111 C11009CrossRefGoogle Scholar
1988 Photosynthetic pigments in fifty-one species of marine diatomsJ. Phycol 24 158CrossRefGoogle Scholar
1988 Optical modeling of clear ocean light fields: Raman scattering effectsAppl. Opt 27 4002CrossRefGoogle ScholarPubMed
2000 Optical properties and signatures of chromophoric dissolved organic matter (CDOM) in Danish coastal watersEstuar. Coast. Shelf Sci 51 267CrossRefGoogle Scholar
1965 The chlorophyll content of particulate organic matter in the northern North SeaLimnol. Oceanogr 10 261CrossRefGoogle Scholar
1952 The use of radioactive carbon (14C) for measuring organic production in the seaJ. Cons. Perm. Int. Explor. Mer 18 117CrossRefGoogle Scholar
1974 Light and primary productionOptical Aspects of Oceanography361LondonAcademic PressGoogle Scholar
1961 Influence of surface illumination on plankton photosynthesis in Danish waters (56° N) throughout the yearPhysiol. Plant 14 595CrossRefGoogle Scholar
1995 Variability of spectral absorption efficiency within living cells of (Dinophyta)Mar. Biol 122 325Google Scholar
1974 An integrating nephelometer for measuring particle concentration in the deep seaDeep-Sea Res 21 887Google Scholar
1975 Proof of a law for calculating absorption of light by cellular suspensionsArch. Biochem. Biophys 167 393CrossRefGoogle Scholar
2005 Interannual variability of seasonal phytoplankton blooms in the north polar Atlantic in response to atmospheric forcingJ. Geophys. Res 110 C05016CrossRefGoogle Scholar
1993 Phytoplankton bloom and the vertical thermal structure of the upper oceanJ. Mar. Res 51 819CrossRefGoogle Scholar
1997 Dependence of apparent optical properties on solar altitude: experimental results based on mooring data collected in the Sargasso SeaJ. Geophys. Res 102 15679CrossRefGoogle Scholar
2006 Seasonal and regional differentiation of bio-optical properties within the north polar AtlanticJ. Geophys. Res 111 C08003CrossRefGoogle Scholar
2000 Estimation of the absorption and backscattering coefficients from in-water radiometric measurementsLimnol. Oceanogr 45 628CrossRefGoogle Scholar
1990 Optical properties of photosynthetic picoplankton in different physiological states as affected by growth irradianceDeep-Sea Res 37 245CrossRefGoogle Scholar
2004 Optical properties of Asian mineral dust suspended in waterLimnol. Oceanogr 49 749CrossRefGoogle Scholar
1974 Remote sensing of algal blooms by aircraft and satellite in Lake Erie and Utah LakeRemote Sens. Env 3 99CrossRefGoogle Scholar
1978 Chemical whitings and chlorophyll distributions in the Great Lakes as viewed by LandsatRemote Sens. Env 7 61CrossRefGoogle Scholar
1989 Runoff and flocculation modify underwater light environment of the Hudson River EstuaryEstuar. Coast. Shelf Sci 29 305CrossRefGoogle Scholar
1998 Pigments and species composition of natural phytoplankton populations: effect on the absorption spectraJ. Plankton Res 20 187CrossRefGoogle Scholar
1976 Investigation of seawater and terrestrial humic substances with carbon-13 and proton nuclear magnetic resonanceGeochim. Cosmochim. Acta 40 1109CrossRefGoogle Scholar
1989 Calibration of a general optical equation for remote sensing of suspended sediments in a moderately turbid estuaryJ. Geophys. Res 94 14363CrossRefGoogle Scholar
1991 Remote estimation of the diffuse attenuation coefficient in a moderately turbid estuaryRemote Sens. Environ 38 183CrossRefGoogle Scholar
1988 Satellite detection of bloom and pigment distributions in estuariesRemote Sens. Environ 24 385CrossRefGoogle Scholar
1999 Bio-optical properties of the marine diazotrophic cyanobacteria spp. I. Absorption and photosynthetic action spectraLimnol. Oceanogr 44 608CrossRefGoogle Scholar
2003 Fast repetition rate and pulse amplitude modulation chlorophyll a fluorescence measurements for assessment of photosynthetic electron transport in marine phytoplanktonEur. J. Phycol 38 371CrossRefGoogle Scholar
