Photosynthetic carbon assimilation in aquatic macrophytes
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[1] E. Nielsen. Carbon Sources in the Photosynthesis of Aquatic Plants , 1946, Nature.
[2] D. Kern. The hydration of carbon dioxide , 1960 .
[3] D. F. Westlake. Some Effects of Low-velocity Currents on the Metabolism of Aquatic Macrophytes , 1967 .
[4] S. Wium-Andersen. Photosynthetic Uptake of Free CO2, by the Roots of Lobelia dortmanna , 1971 .
[5] J. M. Andersen,et al. CARBON DIOXIDE CONTENT OF THE INTERSTITIAL WATER IN THE SEDIMENT OF GRANE LANGSØ, A DANISH LOBELIA LAKE , 1972 .
[6] J. Titus,et al. Diurnal course of photosynthesis in Myriophyllum spicatum and Oedogonium , 1975 .
[7] W. T. Haller,et al. Comparison of the photosynthetic characteristics of three submersed aquatic plants. , 1976, Plant physiology.
[8] D. T. Canvin,et al. Photosynthesis and photorespiration in submerged aquatic vascular plants , 1977 .
[9] J. Etherington,et al. Physiological Plant Ecology. , 1977 .
[10] S. Beer,et al. Carbon Metabolism in Seagrasses I. THE UTILIZATION OF EXOGENOUS INORGANIC CARBON SPECIES IN PHOTOSYNTHESIS , 1977 .
[11] R. Kennedy,et al. Photosynthesis In Elodea canadensis Michx: Four-Carbon Acid Synthesis. , 1977, Plant physiology.
[12] M. S. Adams,et al. Relationship of dissolved inorganic carbon to macrophyte photosynthesis in some Italian lakes1 , 1978 .
[13] F. I. Dromgoole. The effects of oxygen on dark respiration and apparent photosynthesis of marine macro-algae , 1978 .
[14] F. I. Dromgoole. The effects of pH and inorganic carbon on photosynthesis and dark respiration of Carpophyllum (Fucales, Phaeophyceae) , 1978 .
[15] Photosynthesis in the Aquatic Macrophyte Egeria densa. II. Effects of Inorganic Carbon Conditions on 14C Fixation , 1979 .
[16] K. Sand‐Jensen,et al. Carbon uptake by leaves and roots of Littorella uniflora (L.) Aschers. , 1979 .
[17] W. T. Haller,et al. Seasonal variation in the biomass, tuber density, and photosynthetic metabolism of Hydrilla in three Florida lakes , 1979 .
[18] Photosynthesis in the Aquatic Macrophyte Egeria densa. III. Gas Exchange Studies , 1979 .
[19] Variation of photosynthesis in Elodea densa with pH and/or high CO2 concentrations , 1979 .
[20] E. Best,et al. Photosynthesis in relation to growth and dormancy in Ceratophyllum demersum. , 1979 .
[21] K. Sand‐Jensen,et al. Distribution and quantitative development of aquatic macrophytes in relation to sediment characteristics in oligotrophic Lake Kalgaard, Denmark , 1979 .
[22] P. E. Zanstra,et al. Photosynthetic HCO(3) Utilization and OH Excretion in Aquatic Angiosperms: LIGHT-INDUCED pH CHANGES AT THE LEAF SURFACE. , 1980, Plant physiology.
[23] N. A. Walker,et al. PHOTOSYNTHESIS BY AQUATIC PLANTS: EFFECTS OF UNSTIRRED LAYERS IN RELATION TO ASSIMILATION OF CO2 AND HCO3−AND TO CARBON ISOTOPIC DISCRIMINATION , 1980 .
[24] S. Beer,et al. Carbon Metabolism in Seagrasses II. PATTERNS OF PHOTOS YNTHETIC CO2 INCORPORATION , 1980 .
[25] W. N. Wheeler. Effect of boundary layer transport on the fixation of carbon by the giant kelp Macrocystis pyrifera , 1980 .
[26] A. Holaday,et al. C(4) Acid Metabolism and Dark CO(2) Fixation in a Submersed Aquatic Macrophyte (Hydrilla verticillata). , 1980, Plant physiology.
