References
- Aust. J. Plant Physiol. v.22 Applications of chlorophyll fluorescence to forest ecology. Ball, M. C.;J. A. Butterworth;J. S. Roden;R. Christian;J. J. G. Egerton
- Korean. J. Bot. v.36 Light-de-pendent chilling injury on the photosynthetic activities of cucumber cotyledons. Chun, H. S.;B. Y. Moon;C.-H. Lee;I. K. Chung;I. H. Park;C. B. Lee
- Plant Physiol. v.92 Zeaxanthin synthesis, energy dissipation, and photoprotection of photosystem Ⅱ at chilling temperatures. Demmig-Adams, B.;K. Winter;A. Kruger;F.-C. Czygan
- Plant Physiol. v.92 Inhibition of zeaxanthin formation and of rapid changes in radiationless energy dissipation by dithiothreitol in spinach leaves and chloroplasts. Demmig-Adams, B.;W. W. Adams Ⅲ;U. Heber;S. Neimanis;K. Winter;A. Kruger;F. Czygan;W. Bilger;O. Bjorkman
- Light emission by plants and bacteria. Practical applications of fluorometric methods to algae and higher plant research. Govindjee;K. Satoh;Govindjee(ed.);J. Amesz(ed.);C. D. Fork(ed.)
- J. Photosci. v.3 Chlorophyll fluorescence in cucumber (Cucumis sativus L.) and pea (Pisum sativum L.) leaves under chilling stress in the light and during the subsequent recovery period. Ha, S. B.;Y.-J. Eu;C.-H. Lee
- Photosynth. Res. v.40 Photoinhibition of photosynthesis in chilled potato leaves is not correlated with a loss of Photosystem-Ⅱ activity: Preferential inactivation of photosystem I. Havaux, M.;A. Davaud
- Physiol. Plant. v.72 Monitoring chilling injury: A comparison of chlorophyll fluorescence measurements, post-chilling growth and visible symptoms of injury in Zea mays. Hetherington, S. E.;G. Oquist
- Biochim. Biophys. Acta v.932 Studies on the induction of chlorophyll fluorescence in isolated barley protoplast. Ⅳ. Resolution of non-photochemical quenching. Horton, P.;A. Hague
- Methods in plant biochemistry v.4 Chlorophyll fluorescence transients. Horton, P.;J. R. Bowyer;J. L. Harwood(ed.);J. R. Bowyer(ed.)
- Biochemistry v.29 Protection from photoinhibition by low temperature in Synechocystis 6714 and in Chlamydomonas reinhardtii: Detection of an intermediary state. Kirilovsky, D. L.;C. Vernotte;A.-L. Etienne
- J. Plant Biol. v.38 Mercury-induced light-dependent alterations of chlorophyll a fiuorescence kinetics in barley leaves. Lee, C.-H.;H. Chang;S.-B. Ha;C. B. Lee
- RDA J. Agri. Sci. v.35 Chilling stress indicators from chlorophyll fluorescence assay of rice strains in vivo. Lee, C.-H.;M.-S. Lee;S.-J. Yang
- Applications of cholorophyll fluorescence in photosynthesis research, Stree physiology, hydrobiology and remote sensing. In vivo chlorophyll fluorescence as a tool for stress detection in plants Lichtenthaler, H. K.;H. K. Lichtenthaler(ed.)
- Physiol. Plant. v.67 Comparison of chlorophyll fluorescence with several other techniques used to assess chilling sensitivity in plants. MacRae, E. A.;A. K. Hardacre;L. B. Ferguson
- Effects of Stress on Photosynthesis. Fatty acid compositions of phosphatidylglycerols from plastids in chilling-sensitive and chilling-resistant plants. Murata, N.;F. Marcelle(ed.);H. Clijsters(ed.);M. Van Pouke(ed.)
- Plant Cell Physiol. v.24 Molecular species composition of phosphatidylglycerols from chilling-sensitive and chilling resistant plants. Murata, N.
- Photosynthetica v.25 The effect of light, during and subsequent to chilling, on the photosynthetic activity of two soybean cultivars, measured by in vivo chlorophyll fluorescence. Neuner, G.;W. Larcher
- Biochim. Biophys. Acta. v.934 A study of the regulation and function of energy-de-pendent quenching in pea chloroplasts Oxborough, K.;P. Horton
- Plant Physiol. v.86 A comparison of the effects of chilling on thylakoid electron transfer in pea (Pisum sativum L.) and cucumber (Cucumis sativus L.). Peeler, T.;A. W. Naylor
- Light emission by plants and bacteria. Practical applications of fluorometric methods to algae and higher plant research. Renger, G.;U. Schreiber;Govindjee(ed.);J. Amesz(ed.);D. C. Fork(ed.)
- Plant Physiol. v.72 Stress tolerance and stress-induced injury in crop plants measured by chlorophyll fluorescence in vivo. Smillie, R. M.;S. E. Hetherington
- Measurement techniques in plant science Screening for stress tolerance by chlorophyll fluorescence. Smillie, R. M.;S. E. Hetherington;Y. Hashimoto(ed.);P. J. Kramer(ed.);H. Nonami(ed.);B. R. Strain(ed.)
- Applications of chlorophyll fluorescence in photosynthesis research, stress physiology, hydrobiology and remote sensing. Changes in chlorophyll fluorescence related to photoinhibition of photosynthesis and cold acclimation of green plants Somersalo, S.;G. H. Krause;H. K. Lichtenthaler(ed.)
- Planta v.177 Photoinhibition at chilling temperature: Fluorescence characteristics of unhardened and cold-acclimated spinach leaves. Somersalo, S.;G. H. Krause
- Planta v.193 The site of photoinhibition in leaves of Cucumis sativus L. at low twmperatures id photosystem I, not photosystemⅡ. Terashima, L.;S. Funayama;K. Sonoike
- Chilling injury of horticultural crops. Assessment of chilling sensitivity by chlorophyll fluorescence analysis. Wilson, J. M.;J. A. Greaves;C. Y. Wang(ed.)