1984 Contribution of Raman scattering to upward irradiance in the seaJ. Oceanogr. Soc. Jap 40 397CrossRefGoogle Scholar
1987 Light-saturated photosynthesis – limitation by electron transport or carbon fixation?Biochim. Biophys. Acta 891 205CrossRefGoogle Scholar
1992 Purification and characterization of a light-harvesting chlorophyll-protein complex from the marine eustigmatophyte spPlant Cell Physiol 33 1041Google Scholar
2006 Hyperspectral temperature and salt dependencies of absorption by water and heavy water in the 400–750 nm spectral rangeAppl. Opt 45 5294CrossRefGoogle ScholarPubMed
2009 Light scattering properties and their relation to the biogeochemical composition of turbid productive waters: a case study of Lake TaihuAppl. Opt 48 1979CrossRefGoogle ScholarPubMed
1990 Infection of phytoplankton by viruses and reduction of primary productivityNature 347 467CrossRefGoogle Scholar
1995 Distribution of the prochlorophyte in the central Pacific Ocean as measured by HPLCLimnol. Oceanogr 40 983CrossRefGoogle Scholar
1953 On conditions for the vernal blooming of phytoplanktonJ. Cons. Int. Explor. Mer 18 287CrossRefGoogle Scholar
1967 Bioluminescence and chloroplast movement in the dinoflagellatePyrocystis lunula. J. Phycol 3 77CrossRefGoogle ScholarPubMed
1980 Remote sensing of particulate concentrations in waterAppl. Opt 19 2794CrossRefGoogle ScholarPubMed
1976 Relationship between photosynthesis and cell size of marine diatomsJ. Phycol 12 185Google Scholar
1989 Shade and chromatic adaptation of phytoplankton photosynthesis in a thermally stratified seaMar. Biol 100 401CrossRefGoogle Scholar
1957 Photosynthetic characteristics of some freshwater plankton diatoms in relation to underwater radiationNew Phytol 56 29CrossRefGoogle Scholar
1957 The phytoplankton population as a compound photosynthetic systemNew Phytol 56 133CrossRefGoogle Scholar
1960 Self-shading effects in natural populations of a planktonic diatomWett. Leben 12 235Google Scholar
1970 Generalized and specialized features of phytoplankton as a form of photosynthetic coverPrediction and Measurement of Photosynthetic Productivity431WageningenPudocGoogle Scholar
1971 The underwater light climate as a controlling factor in the production ecology of freshwater phytoplanktonMitt. Int. Verein. Limnol 19 214Google Scholar
1976 The depletion of carbon dioxide from lake water by phytoplanktonJ. Ecol 64 79CrossRefGoogle Scholar
1979 Factor interactions and implications for the prediction of lake metabolismArch. Hydrobiol. Beih. Ergebn. Limnol 13 96Google Scholar
1973 The upper limit of photosynthetic productivity by phytoplankton: evidence from Ethiopian soda lakesFreshwater Biol 3 53CrossRefGoogle Scholar
1951 The photosynthetic efficiency of carotenoid pigments inNavicula minima. Amer. J. Bot 38 276CrossRefGoogle Scholar
1977 Occurrence and nature of chromatic adaptation in cyanobacteriaJ. Bacteriol 130 82Google ScholarPubMed
1995 An alternative approach to absorption measurements of aquatic particles retained on filtersLimnol. Oceanogr 40 1358CrossRefGoogle Scholar
2000 Variability of the amplification factor of light absorption by filter-retained aquatic particles in the coastal environmentJ. Plankton Res 22 659CrossRefGoogle Scholar
1986 An algorithm for the retrieval of sediment content in turbid coastal waters from CZCS dataInt. J. Remote Sens 7 643CrossRefGoogle Scholar
1959 Distribution in depth of marine algae in the Caribbean and adjacent seasProc. 9th 1nt. Botan. Congr193CanadaUniversity of Toronto PressGoogle Scholar
1964 Light and photosynthesis in intertidal benthic diatomsHelgoländer Wiss. Meeresunters 10 29CrossRefGoogle Scholar
