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Introduction Material and Methods Experimental Results and Discussion Experimental Results and Discussion (cont.) Experimental Results and Discussion (cont.) Conclusion References

Page 7 of 7

[1] Popp F.A., Ruth B., Bahr .W., Bohm J., Grass P., Grolig G., Rattemeyer M., Schmidt H.G. and Wulle P.: Emission of visible and ultraviolet radiation by active biological systems, Coll. Phenomena 3 (1981) 187.

[2] Chwirot W.B.,Dygdala R.S.,Chwirot S: Optical coherence of white light induced photon emission from microsporocytes of Larix europaea. Cytobios, 44 (1985) 239.

[3] Schamhart D.H.J., Van Wijk R.:Photon emission and the degree of differentiation, in Photon Emission from Biological Systems , B. Jezowska-Trebiatowska, B. Kochel, J.Slawinski and W. Strek eds, World Scientific, Singapore, (1986) 137

[4] Veselova T.V., Veselovsky V.A., Rubin A.B. and Bocharov V.Z. : Delayed Luminescence of air-dry soybean seeds as a measure of their viability, Physiol. Plant. 65 (1985) 493-497.

[5] Tryka S. and Koper R.: Luminescence of cereal grain subjected to the effect of mechanical loads, in Photon Emission from Biological Systems , B. Jezowska-Trebiatowska, B. Kochel, J.Slawinski and W. Strek eds, World Scientific, Singapore, (1986) 248-254.

[6] Ezzahir A., Kwiecinska T., Godlewski M., Sitko D., Rajfur Z., Slawinski J, Szczesniak-Fabianczyk B., Laszczka A.: The influence of white light on photo-induced luminescence from bull spermatozoa, ABC 2/3 (1992) 133 -137.

[7] Ho M.W., Xu X., Ross S., Saunders, P.T. : Light emission and rescattering in syncronously developing populations of early Drosophila embryos, in Recet Advances in Biophoton Research, Popp F.A., LI K.H. and Gu Q. eds, World Scientific, Singapore, (1992) 287-306.

[8] Van Wijk R., Van Aken H., Mei W.P., Popp F.A. : Light-induced photon emission by mamalian cells, Journal of Photochemistry and Photobiology B: Biology, 18 (1993) 75-79.

[9] Chwirot B., Popp F.A. : White light induced luminescence and mitotic activity of yeast cells, Folia Histochemica et Cytobiologica, 29 (1991) 155.

[10] Neurohr R.: Non-linear optical properties of delayed luminescence from cress seeds, in Recet Advances in Biophoton Research, Popp F.A., LI K.H. and Gu Q. eds, World Scientific, Singapore, (1992) 375-392.

[11] Niggli, H. J. : Artificial sunlight irradiation induces ultraweak photon emission in human skin fibroblasts, Journal of Photochemistry and Photobiology B: Biology, 18 (1993) 281-285.

[12] Musumeci F., Triglia A., Grasso F., Scordino A., Sitko D., Relation between delayed luminescence and functional state in soya seeds, Il Nuovo Cimento D, 16 (1994) 65-73

[13] Scordino A., Triglia A., Musumeci F., Grasso F., Rajfur Z.: Influence of the presence of atrazine in water on in-vivo delayed luminescence of Acetabularia Acetabulum , in press on Journal of Photochemistry and Photobiology B: Biology, (1995)

[14] Popp, F.A. : On the Coherence of Ultraweak Photon Emission from Living Tissues. In : Disequilibrium and Self-Organization, C.W. Kilmister (Ed), D.Reidel Publishing Company, Dordrecht, (1986) pp. 207-230.

[15] Popp, F.A. Coherent Photon Storage of Biological Systems. In Electromagnetic Bio-Information, F.A. Popp et al. eds ,Urban and Schwarzenberg Munchen, (1989) pp. 144-167.

[16] Popp F.A. and LI K.H.: Hyperbolic Relaxation as a Sufficient Condition of a Fully Coherent Ergodic Field, International Journal of Theoretical Physics 32 (1993), 1573-1583.

[17] J.Govindjee, M.van de Ven, C.Preston, M.Seibert and E.Gratton, Chlorophyll a fluorescence lifetime distributions in open and closed photosystem II reaction center preparations, Biochimica et Biophysica Acta 1015 (1990) 173-179.

[18] Williams, F.E. "Solid State Luminescence". In Adavances in Electronics, Academic Press, New York, 5 (1953) pp. 137.

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