[27] J. Browse,et al. Malate synthesis and metabolism during photosynthesis in Egeria densa planch , 1980 .
[28] J. Eaton,et al. The influence of environmental factors on apparent photosynthesis and respiration of the submersed macrophyte Elodea canadensis , 1980 .
[29] C. R. Benedict,et al. Fractionation of the stable isotopes of inorganic carbon by seagrasses. , 1980, Plant physiology.
[30] K. Sand‐Jensen,et al. Light Climate and Metabolism of Nitella flexilis (L.) AG. In the Bottom Waters of Oligotrophic Lake Grane Langsø, Denmark , 1981 .
[31] J. Keeley. ISOETES HOWELLII: A SUBMERGED AQUATIC CAM PLANT?' , 1981 .
[32] M. Salvucci,et al. Induction of reduced photorespiratory activity in submersed and amphibious aquatic macrophytes. , 1981, Plant physiology.
[33] D. Spence,et al. THE DIFFERENTIAL ABILITY OF AQUATIC PLANTS TO UTILIZE THE INORGANIC CARBON SUPPLY IN FRESH WATERS , 1981 .
[34] S. Beer,et al. Photosynthetic carbon metabolism in the submerged aquatic angiosperm Scirpus subterminalis , 1981 .
[35] S. Maberly,et al. RESISTANCES TO CARBON DIOXIDE FIXATION IN FOUR SUBMERGED FRESHWATER MACROPHYTES , 1981 .
[36] M. Salvucci,et al. Photosynthetic and photorespiratory responses of the aerial and submerged leaves of Myriophyllum brasiliense , 1982 .
[37] J. Keeley,et al. Gas Exchange Characteristics of the Submerged Aquatic Crassulacean Acid Metabolism Plant, Isoetes howellii. , 1982, Plant physiology.
[38] K. Sand‐Jensen,et al. OXYGEN EXCHANGE WITH THE LACUNAE AND ACROSS LEAVES AND ROOTS OF THE SUBMERGED VASCULAR MACROPHYTE, LOBELIA DORTMANNA L.* , 1982 .
[39] J. Keeley,et al. Distribution of diurnal acid metabolism in submerged aquatic plants outside the genus Isoetes , 1982 .
[40] J. Keeley. DISTRIBUTION OF DIURNAL ACID METABOLISM IN THE GENUS ISOETES , 1982 .
[41] S. Beer,et al. Photosynthesis in submersed macrophytes of a temperate lake. , 1982, Plant physiology.
[42] S. Sjöberg,et al. A precise potentiometric method for determination of algal activity in an open CO2 system , 1983 .
[43] K. Sand‐Jensen. Photosynthetic Carbon Sources of Stream Macrophytes , 1983 .
[44] A. Eshel,et al. Photosynthesis of Ulva sp. II. utilization of CO2 and HCO−3 when submerged , 1983 .
[45] T. V. Madsen,et al. The effects of current velocity on the photosynthesis of Callitriche stagnalis scop. , 1983 .
[46] J. Roelofs. IMPACT OF ACIDIFICATION AND EUTROPHICATION ON MACROPHYTE COMMUNITIES IN SOFT WATERS IN THE NETHERLANDS I. FIELD OBSERVATIONS , 1983 .
[47] M. Salvucci,et al. Two photosynthetic mechanisms mediating the low photorespiratory state in submersed aquatic angiosperms. , 1983, Plant physiology.
[48] W. Wallace,et al. Isolation of Capsicum annuum leaf nitrate reductase and characterization of the effect of adenine nucleotides and NADH on its activity , 1983 .
[49] M. Salvucci,et al. Variable photosynthesis/photorespiration ratios in Hydrilla and other submersed aquatic macrophyte species , 1983 .
[50] J. Berry,et al. Photosynthesis and Ribulose 1,5-Bisphosphate Concentrations in Intact Leaves of Xanthium strumarium L. , 1984, Plant physiology.
[51] T. V. Madsen. Resistance to CO2 Fixation in the Submerged Aquatic Macrophyte Callitriche stagnalis Scop , 1984 .
[52] M. Salvucci,et al. Hydrilla: Inducible C4-type Photosynthesis without Kranz Anatomy , 1984 .
