914 
References 
1. Chappelle E.W., Wood F.M., McMurtrey J.E. and Newcomb W.W., 1984. Laser-induced fluorescence of green 
plants. 1: A technique for the remote detection of plant stress and species differentiation. Appl. Opt., 23: 134- 
138. 
2. Goulas Y., Moya I. and Schmuck G., 1990. Time-resolved spectroscopy of the blue fluorescence of spinach leaves. 
Photosynth. Res., 25: 299-307. 
3. Chappelle E.W., McMurtrey J.E. and Kim M.S., 1991. Identification of the pigment responsible for the blue 
fluorescence band in the laser induced fluorescence (LIF) spectra of green plants, and the potential use of the band 
in remotely estimating rates of photosynthesis. Remote Sens. Environ., 36: 213-218. 
4. Lang M., Siffel P., Braunova Z. and Lichtenthaler H.K., 1992. Investigations of the blue-green fluorescence 
emission of plant leaves. Bot. Acta, 105: 435-440. 
5. Broglia M., 1993. Blue-green laser-induced fluorescence from intact leaves - Actinic light sensitivity and 
subcellular origins. Appl. Opt., 32: 334-338. 
6. Cerovic Z.G., Bergher M., Goulas Y., Tosti S. and Moya I., 1993. Simultaneous measurement of changes in red 
and blue fluorescence in illuminated isolated chloroplasts and leaf pieces - the contribution of NADPH to the blue 
fluorescence signal. Photosynth. Res., 36: 193-204. 
7. Stober F. and Lichtenthaler H.K., 1993. Characterization of the laser-induced blue, green and red fluorescence 
signatures of leaves of wheat and soybean grown under different irradiance. Physiol. Plant., 88: 696-704. 
8. Lang M., Stober F. and Lichtenthaler H.K., 1991. Fluorescence emisson spectra of plant leaves and plant 
constituents. Radiat. Environ. Biophys., 30: 333-347. 
9. Theisen A.F., 1988. Fluorescence changes of a drying marple leaf observed in the visible and near-infrared. In: 
Lichtenthaler HK, (ed.) Applications of Chlorophyll Fluorescence in Photosynthesis Research, Stress 
Physiology, Hydrobiology and Remote Sensing, Kluwer Academic Publisher, Dordrecht, pp. 197-201. 
10. Moya I., Guyot G. and Goulas Y., 1992. Remotely sensed blue and red fluorescence emission for monitoring 
vegetation. ISPRS J. Photogram. Remote Sens., 47: 205-231. 
11. Krause G. and Weis E., 1991. Chlorophyll fluorescence and photosynthesis: The basics. Ann. Rev. Plant Physiol. 
Plant Mol. Biol., 42: 313-349. 
12. Vogelmann T.C., 1993. Plant tissue optics. Annu. Rev. Plant. Physiol. Plant Mol. Biol., 44: 231-251. 
13. Raymond P., Gidrol X., Salon C. and Pradet A., 1987. Control involving adenine and pyridine nucleotides. In: 
Davies DD, (ed.) The Biochemistry of Plants, Academic Press, New York, pp. 129-176. 
14. Thorell B., 1983. Flow-cytometric monitoring of intracellular flavins simultaneously with NAD(P)H levels. 
Cytometry, 4: 61-65. 
15. Kunz W.S. and Gellerich F.N., 1993. Quantification of the content of fluorescent flavoproteins in mitochondria 
from liver, kidney cortex, skeletal muscle, and brain. Biochem. Med. Metab. Biol., 50: 103-110. 
16. Liden G., 1993. In situ fluorescence measurements clarifying or blurring the picture. Pure. Appl. Chem., 65: 1927- 
1932. 
17. Moya I., Hodges M. and Barbet J.-C., 1986. Modification of room-temperature picosecond chlorophyll 
fluorescence kinetics in green algae by photosystem П trap closure. FEBS lett., 198: 256-262. 
18. Grinwald A. and Steinberg I.Z., 1974. On the analysis of fluorescence decay kinetics by the method of least- 
squares. Anal. Biochem., 59: 583-598. 
19. Scott T.G., Spencer R.D., Leonard N.L. and G. W., 1970. Emission properties of NADH. Studies of fluorescence 
lifetimes and quantum efficiencies of NADH, AcPyADH, and simplified synthetic models. J. Am. Chem. Soc., 92: 
687-695. 
20. Wahl P., Auchet J.C., Visser J.W.G. and Millier F., 1974. Time resolved fluorescence of flavin adenine 
dinucleotide. FEBS Lett., 44: 67-70. 
21. Weber G., 1958. Transfert d'énergie dans la dihydro-diphosphopyridine nucléotide. J. Chem. Phys., 55: 878-886. 
22. Bomman J.F. and Vogelmann T.C., 1988. Penetration of blue and UV radiation measured by fiber optics in spruce 
and fir needles. Physiol. Plant., 72: 699-705. 
23. Weissenbock G., Schnabl H., Scharf H. and Sachs G., 1987. On the properties of fluorescing compounds in guard 
and epidermal cells of Allium сера L. Planta, 171: 88-95. 
24. Harbome J.B., 1988. The flavonoids: recent advances. In: Goodwin TW, (ed.) Plant Pigments, Academic Press, 
London, pp. 299-343. 
25. Harris PJ. and Hartley R.D., 1976. Detection of bound ferulic acid in the cell walls of the Gramineae by ultraviolet 
fluorecence microscopy. Nature, 259: 508-510. 
26. Bate-Smith E.C., 1962. The phenolic constituents of plants and their taxonomic significance. J. Linn. Soc. 
(Bot.), 58: 95-175. 
27. Shimazaki J., Tsubota K., Hayashi K., Kenyon K.R. and Laing R.A., 1993. Distribution of autofluorescence in the 
rabbit corneal epithelium. Ophthalmic Res., 25: 220-225. 
28. Gafni A. and Brand L., 1976. Fluorescence decay studies of reduced nicotinamide adenine dinucleotide in solution 
and bound to liver alcohol dehydrogenase. Biochemistry, 15: 3165-3170. 
29. Jameson D., Thomas V. and Zhou D., 1989. Time-resolved fluorescence studies on NADH bound to mitochondrial 
malate dehydrogenase. Biochim. Biophys. Acta, 994: 187-190.