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Chlorophyll fluorescence as a measure of photosynthetic carbon assimilation

1990; Royal Society; Volume: 242; Issue: 1303 Linguagem: Inglês

10.1098/rspb.1990.0099

1471-2954

George Seaton, David A. Walker,

Plant responses to elevated CO2

Restricted accessMoreSectionsView PDF ToolsAdd to favoritesDownload CitationsTrack Citations ShareShare onFacebookTwitterLinked InRedditEmail Cite this article Seaton George G. R. and Walker David Alan 1990Chlorophyll fluorescence as a measure of photosynthetic carbon assimilationProc. R. Soc. Lond. B.24229–35http://doi.org/10.1098/rspb.1990.0099SectionRestricted accessArticleChlorophyll fluorescence as a measure of photosynthetic carbon assimilation George G. R. Seaton Google Scholar Find this author on PubMed Search for more papers by this author and David Alan Walker Google Scholar Find this author on PubMed Search for more papers by this author George G. R. Seaton Google Scholar Find this author on PubMed and David Alan Walker Google Scholar Find this author on PubMed Published:22 October 1990https://doi.org/10.1098/rspb.1990.0099AbstractIt has long been supposed that there must be an inverse relation between chlorophyll fluorescence and photosynthetic carbon assimilation. Excitation of chlorophyll, by light, initiates the electron transport that drives photosynthesis. Excess excitation energy is dissipated as heat and as light (fluorescence) but, at least in regard to carbon assimilation, the actual fluorescence signal was once regarded as too complex to permit interpretation. More recently, the concept of two major fluorescence-quenching mechanisms and the development of techniques and devices that allow these to be resolved, has advanced understanding. Concepts and procedures based on linear relations between fluorescence parameters and carbon assimilation have allowed good predictions of photosynthetic rates. Here we show that a single curvilinear relation can be derived for several disparate plant species and suggest that this could allow photosynthesis and the effect of light on 'dark respiration' to be measured by non-intrusive fluorescence techniques without recourse to analysis of gaseous exchange between leaf and atmosphere.FootnotesThis text was harvested from a scanned image of the original document using optical character recognition (OCR) software. As such, it may contain errors. Please contact the Royal Society if you find an error you would like to see corrected. Mathematical notations produced through Infty OCR. 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Ibrahimova U, Zivcak M, Gasparovic K, Rastogi A, Allakhverdiev S, Yang X and Brestic M (2021) Electron and proton transport in wheat exposed to salt stress: is the increase of the thylakoid membrane proton conductivity responsible for decreasing the photosynthetic activity in sensitive genotypes?, Photosynthesis Research, 10.1007/s11120-021-00853-z This Issue22 October 1990Volume 242Issue 1303 Article InformationDOI:https://doi.org/10.1098/rspb.1990.0099Published by:Royal SocietyPrint ISSN:0962-8452Online ISSN:1471-2954History: Manuscript received03/07/1990Manuscript accepted24/07/1990Published online01/01/1997Published in print22/10/1990 License:Scanned images copyright © 2017, Royal Society Citations and impact Large datasets are available through Proceedings B's partnership with Dryad