Environmental Engineering Reference
In-Depth Information
35. Munakata, N. (1993) Biologically effective dose of solar ultraviolet radiation estimated by spore dosimetry
in Tokyo since 1980, Photochem. Photobiol. , 58: 386-392.
36. Gróf, P., Gaspar, S. and Rontó, G. (1996) Use of uracil thin layer for measuring biologically effective UV
dose, Photochem. Photobiol. , 64: 800-806.
37. Galkin, O.N. and Terenetskaya, I.P. (1999) 'Vitamin D' biodosimeter; basic characteristics and potential
applications, J. Photochem. Photobiol. B: Biol. , 53: 12-19.
38. Regan, J.D., Carrier, W.L., Gucinski, H., Olla, B.L., Yoshida, H., Fujimura, R.K. and Wicklund, R.I.
(1992) DNA as a solar dosimeter in the ocean, Photochem. Photobiol. , 56: 35-42.
39. Karentz, D. and Lutze, L.H. (1990) Evaluation of biologically harmful ultraviolet radiation in Antarctica
with a biological dosimeter designed for aquatic environments, Limnol. Oceanogr. , 35: 549-561.
40. Quintern, L.E., Horneck, G., Eschweiler, U. and Bücker, H. (1992) A biofilm used as ultraviolet dosimeter,
Photochem. Photobiol. , 55: 389-395.
41. Baumstark-Khan, C., Hellweg, C.E., Scherer, K. and Horneck, G. (1999) Mammalian cells as biomonitors
of UV-exposure, Anal. Chim. Acta , 387: 281-287.
42. Horneck, G. (1997) Biological UV dosimetry. In The Effects of Ozone Depletion on Aquatic Ecosystems
(D.-P. Häder, ed.), R.G. Landes Company and Academic Press, Inc., pp. 119-142.
43. Häder, D.-P. and Worrest, R.C. (1991) Effects of enhaced solar ultraviolet radiation on aquatic ecosystems,
Photochem. Photobiol. , 53: 717-725.
44. Yoshida, H. and Regan, J.D. (1997) UVB DNA dosimeters analyzed by polymerase chain reactions,
Photochem. Photobiol. , 66: 82-88.
45. Ishigaki, Y., Takayama A., Yamashita S. and Nikaido O. (1999) Development and characterization of a
DNA solar dosimeter, J. Photochem. Photobiol. B: Biol. , 50: 184-188.
46. Bérces, A., Fekete, A., Gáspár S., Gróf, P., Rettberg, P., Horneck, G. and Rontó, Gy. (1999) Biologial UV
dosimeters in the assessment of biological hazards from environmental radiation, J. Photochem. Photobiol.
B: Biol. , 53: 36-43.
47. Rontó, G., Gáspár, S., Gróf, P., Bérces A. and Gugolya, Z. (1994) Ultraviolet dosimetry in outdoor
measurements based on bacteriophage T7 as a biosensor, Photochem. Photobiol. , 59: 209-214.
48. Terenetskaya, I.P. (1994) Provitamin D photoisomerisation as possible UVB monitor: kinetic study using a
tuneable dye laser. SPIE Proc Int. Conf. Biomed.Optics, Vol. 2134 B, p.135.
49. Webb, A.R., Kline, L. and Hollick, M.F. (1988) Influence of season and latitude on the cutaneous synthesis
of vitamin D 3 : exposure to winter sunlight in Boston and Edmonton will not promote Vitamin D 3 synthesis
in human skin. J. Clin. Endocrin. Metabol. , 67: 373-378.
50. Tyrrell, R. (1978) Solar dosimetry with repair deficient bacterial spores: action spectra, photoproduct
measurements and a comparison with other biological systems, Photochem. Photobiol. , 27: 571-579.
51. Harm, W. (1979) Relative effectiveness of the 300-320 nm spectral region of sunlight for the production of
primary lethal damage in E. coli cells, Mut. Res ., 60: 263-270.
52. Tyrrell, R.M. and Souza-Neto, A. (1981) Lethal effects of natural solar ultraviolet radiation in repair
proficient and repair deficient strains of Escherichia coli : actions and interactions, Photochem. Photobiol .,
34: 331-337.
53. Tyrrell, R.M. (1980) Solar dosimetry and weighting factors, Photochem. Photobiol ., 31: 421-422.
54. Munakata, N. (1981) Killing and mutagenic action of sunlight upon Bacillus subtilis spores: a dosimetric
system, Mut. Res ., 82: 263-268.
55. Munakata, N. (1989) Genotoxic action of sunlight upon Bacillus subtilis spores: monitoring studies at
Tokyo, Japan, J. Radiat. Res ., 30: 338-351.
56. Wang, T.V. (1991) A simple convenient biological dosimeter for monitoring solar UVB radiation,
Biochem. Biophys. Res. Comm ., 177: 48-53.
57. Puskeppeleit, M., Quintern, L.E., ElNaggar, S., Schott, J.U., Eschweiler, U., Horneck, G. and Bücker, H.
(1992) Long-term dosimetry of solar UV radiation in Antarctica with spores of Bacillus subtilis, Appl.
Environm. Microbiol ., 58: 2355-2359.
58. Quintern, L.E., Puskeppeleit, M., Rainer, P., Weber, S., ElNaggar, S., Eschweiler, U. and Horneck, G.
(1994) Continuous dosimetry of the biologically harmful UV-radiation in Antarctica with the biofilm
technique, J. Photochem. Photobiol. B: Biol ., 22: 59-66.
59. Quintern, L.E., Furusawa, Y., Fukutsu, K. and Holtschmidt, H. (1997) Characterization and application of
UV detector spore films: the sensitivity curve of a new detector system provides good similarity to the
action spectrum for UV-induced erythema in human skin, J. Photochem. Photobiol. B:Biol ., 37: 158-166.
60. Munakata N, (1995) Continual increase in biologically effective dose of solar UV radiation determined by
spore dosimetry from 1980 to 1993 in Tokyo, J. Photochem. Photobiol. B:Biol ., 31: 63-68.
,
Previous Page
Next Page
Environmental UV Radiation: Impact on Ecosystems and Human Health and Predictive Models
Search WWH ::




Custom Search
Home