Buch, Englisch, 420 Seiten, HC gerader Rücken kaschiert, Format (B × H): 175 mm x 250 mm, Gewicht: 900 g
Buch, Englisch, 420 Seiten, HC gerader Rücken kaschiert, Format (B × H): 175 mm x 250 mm, Gewicht: 900 g
ISBN: 978-0-521-82298-5
Verlag: Cambridge University Press
Photosynthetic organisms have an enormous influence on our environment through their effects on the development of other life on Earth and the way they alter the planet's geology and geochemistry. This book takes a unique approach by examining the evolutionary history of the major groups of aquatic photoautotrophs in the context of the ecophysiological characteristics that have allowed them to adapt to the challenges of life in water and thrive under past and present environmental conditions. The important role played by aquatic photoautotrophs on a planet undergoing unprecedented anthropogenic-induced change is also highlighted, in chapters on their critical function in mitigating environmental change through their physiological processes, and on the role of algae in biotechnology. This invaluable resource will be appreciated by researchers and advanced students interested in the biodiversity and evolutionary physiology of the full range of aquatic photoautotrophs, and their interaction with the environment.
Autoren/Hrsg.
Weitere Infos & Material
List of contributors; Preface; Acknowledgements; 1. Environmental changes impacting on, and caused by, the evolution of photosynthetic organisms John A. Raven; Part I. Origins and Consequences of Early Photosynthetic Organisms: 2. Early photosynthetic organisms John A. Raven; 3. ….And nothing was the same anymore: the rise of O2 and consequences for photoautotrophs John Beardall, Mario Giordano and John A. Raven; 4. The appearance of eukaryotic microalgae Patricia Sánchez-Baracaldo and John A. Raven; 5. The appearance of macroalgae: evolution and ecological consequences of multicellularity Olivier De Clerk and Catriona L. Hurd; 6. The evolution of aquatic embryophytes: secondary colonisers of aquatic environments Stephen C. Maberly; Part II. Physiology of Photosynthetic Autotrophs in Present Day Environments: 7. Light as a major driver of algal physiology and evolution Ondrej Prášil, John Beardall and John A. Raven; 8. Temperature: still an enigmatic driver in the evolution and physiology of algae Christian Wilhelm and Heiko Wagner; 9. Nutrient acquisition by algae and aquatic embryophytes Antonietta Quigg and John A. Raven; 10. Salinity Ulf Karsten; 11. Desiccation Catriona L. Hurd; 12. Trait Trade Offs in mixoplankton: an analysis Aditee Mitra, Kevin J. Flynn, Diane Stoecker and John A. Raven; 13. Effects of pollution on algae Prachi Varshney and John Beardall; 14. Algae in extreme and unusual environments John Beardall and John A. Raven; Part III. The Future: 15. Aquatic phototrophs and the greenhouse effect John Beardall and John A. Raven; 16. Ultraviolet radiation effects under climate change Anita G.J. Buma, E. Walter Helbling and Michael Y. Roleda; 17. Variation in nutrient availability for aquatic phototrophs and its ecological consequences Stephen C. Maberly; 18. Algae: New products and applications Michael A. Borowitzka; Index.