[53] K. Sand‐Jensen,et al. Differential ability of marine and freshwater macrophytes to utilize HCO3- and CO2 , 1984 .
[54] K. M. Abel. Inorganic Carbon Source for Photosynthesis in the Seagrass Thalassia hemprichii (Ehrenb.) Aschers. , 1984, Plant physiology.
[55] J. Keeley,et al. Carbon Assimilation Characteristics of the Aquatic CAM Plant, Isoetes howellii. , 1984, Plant physiology.
[56] C. Sybesma,et al. Advances in Photosynthesis Research , 1984, Advances in Agricultural Biotechnology.
[57] K. Aulio. DIFFERENTIAL EXPRESSION OF DIEL ACID METABOLISM IN TWO LIFE FORMS OF LITTORELLA UNIFLORA (L.) ASCHERS , 1985 .
[58] K. Sand‐Jensen,et al. Microprofiles of oxygen in epiphyte communities on submerged macrophytes , 1985 .
[59] M. Proctor,et al. Water velocity, growth-form and diffusion resistances to photosynthetic CO2 uptake in aquatic bryophytes , 1985 .
[60] T. V. Madsen. A community of submerged aquatic CAM plants in Lake Kalgaard, Denmark , 1985 .
[61] W. J. Lucas,et al. Inorganic carbon transport in aquatic photosynthetic organisms , 1985 .
[62] HCO−3 as an Exogenous Carbon Source for Aquatic Bryophytes Fontinalis antipyretica and Fissidens grandifrons , 1985 .
[63] S. Maberly. PHOTOSYNTHESIS BY FONTINALIS ANTIPYRETICA , 1985 .
[65] Diffusion of inorganic carbon across an unstirred layer: a simplified quantitative approach , 1985 .
[66] S. Maberly. Photosynthesis by Fontinalis antipyretica. II: Assessment of environmental factors limiting photosynthesis and production , 1985 .
[67] J. Raven,et al. External and Internal CO2 Transport in Lemanea: Interactions with the Kinetics of Ribulose Bisphosphate Carboxylase , 1985 .
[68] K. Aulio. CAM-like photosynthesis in Littorella uniflora (L.) Aschers: the role of humidity , 1986 .
[69] Activities of Carboxylation Enzymes in Freshwater Macrophytes , 1986 .
[70] C. Cook,et al. Evidence for Bicarbonate Transport in Species of Red and Brown Macrophytic Marine Algae , 1986 .
[71] S. Strother,et al. Salt-Stimulated Bicarbonate-Dependent Photosynthesis in the Marine Angiosperm Zostera muelleri , 1986 .
[72] Carl D. Schlichting,et al. The Evolution of Phenotypic Plasticity in Plants , 1986 .
[73] D. Edmondson,et al. Relationship between steady-state gas exchange, in vivo ribulose bisphosphate carboxylase activity and some carbon reduction cycle intermediates in Raphanus sativus , 1986 .
[74] W. Fagerberg,et al. Evidence for Bicarbonate Active Transport in Elodea Nuttallii , 1987 .
[75] T. V. Madsen. Sources of Inorganic Carbon Acquired through CAM in Littorella uniflora (L.) Aschers , 1987 .
[76] T. V. Madsen. INTERACTIONS BETWEEN INTERNAL AND EXTERNAL CO2 POOLS IN THE PHOTOSYNTHESIS OF THE AQUATIC CAM PLANTS LITTORELLA UNIFLORA (L.) ASCHERS AND ISOETES LACUSTRIS L. , 1987 .
[77] S. Beer,et al. PHOTOSYNTHETIC CARBON METABOLISM IN ENTEROMORPHA COMPRESSA (CHLOROPHYTA) 1 , 1987 .
[78] Arana,et al. Progress in Photosynthesis Research , 1987, Springer Netherlands.
[79] Inorganic Carbon Concentrating Systems from an Environmental Perspective , 1987 .
[80] H. L. Boston,et al. Utilization of Sediment CO2 by Selected North American Isoetids , 1987 .
[81] T. V. Madsen. The effect of different growth conditions on dark and light carbon assimilation in Littorella uniflora , 1987 .
[82] H. L. Boston,et al. Models of the Use of Root-zone CO2 by Selected North American Isoetids , 1987 .