1983 Effect of irradiance on the physiology and ultrastructure of the marine cryptomonad, strain Lis (Cryptophyceae)Phycologia 22 7CrossRefGoogle Scholar
1990 Dynamics of benthic vegetation standing-stock, irradiance and water properties in central Puget SoundMar. Biol 104 129CrossRefGoogle Scholar
1990 Quantified small-scale turbulence inhibits a red tide dinoflagellate SteinDeep-Sea Res 37 1583CrossRefGoogle Scholar
1986 Biochemical characterization and structure of pigment-proteins of photosynthetic organismsEncycl. Plant Physiol. (n.s.) 19 98Google Scholar
1991 Chlorophyll~Carotenoid proteins of higher plant thylakoidsChlorophylls549Boca RatonCRC PressGoogle Scholar
1977 Identification of chlorophyll in extracts of prokaryotic algae by fluorescence spectroscopyProc. Natl. Acad. Sci. Wash 74 575CrossRefGoogle ScholarPubMed
2000 Planktonic primary production in the German Wadden SeaJ. Plankton Res 22 1253CrossRefGoogle Scholar
2005 Inherent optical properties of the Irish Sea and their effect on satellite primary production algorithmsJ. Plankton Res 27 1127CrossRefGoogle Scholar
1973 Diurnal periodicity in the phytoplankton assemblage of a high mountain lakeLimnol. Oceanogr 18 15CrossRefGoogle Scholar
1983 The importance of fractional light absorption by photosynthetic pigments for phytoplankton productivity in Lake ConstanceLimnol. Oceanogr 28 833CrossRefGoogle Scholar
1984 Seasonal and diurnal shifts of photosynthetic quantum yields in the phytoplankton of Lake ConstanceVerh. Internat. Verein. Limnol 22 958Google Scholar
1987 Prediction of productivity changes in Lake Tahoe at increasing phytoplankton biomassInt. Ver. Theor. Angew. Limnol. Verh 20 407Google Scholar
1978 Importance of mixing, thermal stratification and light adaptation for phytoplankton productivity in Lake Tahoe (California-Nevada)Ecology 59 810CrossRefGoogle Scholar
1975 The efficiency of photosynthetic light energy utilization by lake phytoplanktonVerh. Int. Verein. Limnol 19 800Google Scholar
1976 Seasonal and vertical patterns of phytoplankton light adaptation in a high mountain lakeArch. Hydrobiol 77 488Google Scholar
1971 Optical characteristics of turbid media of the sea-water typeIzv. Atmos. Oceanic Phys 7 863Google Scholar
1967 On the relationship between the attenuation coefficients of collimated and diffuse light fluxesIzv. Atmos. Oceanic Phys 3 166Google Scholar
1979 Coexistence and the comparative light relations of the submersed macrophytes L. and MichxOecologia 40 273CrossRefGoogle ScholarPubMed
1990 Algorithms for remote sensing of high concentration, inorganic suspended sedimentInt. J. Remote Sens 11 947CrossRefGoogle Scholar
2002 Sources of inorganic carbon for phytoplankton in the eastern Subtropical and Equatorial Pacific OceanLimnol. Oceanogr 47 1012CrossRefGoogle Scholar
1992 Spring phytoplankton blooms in the absence of vertical water column stratificationNature 360 59CrossRefGoogle Scholar
1986 Early spring phytoplankton blooms in the Gulf of MaineContinental Shelf Res 6 515CrossRefGoogle Scholar
1996 Retention time as a primary determinant of colour and light attenuation in two tropical Australian reservoirsFreshwater Biol 36 57CrossRefGoogle Scholar
1982 Interlinking of physical and biological processes in the Antarctic OceanOceanogr. Mar. Biol. Ann. Rev 20 11Google Scholar
1983 Mode of HCO3− utilization by the cells of grown under ordinary air. ZPflanzenphysiol 110 29CrossRefGoogle Scholar
2002 Photobleaching of aquatic dissolved materials: absorption removal, spectral alteration, and their interrelationshipJ. Geophys. Res 107 C83091CrossRefGoogle Scholar
2001 Separating in situ and terrigenous sources of absorption by dissolved materials in coastal watersJ. Geophys. Res 106 2545CrossRefGoogle Scholar
1960 Radiance distribution as a function of depth in an underwater environmentBull. Scripps Inst. Oceanogr 7 363Google Scholar
