Photosynthesis in the marine environment /

Marine Photosynthesis is important in forming the basis of nearly all marine food webs and it provides for at least half of the planet's primary production. Marine plant 'ecophysiology' is an expanding field for which many researchers would appreciate an up-to-date overview ... Photos...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Beer, Sven, 1949- (Autor), Björk, Mats (Autor), Beardall, John (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Ames, Iowa : Wiley Blackwell, 2014.
Temas:
Photosynthesis.
Plants > Effect of underwater light on.
Aquatic plants > Ecophysiology.
Underwater light.
Photosynthèse.
Plantes > Effets de la lumière sous-marine sur.
Plantes aquatiques > Écophysiologie.
Lumière sous-marine.
Aquatic plants > Ecophysiology
Photosynthesis
Plants > Effect of underwater light on
Underwater light
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Photosynthesis in the Marine Environment; Contents; Photosynthesis in the Marine Environment; About the authors; Contributing authors; Preface; About the companion website; Part I Plants and the Oceans; Introduction; Chapter 1 The evolution of photosynthetic organisms in the oceans; Chapter 2 The different groups of marine plants; 2.1 Cyanobacteria; 2.2 Eukaryotic microalgae; 2.3 Photosymbionts; 2.4 Macroalgae; 2.4.1 The green algae; 2.4.2 The brown algae; 2.4.3 The red algae; 2.5 Seagrasses; Chapter 3 Seawater as a medium for photosynthesis and plant growth; 3.1 Light; 3.2 Inorganic carbon.
  • 3.2.1 pH3.3 Other abiotic factors; 3.3.1 Salinity; 3.3.2 Nutrients; 3.3.3 Temperature; 3.3.4 Water velocities; Summary notes of Part I; Part II Mechanisms of Photosynthesis, and Carbon Acquisition in Marine Plants; Introduction to Part II; Chapter 4 Harvesting of light in marine plants: The photosynthetic pigments; 4.1 Chlorophylls; 4.2 Carotenoids; 4.3 Phycobilins; Chapter 5 Light reactions; 5.1 Photochemistry: excitation, de-excitation, energy transfer and primary electron transfer; 5.2 Electron transport; 5.3 ATP formation; 5.4 Alternative pathways of electron flow.
  • Chapter 6 Photosynthetic CO2-fixation and -reduction6.1 The Calvin Cycle; 6.2 CO2-concentrating mechanisms; Chapter 7 Acquisition of carbon in marine plants; 7.1 Cyanobacteria and microalgae; 7.1.1 Cyanobacteria; 7.1.2 Eukaryotic microalgae; 7.2 Photosymbionts; 7.3 Macroalgae; 7.3.1 Use of HCO3; 7.3.2 Mechanisms of HCO3- use; 7.3.3 Rubisco and macroalgal photosynthesis: The need for a CO2 concentrating mechanism; 7.4 Seagrasses; 7.4.1 Use of HCO3-; 7.4.2 Mechanisms of HCO3-use; 7.5 Calcification and photosynthesis; Summary notes of Part II.
  • Chapter 9 Photosynthetic responses, acclimations and adaptations to light9.1 Responses of high and low-light plants to irradiance; 9.2 Light responses of cyanobacteria and microalgae; 9.3 Light effects on photosymbionts; 9.4 Adaptations of Carbon acquisition mechanisms to light; 9.5 Acclimations of seagrasses to high and low irradiances; Chapter 10 Photosynthetic acclimations and adaptations to stress in the intertidal; 10.1 Adaptations of macrophytes to desiccation; 10.1.1 The ever-tolerant Ulva; 10.1.2 The intertidal Fucus; 10.1.3 The extremely tolerant Porphyra.

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