[83] W. J. Lucas,et al. Photorespiration and Internal CO(2) Accumulation in Chara corallina as Inferred from the Influence of DIC and O(2) on Photosynthesis. , 1987, Plant physiology.
[84] K. Sand‐Jensen,et al. Photosynthetic capacity, bicarbonate affinity and growth of Elodea canadensis exposed to different concentrations of inorganic carbon , 1987 .
[85] I. E. Woodrow,et al. Enzymatic Regulation of Photosynthetic CO2, Fixation in C3 Plants , 1988 .
[86] R. G. Smith,et al. Inorganic carbon transport in biological systems. , 1988, Comparative biochemistry and physiology. B, Comparative biochemistry.
[87] R. Helder. A QUANTITATIVE APPROACH TO THE INORGANIC CARBON SYSTEM IN AQUEOUS-MEDIA USED IN BIOLOGICAL-RESEARCH - DILUTE-SOLUTIONS ISOLATED FROM THE ATMOSPHERE , 1988 .
[88] G. Bowes,et al. Alternative methods of photosynthetic carbon assimilation in marine macroalgae. , 1988, Plant physiology.
[90] M. Rattray,et al. A preliminary survey for crassulacean acid metabolism (CAM) in submerged aquatic macrophytes in New Zealand , 1988 .
[91] Joseph S. Davis,et al. Photosynthesis in marine macroalgae: evidence for carbon limitation , 1988 .
[92] L. Axelsson,et al. Carbon acquisition strategies for marine macroalgae , 1988 .
[93] W. J. Goldsborough,et al. Light responses of a submersed macrophyte: implications for survival in turbid tidal waters. , 1988 .
[94] S. Beer,et al. Photosynthesis, photorespiration and ecophysiological interactions in marine macroalgae , 1989 .
[95] R. Bidwell,et al. Mechanism of Photosynthetic Carbon Dioxide Uptake by the Red Macroalga, Chondrus crispus. , 1989, Plant physiology.
[96] R. H. Berg,et al. Immunogold localization of primary carboxylases in leaves of aquatic and A C3-C4 intermediate species , 1989 .
[97] S. Beer. Photosynthesis and photorespiration of marine angiosperms , 1989 .
[98] K. Sand‐Jensen,et al. PHOTOSYNTHESIS AND CANOPY STRUCTURE OF A SUBMERGED PLANT, POTAMOGETON PECTINATUS, IN A DANISH LOWLAND STREAM , 1989 .
[99] M. Salvucci,et al. Plasticity in the photosynthetic carbon metabolism of submersed aquatic macrophytes , 1989 .
[100] M. Pedersen,et al. Effects of pH and inorganic carbon concentration on growth of Gracilaria secundata , 1989 .
[101] S. Maberly,et al. Photosynthesis and photorespiration in freshwater organisms : amphibious plants , 1989 .
[102] H. Prins,et al. Bicarbonate utilization: Function and mechanism , 1989 .
[103] E. Vapaavuori,et al. Time‐course of uptake of dissolved inorganic carbon through willow roots in light and in darkness , 1989 .
[104] H. Prins,et al. Light-Induced Polar pH Changes in Leaves of Elodea canadensis: I. Effects of Carbon Concentration and Light Intensity. , 1989, Plant physiology.
[105] S. Beer,et al. Photosynthesis of Ulva fasciata. IV. pH, carbonic anhydrase and inorganic carbon conversions in the unstirred layer , 1990 .
[106] S. Maberly,et al. A COMPARISON OF AIR AND WATER AS ENVIRONMENTS FOR PHOTOSYNTHESIS BY THE INTERTIDAL ALGA FUCUS SPIRALIS (PHAEOPHYTA) 1 , 1990 .
[107] H. Brix. Uptake and photosynthetic utilization of sediment-derived carbon by Phragmites australis (Cav.) Trin. ex Steudel , 1990 .
[108] C. Duarte,et al. Patterns in the Submerged Macrophyte Biomass of Lakes and the Importance of the Scale of Analysis in the Interpretation , 1990 .
[109] K. Sand‐Jensen,et al. Variation in growth rates of submerged rooted macrophytes , 1991 .