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Plant growth in controlled environments as an adjunct to field studies experimental application and results

Published online by Cambridge University Press:  27 March 2009

A. P. Hughes
Affiliation:
The Botany School, University of Cambridge

Extract

1. Field studies on Impatient parviflora DC. in shaded situations indicated the need for experimental investigation of the effects on growth of varying single factors of the aerial environment in otherwise constant conditions.

2. The use of cabinets which allow accurate control of the aerial environment for studies in physiology, morphogenesis, pathology and plant selection is discussed.

3. By comparison of the development and assimilatory ability of the leaves of I. parviflora, it is shown that plants may be grown in wholly artificial conditions which are substantially identical with those grown under comparable conditions out of doors.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1959

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References

REFERENCES

Barua, D. N. (1953) Effect of light intensity on the growth and assimilation of tea seedlings. Ph.D. Thesis, Cambridge.Google Scholar
Coombe, D. E. (1952). Plant growth in woodlands. Ph.D. Thesis, Cambridge.Google Scholar
Evans, G. C. (1939). J. Ecol. 27, 436.CrossRefGoogle Scholar
Evans, G. C. (195 ). J. agric. Sci.Google Scholar
Gregory, F. C. (1926). Ann. Bot., Lond., 40, 1.CrossRefGoogle Scholar
Hughes, A. P. (1959). J. Linn. Soc. Bot. (in the Press).Google Scholar
Milthorpe, F. L. (1956). The Growth of Leaves. London: Butterworth.CrossRefGoogle Scholar
Stoughton, R. H. (1930). Ann. appl. Biol. 17, 90.CrossRefGoogle Scholar
West, C., Briggs, G. E. & Kidd, F. (1920). New Phytol. 19, 200.Google Scholar
Wilson, A. B. (1937). Ann. appl. Biol. 24, 911.CrossRefGoogle Scholar