Photosynthesis Research

, Volume 83, Issue 1, pp 1–3 | Cite as

Jean-Marie Briantais (1936–2004), a friend and a champion of interactive and integrative research

Obituary

Keywords

Plant Physiology Integrative Research 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Arntzen, CJ, Briantais, J-M 1975Chloroplast structure and functionGovindjee,  eds. Bioenergetics of PhotosynthesisAcademic PressNew York51113Google Scholar
  2. Briantais, J-M 1969Séparation physique et arrangement mutuel des deux systèmes photochimiques des chloroplastesPhysiol Vég7135180Google Scholar
  3. Briantais, J-M, Merkelo, H, Govindjee, G. 1972Lifetime of the excited state τ in vivo. III. Chlorophyll during fluorescence induction in Chlorella pyrenoidosaPhotosynthetica6133141Google Scholar
  4. Briantais, J-M, Vernotte, C, Moya, I 1973Intersystem exciton transfer in isolated chloroplastsBiochim Biophys Acta325530538PubMedGoogle Scholar
  5. Briantais, J-M, Vernotte, C, Picaud, M, Krause, GH 1979A quantitative study of the slow decline of chlorophyll a fluorescence in isolated chloroplastsBiochim Biophys Acta548128138PubMedGoogle Scholar
  6. Briantais, J-M, Vernotte, C, Olive, J, Wollman, F-A 1984Kinetics of cation-induced changes of photosystem II fluorescence and of lateral distribution of the two photosystems in the thylakoid membranes of pea chloroplastsBiochim Biophys Acta76618Google Scholar
  7. Briantais, J-M, Vernotte, C, Krause, GH, Weis, E 1986Chlorophyll a fluorescence of higher plants: Chloroplasts and leavesGovindjee, Amesz, JFork, DC eds. Light Emission by Plants and BacteriaAcademic PressOrlando, Florida539583Google Scholar
  8. Briantais, J-M, Dacosta, J, Goulas, Y, Ducruet, J-M, Moya, I 1996Heat-stress induces in leaves an increase of the minimum level of chlorophyll fluorescence, Fo: a time resolved analysisPhotosynth Res46189196CrossRefGoogle Scholar
  9. Cornic, G, Briantais, J-M 1991Partitioning of photosynthetic electron flow between CO2 and O2 in a C3 leaf (Phaseolus vulgaris L.) at different CO2 concentrations and during drought stressPlanta183178184CrossRefGoogle Scholar
  10. Cerovic, ZG, Goulas, Y, Gorbunov, M, Briantais, J-M, Camenen, L, Moya, I 1996Fluorosensing of water stress in plants. Diurnal changes of the mean lifetime and yield of chlorophyll fluorescence measured simultaneously and at distance with a τ-LIDAR and a modified PAM-fluorimeter, in maize, sugar beet and KalanchoeRemote Sens Environ58311321CrossRefGoogle Scholar
  11. de, Kouchkovsky Y 2002The laboratory of photosynthesis and its successors at Gif-sur-Yvette, FrancePhotosynth Res73285303CrossRefGoogle Scholar
  12. Genty, B, Briantais, J-M, Baker, N 1989The relationship between the quantum yield of photosynthetic electron transport and quenching of chlorophyll fluorescenceBiochim Biophys Acta9908792Google Scholar
  13. Govindjee, G., Briantais, J-M 1972Chlorophyll b fluorescence and an emission band at 700 nm at room temperature in green algaeFEBS Lett19278280CrossRefPubMedGoogle Scholar
  14. Moya, I, Hodges, M, Briantais, J-M, Hervo, G 1986Evidence that the variable chlorophyll fluorescence in Chlamydomonas reinhardtii is not recombination luminescencePhotosynth Res10319325CrossRefGoogle Scholar
  15. Vernotte, A., Etienne, A-L, Briantais, J-M 1979Quenching of the system II chlorophyll fluorescence by the plastoquinone poolBiochim Biophys Acta545519527PubMedGoogle Scholar

Copyright information

© Springer 2005

Authors and Affiliations

  1. 1.Institut des Sciences du Végétal/CytométrieCNRScedexFrance
  2. 2.Equipe Photosynthèse et TélédétectionUniversité Paris-SudcedexFrance

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