Environmental Engineering Reference
In-Depth Information
7. Jenkins, G.I., Fuglevand, G. and Christie, J.M. (1997) UV-B perception and signal transduction. In
Plants
and UV-B: Responses to Environmental Change
(P.J. Lumsden, ed), Cambridge University Press,
pp 95-111.
8. Stapleton, A.E. (1992) Ultraviolet radiation and plants: burning questions.
Plant Cell
, 4: 1353-1358.
9. Teramura, A.H. and Sullivan, J.H. (1994) Effects of UV-B radiation on photosynthesis and growth of
terrestrial plants,
Photosynthesis Research
, 39: 463-473.
10. Fiscus, E.L. and Booker, F.L. (1995) Is increased UV-B a threat to crop photosynthesis and productivity?,
Photosynthesis Research
, 43: 81-92.
11. Baker, N.R. and Bowyer, J.R. (1994)
Photoinhibition of Photosynthesis: from Molecular Mechanisms to
the Field
, Eios Scientific Publishers, Oxford.
12. Friso, G., Spetea, C., Giacometti, G.M., Vass, I. and Barbato, R. (1994) Degradation of Photosystem II
reaction centre D1-protein induced by UV-B radiation in isolated thylakoids. Identification and
characterisation of C- and N- terminal breakdown products,
Biochim Biophys Acta
, 1184: 78-84.
13. Jansen, M.A.K., Gaba, V., Greenburg, B.M., Mattoo, A.K. and Edelman, M. (1996) Low threshold levels
of ultraviolet-B in a background of photosynthetically active radiation trigger rapid degradation of the D2
protein of photosystem II,
Plant Journal
, 9: 693-699.
14. Nogués, S., Allen, D.J., Morison, J.I.L. and Baker, N.R. (1998) Ultraviolet-B radiation effects on water
relations, leaf development and photosynthesis in droughted pea plants,
Plant Physiol.
, 117: 173-181.
15. Nogués, S., Allen, D.J., Morison, J.I.L. and Baker, N.R. (1999) Characterization of stomatal closure by
ultraviolet-B radiation,
Plant Physiol.
, 121: 489-496.
16.Caldwell, M.M. (1971) Solar UV irradiation and the growth and development of higher plants. In
Photophysiology Vol. 6
(A.C. Giese, ed), Academic Press, New York, pp 131-177.
17. Nogués, S. and Baker, N.R. (1995) Evaluation of the role of damage to photosystem II in the inhibition of
CO
2
assimilation in pea leaves on exposure to UV-B.
Plant Cell Environ.
, 18: 781-787.
18. Xiong, F.S. and Day, T.A. (2001) Effect of solar ultraviolet-B radiation during springtime ozone depletion
on photosynthesis and biomass production of Antarctic vascular plants.
Plant Physiol.
, 125: 738-751.
19.Allen, D.J., McKee, I.F., Farage, P.K. and Baker, N.R. (1997) Analysis of the limitation to CO
2
assimilation on exposure of leaves of two
Brassica napus
cultivars to UV-B. Plant,
Cell Environ.
,
20: 633-640.
20. Wilson, M.I., Ghosh, S., Gerhardt, K.E., Holland, N., Babu, T.S., Edelman, M., Dumbroff, E.B. and
Greenburg, B.M. (1995) In-vivo photomodification of Ribulose 1,5- Bisphosphate Carboxylase Oxygenase
holoenzyme by ultraviolet-B radiation - formation of a 66-kiloDalton variant of the large subunit,
Plant
Physiol.
, 109: 221-229.
21. Baker, N.R., Nogués, S. and Allen, D.J. (1997) Photosynthesis and Photoinhibition. In
Plants and UV-B:
Responses to Environmental Change
(Lumsden PJ, ed), Cambridge University Press, pp 95-111.
22. Nie, G.-Y., Tomasevic, M. and Baker, N.R. (1993) Effects of ozone on the photosynthetic apparatus and
leaf proteins during leaf development in wheat,
Plant Cell Environ.
, 16: 643-651.
23. Allen, D.J., Nogués, S., Morison, J.I.L., Greenslade. P.D., Mcleod, A.R. and Baker, N.R. (1999) A thirty
percent increase in UV-B has no impact on photosynthesis in well-watered and droughted pea plants in the
field,
Global Change Biology
, 5: 213-222.
24. Gonzalez, R., Mepsted, R., Wellburn, A.R. and Paul, N.D. (1998) Non-photosynthetic mechanisms of
growth reduction in pea (
Pisum sativum
) exposed to UV-B radiation,
Plant Cell Environ.
, 21: 23-32.
25. Staxén, L., Bergounioux, C. and Bornman, J.F. (1993) Effect of ultraviolet radiation on cell division and
microtubule organization in
Petunia hybrida
protoplasts,
Protoplas.
, 173: 70-76.
26. Logemann, E., Wu, S.-C., Schröder, J., Schmelzer, E., Somssich, I.E. and Hahlbrock, K. (1995) Gene
activation by UV light, fungal elicitor or fungal infection in
Petroselinum crispum
is correlated with
repression of cell cycle-related genes,
Plant Journal
, 8: 865-876.
27. Tevini, M. and Iwanzik, W. (1986) Effects of UV-B radiation on growth and development of cucumber
seedlings. In
Stratospheric ozone reduction, solar ultraviolet radiation and plant life
, Vol G8
(R.C. Worrest and M.M. Caldwell, eds), Springer-Verlag, Berlin, pp 271-285.
28. Sullivan, J.H., Teramura, A.H. and Dillenburg, L.R. (1994) Growth and photosynthesis responses of field-
grown sweetgum (
Liquidambar styracifolia
, Hamammelidaceae) seedlings to UV-B radiation,
Am. J. Bot.
,
81: 826-832.
29. Mepsted, R., Paul, N.D., Stephen, J., Corlett, J.E., Nogués, S., Baker, N.R., Jones, H.G. and Ayres, P.G.
(1996) Effects of enhanced UV-B radiation on pea (
Pisum sativum
) grown under field conditions in the
UK,
Global Change Biology
, 2: 325-334.
30. Day, T.A., Howells, B.W. and Ruhland, C.T. (1996) Changes in growth and pigment concentrations with
leaf age in pea under modulated UV-B radiation field treatments,
Plant Cell Environ.
, 19: 101-108.
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