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200 1 $aRecent developments in the algebraic, analytical, and topological theory of semigroups$eproceedings of a Conference held at Oberwolfach, Germany, May 24-30, 1981$fedited by K. H. Hofmann, H. Jurgensen, H. J. Weinert
210   $aBerlin [etc.]$cSpringer$d1983
215   $aVI, 486 p.$d25 cm.
225 2 $aLecture notes in mathematics$v998
410  0$12001$aLecture notes in mathematics
606   $aGruppi (Matematica)$xTeoria$xCongressi
676   $a512.2$v(21. ed.)$9Algebra, teoria dei numeri. Gruppi e teoria dei gruppi
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691   $a22A20$9Topological groups, Lie groups. Topological and differentiable algebraic systems. Analysis on topological semigroups
691   $a22A25$9Topological groups, Lie groups. Topological and differentiable algebraic systems. Representations of general topological groups and semigroups
691   $a22A26$9Topological groups, Lie groups. Topological and differentiable algebraic systems. Topological semilattices, lattices and applications
691   $a22E99$9Topological groups, Lie groups. Lie groups
702  1$aHofmann,$bKarl Heinrich
702  1$aJurgensen,$bHelmut
702  1$aWeinert,$bHanns Joachim
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200 10$aNon-Photochemical Quenching and Energy Dissipation in Plants, Algae and Cyanobacteria /$fedited by Barbara Demmig-Adams, Gyozo Garab, William Adams III, Govindjee
205   $a1st ed. 2014.
210  1$aDordrecht :$cSpringer Netherlands :$cImprint: Springer,$d2014.
215   $a1 online resource (672 p.)
225 1 $aAdvances in Photosynthesis and Respiration, Including Bioenergy and Related Processes,$x2215-0102 ;$v40
300   $aDescription based upon print version of record.
311 08$a94-017-9031-0 
320   $aIncludes bibliographical references at the end of each chapters and index.
327   $aFrom the Series Editors -- Preface -- 1. The Non-Photochemical Quenching of the Electronically Excited State of Chlorophyll a in Plants:  Definitions, Timelines, Viewpoints, Open Questions; George C. Papageorgiou, Govindjee -- 2. Lessons from Nature:  A Personal Perspective; William W. Adams III, Barbara Demmig-Adams -- 3. Developments in Non-Photochemical Quenching Research ? Emergence of Key Ideas, Theories and Experimental Approaches; Peter Horton -- 4. Photophysics of Photosynthetic Pigment-Protein Complexes; Evgeny E. Ostroumov et al -- 5. Non-Photochemical Quenching Mechanisms in Intact Organisms as Derived from Ultrafast-Fluorescence Kinetic Studies; Alfred R. Holzwarth, Peter Jahns -- 6. How Protein Disorder Controls Non-Photochemical Fluorescence Quenching; Tjaart P. J. Krüger et al -- 7. Context, Quantification, and Measurement Guide for Non-Photochemical Quenching of Chlorophyll Fluorescence; Barry A. Logan et al -- 8. Spectroscopic Investigation of Carotenoids Involved in Non-Photochemical Fluorescence Quenching; Tomá? Polívka, Harry A. Frank -- 9. Electronic Carotenoid-Chlorophyll Interactions Regulating Photosynthetic Light Harvesting of Higher Plants and Green Algae; P. Jomo Walla et al -- 10. Antenna Protein Conformational Changes Revealed by Resonance Raman Spectroscopy; Andrew A. Pascal et al -- 11. Fucoxanthin-Chlorophyll-Proteins and Non-Photochemical Fluorescence Quenching in Diatoms; Claudia Büchel -- 12. Involvement of a Second Xanthophyll Cycle in Non-Photochemical Quenching of Chlorophyll Fluorescence: the Lutein Epoxide Story; Raquel Esteban, José I. García-Plazaola -- 13. PsbS-dependent Non-Photochemical Fluorescence Quenching; Matthew D. Brooks et al -- 14. Molecular Mechanisms for Activation of Non-Photochemical Fluorescence Quenching: From Unicellular Algae to Mosses and Higher Plants; Tomas Morosinotto, Roberto Bassi -- 15. Are Chlorophyll-Carotenoid Interactions Responsible for Rapidly Reversible Non-Photochemical Fluorescence Quenching?; Herbert van Amerongen -- 16. Structural Changes and Non-Photochemical Quenching of Chlorophyll a Fluorescence in Oxygenic Photosynthetic Organisms; Gy?z? Garab -- 17. Non-Photochemical Fluorescence Quenching and the Dynamics of Photosystem II Structure; Alexander V. Ruban, Conrad W. Mullineaux -- 18. Control of Non-Photochemical Exciton Quenching by the Proton Circuit of Photosynthesis; Deserah D. Strand, David M. Kramer -- 19. Desiccation-Induced Quenching of Chlorophyll Fluorescence in Cryptogams; Wolfgang Bilger -- 20. The Peculiar Features of Non-Photochemical Fluorescence Quenching in Diatoms and Brown Algae; Johann Lavaud, Reimund Goss -- 21. High Light Acclimation in Green Microalgae; Giovanni Finazzi, Jun Minagawa -- 22. Mechanisms Modulating Energy Arriving at Reaction Centers in Cyanobacteria; Diana Kirilovsky et al -- 23. Photosystem II Efficiency and Non-Photochemical Fluorescence Quenching in the Context of Source-Sink Balance; William W. Adams III et al -- 24. Non-Photochemical Fluorescence Quenching in Contrasting Plant Species and Environments; Barbara Demmig-Adams et al -- 25. Non-Photochemical Fluorescence Quenching Across Scales: from Chloroplasts to Plants to Communities; Erik H. Murchie, Jeremy Harbinson -- 26. Beyond Non-Photochemical Fluorescence Quenching: the Overlapping Antioxidant Functions of Zeaxanthin and Tocopherols; Michel Havaux, José I. García-Plazaola -- 27. Thermal Energy Dissipation in Plants under Unfavorable Soil Conditions; Fermín Morales et al -- 28. Chloroplast Photoprotection and the Trade-Off Between Abiotic and Biotic Defense; Barbara Demmig-Adams et al -- Subject Index.
330   $aHarnessing the sun?s energy via photosynthesis is at the core of sustainable production of food, fuel, and materials by plants, algae, and cyanobacteria. Photosynthesis depends on protection (photoprotection) against the perils of intense sunlight.  The first line of defense among a cascade of photoprotective mechanisms is the safe removal of excess excitation energy within the light-harvesting system. The widely used indicator for photoprotective energy dissipation (thermal de-excitation of excited-state chlorophyll) is the quick, facile, and non-destructive assessment of non-photochemical quenching of chlorophyll fluorescence (NPQ). By placing light harvesting and photoprotection into the context of whole-organism function, this book directs the use of NPQ to aid in the identification of plant and algal lines with superior stress resistance and productivity. Furthermore, this volume addresses open questions in the interpretation of the molecular mechanisms of light harvesting and energy dissipation, the resolution of which should aid in the development of artificial photosynthetic systems. A comprehensive picture ? from theory to practice, and from single molecules to organisms in ecosystems ? is presented. In addition to providing current views of the leading specialists in this area, this book includes basic and practical information for non-specialists. For example, this book critically examines uses and misuses of the term NPQ and of advantages and pitfalls of NPQ measurements, and presents concrete recommendations for all concerned.
410  0$aAdvances in Photosynthesis and Respiration, Including Bioenergy and Related Processes,$x2215-0102 ;$v40
606   $aBotany
606   $aCytology
606   $aStress (Physiology)
606   $aSpectrum analysis
606   $aProteins
606   $aMicrobiology
606   $aRenewable energy sources
606   $aPlant Science
606   $aCellular Stress
606   $aSpectroscopy
606   $aProteins
606   $aMicrobiology
606   $aRenewable Energy
615  0$aBotany.
615  0$aCytology.
615  0$aStress (Physiology).
615  0$aSpectrum analysis.
615  0$aProteins.
615  0$aMicrobiology.
615  0$aRenewable energy sources.
615 14$aPlant Science.
615 24$aCellular Stress.
615 24$aSpectroscopy.
615 24$aProteins.
615 24$aMicrobiology.
615 24$aRenewable Energy.
676   $a570
676   $a571.9453
676   $a572633
676   $a579
702   $aDemmig-Adams$b Barbara$4edt$4http://id.loc.gov/vocabulary/relators/edt
702   $aGarab$b Gyozo$4edt$4http://id.loc.gov/vocabulary/relators/edt
702   $aAdams III$b William$4edt$4http://id.loc.gov/vocabulary/relators/edt
702   $aGovindjee$4edt$4http://id.loc.gov/vocabulary/relators/edt
906   $aBOOK
912   $a9910298348903321
996   $aNon-Photochemical Quenching and Energy Dissipation in Plants, Algae and Cyanobacteria$92505643
997   $aUNINA