Barbagallo RP, Oxborough K, Pallett KE, Baker NR. 2003. Rapid, non-invasive screening for perturbations of metabolism and plant growth using chlorophyll fluorescence imaging. Plant Physiology 132, 485–493.[Abstract/Free Full Text]
Barber J. 1998. Photosystem two. Biochimica et Biophysica Acta 1365, 269–277.[CrossRef][ISI][Medline]
Barker DH, Logan BA, Adams WW, Demmig-Adams B. 1998. Photochemistry and xanthophyll cycle-dependent energy dissipation in differently oriented cladodes of Opuntia stricta during the winter. Australian Journal of Plant Physiology 25, 95–104.[ISI]
Bennoun P, Béal D. 1997. Screening algal mutant colonies with altered thylakoid electrochemical gradient through fluorescence and delayed luminescence digital imaging. Photosynthesis Research 51, 161–165.[CrossRef][ISI]
Bilger W, Björkman O. 1990. Role of the xanthophyll cycle in photoprotection elucidated by measurements of light-induced absorbency changes, fluorescence and photosynthesis in leaves of Hedera canariensis. Photosynthesis Research 25, 173–185.[CrossRef][ISI]
Bro E, Meyer S, Genty B. 1996. Heterogeneity of leaf CO2 assimilation during photosynthetic induction. Plant, Cell and Environment 19, 1349–1358.[CrossRef][ISI]
Crofts AR, Baroli I, Kramer D, Taoka S. 1993. Kinetics of electron transfer between QA and QB in wild type and herbicide-resistant mutants of Chlamydomonas reinhardtii. Zeitschrift für Naturforschung 48, 259–266.[ISI]
Daley PF, Raschke K, Ball JT, Berry JA. 1989. Topography of photosynthetic activity of leaves obtained from video images of chlorophyll fluorescence. Plant Physiology 90, 1233–1238.[Abstract/Free Full Text]
Dau H. 1994. Molecular mechanisms and quantitative models of variable photosystem II fluorescence. Photochemistry and Photobiology 60, 1–23.[ISI]
Dau H, Sauer K. 1992. Electric-field effect on the picosecond fluorescence of Photosystem II and its relation to the energetics and kinetics of primary charge separation. Biochimica et Biophysica Acta 1102, 91–106.[CrossRef][ISI]
Demmig-Adams B, Adams WW, Barker DH, Logan BA, Bowling DR, Verhoeven AS. 1996. Using chlorophyll fluorescence to assess the fraction of absorbed light allocated to thermal dissipation of excess excitation. Physiologia Plantarum 98, 253–264.[CrossRef][ISI]
Dominy PJ, Baker NR. 1980. Salinity and in vitro ageing effects on primary photosynthetic processes of thylakoids isolated from Pisum sativum and Spinacia oleracea. Journal of Experimental Botany 31, 59–74.[ISI]
Fenton JM, Crofts AR. 1990. Computer-aided fluorescence imaging of photosynthetic systems: application of video imaging to the study of fluorescence induction in green plants and photosynthetic bacteria. Photosynthesis Research 26, 59–66.[ISI]
Genty B, Meyer S. 1995. Quantitative mapping of leaf photosynthesis using chlorophyll fluorescence imaging. Australian Journal of Plant Physiology 22, 277–284.[ISI]
Genty B, Briantais J-M, Baker NR. 1989. The relationship between the quantum yield of photosynthetic electron transport and quenching of chlorophyll fluorescence. Biochimica et Biophysica Acta 990, 87–92.[ISI]
Genty B, Wonders J, Baker NR. 1990. Non-photochemical quenching of Fo in leaves is emission wavelength dependent. Consequences for quenching analysis and its interpretation. Photosynthesis Research 26, 133–139.[CrossRef][ISI]
Havaux M, Strasser RJ, Greppin H. 1991. Effect of incident light intensity on the yield of steady-state chlorophyll fluorescence in intact leaves. Environmental and Experimental Botany 31, 23–32.[CrossRef][ISI]
Horton ?, Ruban AV, Walters RG. 1996. Regulation of light harvesting in green plants. Annual Review of Plant Physiology and Plant Molecular Biology 47, 655–684.[CrossRef][ISI]
Kramer DM, DiMarco G, Loreto F. 1995. Contribution of plastoquinone quenching to saturation pulse-induced rise of chlorophyll fluorescence in leaves. In: Mathis P, ed. Photosynthesis from light to the biosphere, Vol. I. Dordrecht: Kluwer Academic Publishers, 147–150.
Küpper H, 
etlík I, Trtílek M, Nedbal L. 2000. A microscope for two-dimensional measurements of in vivo chlorophyll fluorescence kinetics using pulsed measuring radiation, continuous actinic radiation, and saturating flashes Photosynthetica 38, 553–570.[CrossRef][ISI]
Joliot P, Joliot A. 1964. Etudes cinétiques de la réaction photochimique libérant l’oxygene au cours de la photosynthese. CR Academy of Sciences, Paris 258, 4622–4625.