1975 The in situ quantum efficiency of natural phytoplankton populationsLimnol. Oceanogr 20 976CrossRefGoogle Scholar
1958 Nephelometer for the measurement of volume scattering functionin situ. J. Opt. Soc. Amer 48 354CrossRefGoogle Scholar
1967 Spectroradiometric characteristics of natural light under waterJ. Opt. Soc. Amer 57 595CrossRefGoogle Scholar
2006 Bio-optics of the Chesapeake Bay from measurements and radiative transfer closureEstuar. Coast. Shelf Sci 68 348CrossRefGoogle Scholar
2006 Vertical distribution of phytoplankton communities in open ocean: an assessment based on surface chlorophyllJ. Geophys. Res 111 C08005CrossRefGoogle Scholar
2005 Buffer sensitivity of photosynthetic carbon utilization in eight tropical seagrassesMar. Biol 147 1085CrossRefGoogle Scholar
1988 Zonation of deep water benthic algae in the Gulf of MaineJ. Phycol 24 338CrossRefGoogle Scholar
1995 Growth limitation of submerged aquatic macrophytes by inorganic carbonFreshwater Biol 34 411CrossRefGoogle Scholar
2000 Spectrum of the quantum yield for photochemical mineralization of dissolved organic carbon in a humic lakeLimnol. Oceanogr 45 664CrossRefGoogle Scholar
2004 Light backscattering properties of marine phytoplankton: relationships to cell size, chemical composition and taxonomyJ. Plankton Res 26 191CrossRefGoogle Scholar
1976 Comparison of the photosynthetic characteristics of three submersed aquatic plantsPlant Physiol 58 761CrossRefGoogle ScholarPubMed
2008 Photoacclimation in microphytobenthos and the role of xanthophyll pigmentsEur. J. Phycol 43 123CrossRefGoogle Scholar
2006 Sulfolipids dramatically decrease phosphorus demand by picocyanobacteria in oligotrophic marine environmentsProc. Natl. Acad. Sci. (Wash.) 103 8607CrossRefGoogle ScholarPubMed
2004 Light rather than iron controls photosynthate production and allocation in Southern Ocean phytoplankton populations during austral autumnJ. Plankton Res 26 885CrossRefGoogle Scholar
1989 Circadian variations in photosynthetic assimilation and estimation of daily phytoplankton productionMar. Biol 100 525CrossRefGoogle Scholar
1990 Causes of light attenuation in nine New Zealand estuariesEstuar. Coast. Shelf Sci 31 125CrossRefGoogle Scholar
1984 Factors affecting clarity of New Zealand lakesN.Z. J. Mar. Freshwater Res 18 363CrossRefGoogle Scholar
1988 Water appearance and recreational use of 10 lakes of the North Island (New Zealand)Verh. Int. Verein. Limnol 23 611Google Scholar
1986 Macrophyte depth limits on North Island (New Zealand) lakes of differing clarityHydrobiologia 137 55CrossRefGoogle Scholar
2007 Bio-optical properties of coastal waters in the Eastern English ChannelEstuar. Coast. Shelf Sci 72 201CrossRefGoogle Scholar
2001 Global mapping of underwater UV irradiances and DNA-weighted exposures using Total Ozone Mapping Spectrometer and Sea-viewing Wide Field-of-View Sensor data productsJ. Geophys. Res 106 27205CrossRefGoogle Scholar
2004 Phytoplankton in the subtropical Atantic ocean: towards a better assessment of biomass and compositionDeep-Sea Res 51 507CrossRefGoogle Scholar
1984 Winter mixing and the vertical stratification of phytoplankton – another lookLimnol. Oceanogr 29 636CrossRefGoogle Scholar
1985 Monitoring water quality conditions in a large Western reservoir with Landsat imageryPhotogramm. Eng. Remote Sens 51 343Google Scholar
1977 Effect of blue-green light on photosynthetic pigments and chloroplast structure in unicellular marine algae from six classesJ. Phycol 13 280Google Scholar
1987 Ultrastructure and pigments of two strains of the picoplanktonic alga, (Chrysophyceae)J. Phycol 23 322CrossRefGoogle Scholar
2000 Phytoplankton pigment variations during the transition from spring bloom to oligotrophy in the northwestern Mediterranean SeaDeep-Sea Res 47 423CrossRefGoogle Scholar
