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The effect of CCC, nitrogen and potassium on the growth and yield of two varieties of potatoes

Published online by Cambridge University Press:  27 March 2009

H. P. M. Gttnasena
Affiliation:
Department of Agriculture, Beading University
P. M. Harris
Affiliation:
Department of Agriculture, Beading University

Summary

The two experiments described here were the 3rd and 4th in a series of experiments investigating the effect of time of application of nitrogen and potassium on the growth and yield of potatoes.

The effect of applying all the fertilizer nitrogen in the seed bed was compared with applying all the nitrogen at the time of tuber initiation or dividing the dressing between these times. Similar times of application were tested for potassium. CCC was applied after a leaf area index of 3 had been reached (on all but the no N treatments) in order to offset the tendency for late nitrogen to increase stem growth, but to avoid any tendency for CCC to depress yield by reducing leaf area indices (L) below an assumed optimum value of 3. These treatments were applied in separate experiments to a second early variety (Craig's Royal) and a maincrop variety (Pentland Dell), planted a month later.

In both crops the response to nitrogen was large and delaying or splitting the application of nitrogen increased tuber yield compared with nitrogen applied in the seed bed. Responses to potassium were small, but there was a tendency for split applications to be superior to late or early applications.

The beneficial effect of delayed or split applications of nitrogen was associated with an improvement in the recovery of nitrogen in the crop which was largely ascribed to a reduction in loss due to leaching. Total and tuber dry-matter yields were linearly related to leaf area duration (D) in both crops, although the earlier variety was more efficient per unit of D. High values of L (6) were recorded for both crops, but there was no indication of an optimal value of L; consequently CCC which reduced L also reduced yield. D was closely related to the maximum quantity of nitrogen accumulated in the leaves per unit area of ground.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1971

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References

Birch, J. A., Devine, J. R. & Holmes, M. R. J. (1965). Field experiments on the fertilizer requirements of early potatoes. Expl Husb. 12, 2943.Google Scholar
Bremner, P. M. & El Saeed, A. K. (1963). The significance of seed size and spacing. In The Orowth of the Potato, Proc. 10th Easter Sch. Agric. Sci. Univ. Noltm. p. 267. Ed. Ivins, J. D. and Milthorpe, F. L., London: Butterworths.Google Scholar
Bremner, P. M. & Radley, R. W. (1966). Studies in potato agronomy. II. The effect of variety and time of planting on growth, development and yield. J. agric. Sci., Oamb. 66, 253–62.CrossRefGoogle Scholar
Broadbent, F. E. & Norman, A. G. (1946). Some factors affecting the availability of organic nitrogen in a soil—a preliminary report. Proc. Ann. Soil Sci. Soc. 11, 264–67.CrossRefGoogle Scholar
Cooper, J. P. & Maccoll, D. (1966). Rep. Welsh Plant Breeding Stn. 12.Google Scholar
De Wit, C. T. (1968). Misc. Series Meded. Landb-Hogesch. Wageningen.Google Scholar
Gifford, R. M. & Moorby, J. (1967). The effect of CCC on the initiation of potato tubers. Eur. Potato J. 10, 235–8.CrossRefGoogle Scholar
Gunasena, H. P. M. & Harris, P. M. (1968). The effect of the time of application of nitrogen and potassium on the growth of the second early potato, variety Craig's Royal. J. agric. Sci., Oamb. 71, 283–96.CrossRefGoogle Scholar
Gunasena, H. P. M. & Harris, P. M. (1969). The effect of CCC and nitrogen on the growth and yield of the second early potato variety Craig's Royal. J. agric. Sci., Oamb. 73, 245–59.CrossRefGoogle Scholar
Hoag, B. K., Subriski, J. C. & Geizler, G. N. (1968). Effect of fertilizers and row spacing on yield quality and physiological response of sunflower. Agron. J. 60, 198200.CrossRefGoogle Scholar
Humphries, E. C. (1967). The effect of different root temperatures on dry matter andcarbohydrate changes in rooted leaves of Phaseolus spp. Ann. Bot. N.S. 31, 5969.CrossRefGoogle Scholar
Ivins, J. D. & Bremner, P. M. (1965). Growth, development and yield in the potato. Outl. Agric. 4, 211–17.CrossRefGoogle Scholar
Kay, F. F. (1936). A soil survey of the University Farm, Sonning, Berks. Univ. Reading Faculty of Agric. and Hortic. Bull. no. XLIX.Google Scholar
Lego, J. D. & Allison, F. E. (1960). Role of rhizosphere microorganisms in the uptake of nitrogen by plants. 1th Int. Congr. Soil Sci. Trans, pp. 545–50.Google Scholar
Mccloud, D. E. (1965). Light relations and photosynthesis within plant communities. Proc. 9th Int. Orassld Congr. pp. 511–17.Google Scholar
Nosberger, J. & Humphries, E. C. (1965). The influence of removing tubers on dry matter production and net assimilation rate of potato plants. Ann. Bot. N.S. 39, 579–85.CrossRefGoogle Scholar
Radley, R. W. (1963). Effect of season on growth and development of the potato. In The Growth of the Potato. Proc. 10th Easter Sch. Agric. Sci. Univ. Nottm. p. 211. Ed. Ivins, J. D. and Milthorpe, F. L., London: Butterworths.Google Scholar
Watson, D. J. (1946). The Rothamsted experiments on mangolds 1876–1940. Part 4. The composition of the mangolds grown in Barnfield ii. The nitrogen content of leaves and roots. Emp. J. exp. Agric. 14, 5770.Google Scholar
Watson, D. J. (1952). Physiological basis of variation in yield. Adv. Agron. 4, 101–45.CrossRefGoogle Scholar
Williams, R. J. B., Cooke, G. W. & Widdowson, F. V. (1963). Results of experiments at Rothamsted testing FYM and NPK fertilizers on five arable crops. J. agric. Sci., Camb. 60, 353–57.CrossRefGoogle Scholar
Williams, J. H., Watkin, J. E. & Roberts, E. (1964). Effect of NP and K fertilizers on yield of early potatoes in Wales. Expl Husb. 10, 1327.Google Scholar