Lavergne J, Trissl HW. 1995. Theory of fluorescence induction in photosystem II: derivation of analytical expressions in a model including exciton-radical-pair equilibrium and restricted energy transfer between photosynthetic units. Biophysical Journal 68, 2474–2492.[Abstract/Free Full Text]
Lawson T, Oxborough K, Morison JIL, Baker NR. 2002. Responses of photosynthetic electron transport in stomatal guard cells and mesophyll cells in intact leaves to light, CO2 and humidity. Plant Physiology 128, 1–11.[Free Full Text]
Leipner J, Oxborough K, Baker NR. 2001. Primary sites of ozone-induced perturbations of photosynthesis in leaves: identification and characterization in Phaseolus vulgaris using high resolution chlorophyll fluorescence imaging. Journal of Experimental Botany 52, 1689–1696.[Abstract/Free Full Text]
Maxwell K, Johnson GN. 2000. Chlorophyll fluorescence: a practical guide. Journal of Experimental Botany 51, 659–668.[Abstract/Free Full Text]
Meng Q, Siebke K, Lippert P, Baur B, Mukherjee U, Weis E. 2001. Sink-source transition in tobacco leaves visualized using chlorophyll fluorescence imaging. New Phytologist 151, 585–596.[CrossRef][ISI]
Nedbal L, Soukupovà J, Kaftan D, Whitmarsh H, Trílek M. 2000. Kinetic imaging of chlorophyll fluorescence using modulated light. Photosynthesis Research 66, 25–34.
Niyogi KK, Bjorkman O, Grossman AR. 1997. Chlamydomonas xanthophyll cycle mutants identified by video imaging of chlorophyll fluorescence quenching. The Plant Cell 9, 1369–1380.[Abstract]
Niyogi KK, Grossman AR, Bjorkman O. 1998. Arabidopsis mutants define central role for the xanthophyll cycle in the regulation of photosynthetic energy conversion. The Plant Cell 10, 1121–1134.[Abstract/Free Full Text]
Omasa K, Shimazaki K-I, Aiga I, Larcher W, Onoe M. 1987. Image analysis of chlorophyll fluorescence transients for diagnosing the photosynthetic system of attached leaves. Plant Physiology 84, 748–752.[Abstract/Free Full Text]
Osmond B, Schwartz O, Gunning B. 1999. Photoinhibitory printing on leaves, visualized by chlorophyll fluorescence imaging and confocal microscopy, is due to diminished fluorescence from grana. Australian Journal of Plant Physiology 26, 717–724.[ISI]
Oxborough K. 2004. Using chlorophyll a fluorescence imaging to monitor photosynthetic performance. In: Papageorgiou Govindjee, Papageorgiou George C, eds. Chlorophyll fluorescence—a signature of photosynthesis. Advances in Photosynthesis and Respiration Series. Kluwer Academic Publishers, (in press).
Oxborough K, Baker NR. 1997a. An instrument capable of imaging chlorophyll a fluorescence from intact leaves at very low irradiance and at cellular and subcellular levels. Plant, Cell and Environment 20, 1473–1483.[CrossRef][ISI]
Oxborough K, Baker NR. 1997b. Resolving chlorophyll a fluorescence images of photosynthetic efficiency into photochemical and non-photochemical components: calculation of qP and F'v/F'm without measuring F'o. Photosynthesis Research 54, 135–142.[CrossRef][ISI]
Oxborough K, Hanlon ARM, Underwood GJC, Baker NR. 2000. In vivo estimation of the photosystem II photochemical efficiency of individual microphytobenthic cells using high-resolution imaging of chlorophyll a fluorescence. Limnology and Oceanography 45, 1420–1425.[ISI]
Pfündel E. 1998. Estimating the contribution of photosystem I to total leaf chlorophyll fluorescence. Photosynthesis Research 56, 185–195.[CrossRef][ISI]
Robinson HH, Crofts AR. 1983. Kinetics of the oxidation-reduction reactions of the photosystem II quinone acceptor complex, and the pathway for deactivation. FEBS Letters 153, 221–226.[CrossRef][ISI]
Roelofs TA, Lee C-H and Holzwarth AR. 1992. Global target analysis of picosecond chlorophyll fluorescence kinetics from pea chloroplasts. Biophysical Journal 61, 1147–1163.[Abstract/Free Full Text]
Rolfe SA, Scholes JD. 2002. Extended depth-of-focus imaging of chlorophyll fluorescence from intact leaves. Photosynthesis Research 72, 107–115.[CrossRef][ISI][Medline]
Scholes JD, Rolfe SA. 1996. Photosynthesis in localised regions of oat leaves infected with crown rust (Puccinia coronata): quantitative imaging of chlorophyll fluorescence. Planta 199, 573–582.[ISI]
Siebke K, Weis E. 1995. Imaging of chlorophyll a fluorescence in leaves: topography of photosynthetic oscillations in leaves of Glechoma hederacea. Photosynthesis Research 45, 225–237.[CrossRef][ISI]
Verhoeven AS, Demmig-Adams B, Adams III WW. 1997. Enhanced employment of the xanthophyll cycle and thermal energy dissipation in spinach exposed to high light and N stress. Plant Physiology 113, 817–824.[Abstract]
Vernotte C, Etienne AL, Briantais JM. 1979. Quenching of the system II chlorophyll fluorescence by the plastoquinone pool. Biochimica et Biophysica Acta 545, 519–527.[CrossRef][ISI][Medline]
Zangerl AR, Hamilton JG, Miller TJ, Crofts AR, Oxborough K, Berenbaum MR, de Lucia EH. 2002. Impact of folivory on photosynthesis is greater than the sum of its holes. Proceedings of the National Academy of Sciences, USA 99, 1088–1091.[Abstract/Free Full Text]
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