1980 Functional organization and plasticity of the photosynthetic unit of the cyanobacteriumAnacystis nidulans. Physiol. Plant 50 93CrossRefGoogle Scholar
1984 Photoinhibition: algal responses to bright light during diel stratification and mixing in a tropical alpine lakeJ. Phycol 20 201CrossRefGoogle Scholar
1964 Some effects of light on chloroplasts and plant protoplasmPhotophysiology273New YorkAcademic Press.CrossRefGoogle Scholar
1984 Seasonal changes in the concentration and colour of humic substances in some aquatic environmentsFreshwater Biol 14 79CrossRefGoogle Scholar
1997 Seasonal variation of CDOM and DOC in the Middle Atlantic Bight: terrestrial inputs and photooxidationLimnol. Oceanogr 42 647CrossRefGoogle Scholar
1995 The use of in situ and airborne fluorescence measurements to determine UV absorption coefficients and DOC concentrations in surface watersLimnol. Oceanogr 40 411CrossRefGoogle Scholar
1969 A Manual on Methods for Measuring Primary Production in Aquatic EnvironmentsOxfordBlackwell
1970 Models for calculating integral photosynthesis and some implications regarding structural properties of the community metabolism of aquatic systemsPrediction and Measurement of Photosynthetic Productivity455WageningenPudocGoogle Scholar
2007 The colour of the Mediterranean Sea: global versus regional bio-optical algorithms evaluation and implication for satellite chlorophyll estimatesRemote Sens. Environ 107 625CrossRefGoogle Scholar
1998 Laboratory measurements of angular distributions of light scattered by phytoplanktonLimnol. Oceanogr 43 1180CrossRefGoogle Scholar
1989 Electro-optic camera system for measurement of the underwater radiance distributionOptical Engineering 28 241CrossRefGoogle Scholar
1998 Scattering and attenuation properties of cells and their detached coccolithsLimnol. Oceanogr 43 870CrossRefGoogle Scholar
1974 Chloroplast structure and pigment composition in the red alga : regulation by light intensityJ. Phycol 10 193Google Scholar
1974 A compact multichannel spectrometer for field useRev. Sci. Instrum 45 1349CrossRefGoogle Scholar
1983 Molecular weight of gas-vesicle protein from the planktonic cyanobacterium and implications for structure of the vesicleBiochem. J 209 809CrossRefGoogle ScholarPubMed
1971 Light quality in relation to growth, photosynthetic rates and carbon metabolism in two species of marine plankton algaeMar. Biol 10 34CrossRefGoogle Scholar
1971 Light quality and concentrations of protein, RNA, DNA and photosynthetic pigments in two species of marine plankton algaeMar. Biol 10 44CrossRefGoogle Scholar
1980 Water transparency characteristics of South African impoundmentsJ. Limnol. Soc. Sth Afr 6 69Google Scholar
1976 The physiology of water-bloom formation by planktonic blue-green algaeBr. Phycol. J 11 200Google Scholar
1976 Herbivory as a factor in patterns of nutrient utilization in the seaLimnol. Oceanogr 21 1CrossRefGoogle Scholar
2006 Red tides in the Gulf of Mexico: where, when and why?J. Geophys. Res 111 C11003CrossRefGoogle Scholar
2001 Saharan dust and Florida red tides: the cyanophyte connectionJ. Geophys. Res 106 11597CrossRefGoogle Scholar
2008 Partitioning particulate absorption coefficient into contributions of phytoplankton and nonalgal particles: a case study in the northern South China SeaEstuar. Coast. Shelf Sci 78 513CrossRefGoogle Scholar
2005 Absorption and backscattering in the Beaufort and Chukchi SeasJ. Geophys. Res 110 C0414CrossRefGoogle Scholar
2006 Visible and near-ultraviolet absorption spectrum of ice from transmission of solar radiation into snowAppl. Opt 45 5320CrossRefGoogle ScholarPubMed
2004 Estimating suspended sediment concentrations in turbid coastal waters of the Santa Barbara Channel with SeaWiFSInt. J. Remote Sens 25 1995CrossRefGoogle Scholar
1986 Biological and ecological characterization of the marine unicellular cyanobacterium . In T. Platt & W. K. W. Li (eds), Photosynthetic picoplankton (pp. 71–120)Can. Bull. Fish. Aquat. Sci 214Google Scholar
1990 Avoiding ship-induced light-field perturbation in the determination of oceanic optical propertiesOceanography 3 18CrossRefGoogle Scholar
1986 Absorption and scattering coefficients in Irondequoit BayLimnol. Oceanogr 31 567CrossRefGoogle Scholar
1985 Particulate and optical properties during CaCO3 precipitation in Otisco LakeLimnol. Oceanogr 30 1078CrossRefGoogle Scholar
1975 Ecologie des Octocoralliaires communs du substrat dur dans la region de Banyuls-sur-MerBijdr. Dierk 45 50Google Scholar
1997 Characterizing lateral variability of phytoplankton chlorophyll in Chesapeake Bay with aircraft ocean color dataMar. Ecol. Prog. Ser 149 183CrossRefGoogle Scholar
1981 Chlorophyll-specific photosynthesis and quantum efficiency at subsaturating light intensitiesJ. Phycol 17 283CrossRefGoogle Scholar
2005 http://oceancolor.gsfc.nasa.gov/REPROCESSING/SeaWiFS/R5.1/k490-update.html
2008 Microbial photosynthesis in coral reef sediments (Heron Reef), Australia)Estuar. Coast. Shelf Sci 76 876CrossRefGoogle Scholar
1967 Some effects of low-velocity currents on the metabolism of aquatic macrophytesJ. Exp. Bot 18 187CrossRefGoogle Scholar
1980 Photosynthesis: macrophytesThe Functioning of Freshwater Ecosystems177CambridgeCambridge University PressGoogle Scholar
1980 Biomass changes: macrophytesThe Functioning of Freshwater Ecosystems203CambridgeCambridge University PressGoogle Scholar
1980 Effects of macrophytesThe Functioning of Freshwater Ecosystems161CambridgeCambridge University PressGoogle Scholar
2005 Primary production in the deep chlorophyll maximum of the central North SeaJ. Plankton Res 27 909CrossRefGoogle Scholar
1976 Fractionation by molecular weight of organic substances in Georgia coastal waterLimnol. Oceanogr 21 846CrossRefGoogle Scholar
1980 Effect of boundary layer transport on the fixation of carbon by the giant kelp Mar. Biol 56 103CrossRefGoogle Scholar
1982 Sea foam reflectance and influence on optimum wavelength for remote sensing of ocean aerosolsGeophys. Res. Lett 9 719CrossRefGoogle Scholar
1941 The angular distribution of characteristic diffuse light in natural watersJ. Mar. Res 4 122Google Scholar
1979 Chlorophyll composition under controlled light conditions as related to the distribution of seagrasses in Texas and the U.S. Virgin IslandsAquat. Bot 6 171CrossRefGoogle Scholar
2005 Effect of surface waves on the irradiance distribution in the upper oceanOptics Express 13 9257CrossRefGoogle ScholarPubMed
1973 The effect of light intensity during growth of on the electron-transport componentsZ. Pflanzenphysiol 69 344CrossRefGoogle Scholar
1990 The biochemistry and physiology of light-harvesting processes in chlorophyll - and chlorophyll -containing algaePlant Physiol. Biochem 28 293Google Scholar
1990 Comparative analysis of the composition of two chlorophyll--containing light-harvesting complexesPlanta 180 456CrossRefGoogle Scholar
1984 Overview of the NERC airborne thematic mapper campaign of September 1982Int. J. Remote Sens 5 631CrossRefGoogle Scholar
1966 Phytoplankton production and chlorophyll concentration in the Beaufort Channel, North CarolinaLimnol. Oceanogr 11 73CrossRefGoogle Scholar
1999 Mesoherbivore–macroalgal interactions: feeding ecology of sacoglossan sea slugs (Mollusca, Opisthobranchia) and their effects on their food algaeOceanogr. Mar. Biol. Ann. Rev 37 87Google Scholar
2003 Photoinhibition in shallow-water colonies of the coral as measured in situLimnol. Oceanogr 48 1388CrossRefGoogle Scholar
1983 Nutrients and primary production in permanently well-mixed temperate coastal watersEstuar. Coast. Shelf Sci 17 431CrossRefGoogle Scholar
1994 Evidence for a common origin of chloroplasts with light-harvesting complexes of different pigmentationNature 367 566CrossRefGoogle Scholar
1981 Marine ecology and zonation of temperate coastsMarine Botany: an Australian Perspective211MelbourneLongman CheshireGoogle Scholar
2001 Ship-borne measurements of ocean colour: development of a CCD-based reflectance radiometer and trials on a longitudinal transect of the Atlantic oceanInt. J. Remote Sens 22 99CrossRefGoogle Scholar
2008 In situ determination of sun-induced chlorophyll a fluorescence quantum yield in the North China SeaInt. J. Remote Sens 23 851CrossRefGoogle Scholar
1979 Circadian rhythm of the enzymes participating in the CO2-photoassimilation of a brown algaSpatoglossum pacificum. Bot. Mar 22 203Google Scholar
2007 Dynamics of microphytobenthic biomass in a coastal area of western Seto Inland Sea, JapanEstuar. Coast. Shelf Sci 75 423CrossRefGoogle Scholar
1979 Biochemistry of the violaxanthin cycle in higher plantsPure & Applied Chem 51 639CrossRefGoogle Scholar
1960 The influence of phytoplankton pigments on the colour of sea waterDeep-Sea Res 7 1Google Scholar
1974 Some aspects of the environmental physiology of marine phytoplankton: a second lookOceanogr. Mar. Biol. Ann. Rev 12 41Google Scholar
1983 Flow cytometry and cell sorting: a technique for analysis and sorting of aquatic particlesLimnol. Oceanogr 28 1275CrossRefGoogle Scholar
1966 A study of photosynthetic light reactions, and a new interpretation of sun and shade phytoplanktonJ. Mar. Res 24 319Google Scholar
1989 A bridge between ocean optics and microbial ecologyLimnol. Oceanogr 34 1694CrossRefGoogle Scholar
1958 Diurnal study of phytoplankton pigments. An in situ study in East Sound. WashingtonJ. Mar. Res 17 567Google Scholar
1981 Variation in kinetic properties of ribulose-1,5-bisphosphate carboxylases among plantsPlant Physiol 67 1151CrossRefGoogle ScholarPubMed
1958 Light-induced efficiency and pigment alterations in red algaeJ. Gen. Physiol 41 1113CrossRefGoogle ScholarPubMed
1973 A comparative study on photosynthesis-temperature relationships and their seasonal changes in marine benthic algaeInt. Rev. Ges. Hydrobiol 58 463CrossRefGoogle Scholar
1981 Distribution of the green light-absorbing pigments siphonaxanthin and siphonein in marine green algaeBot. Mar 24 637Google Scholar
1977 A carotenoid characteristic of Chlorophycean seaweeds living in deep coastal watersBot. Mar 20 433CrossRefGoogle Scholar
1990 A reflective-tube absorption meterProc. Soc. Photo-Opt. Instrum. Eng., Ocean Optics X 1302 124CrossRefGoogle Scholar
1994 Scattering error correction of reflecting tube absorption metersOcean Optics XIIProc. SPIE44CrossRefGoogle Scholar
2004 Correction and analysis of spectral absorption data taken with the WET Labs ac-sProceedings Ocean Optics XVII ConferenceFremantleWestern AustraliaGoogle Scholar
1997 Occurrence of phytylated chlorophyll in and sp. (clone T-iso) (Prymnesiophyceae)J. Phycol 33 209CrossRefGoogle Scholar
2004 Photosynthetic pigments in 37 species (65 strains) of Haptophyta: implications for oceanography and chemotaxonomyMar. Ecol. Progress Ser 270 83CrossRefGoogle Scholar
2009 Bio-optical properties and estimation of the optically active substances in Lake Tianmuhu in summerInt. J. Rem. Sens 30 2837CrossRefGoogle Scholar
1995 Instrument self-shading in underwater optical measurements: experimental dataAppl. Opt 34 2750CrossRefGoogle ScholarPubMed
2006 Tower-based radiometric observations at a coastal site in the Baltic ProperEstuar. Coast. Shelf Sci 69 649CrossRefGoogle Scholar
1989 Diurnal mixed layers and the longterm dominance ofMicrocystis aeruginosa. J. Plankton Res 11 25CrossRefGoogle Scholar
2003 Photosynthetic utilization of inorganic carbon in the economic brown alga, (Sargassaceae) from the South China SeaJ. Phycol 39 1095CrossRefGoogle Scholar