Hostname: page-component-586b7cd67f-l7hp2 Total loading time: 0 Render date: 2024-11-22T22:07:38.395Z Has data issue: false hasContentIssue false

Nitrogen, phosphorus and potassium fertilizers for potatoes in Cyprus

Published online by Cambridge University Press:  27 March 2009

V. D. Krentos
Affiliation:
Agricultural Research Institute, Nicosia, Cyprus
P. I. Orphanos
Affiliation:
Agricultural Research Institute, Nicosia, Cyprus

Summary

A number of experiments to test the effects of N and P fertilizers and a few testing K fertilizer were carried out mainly with Arran Banner and Up-to-Date potatoes in the major potato-growing area of Cyprus (Kokkinoohoria). The optimum nitrogen rate, all applied at planting in January-February, was 60–120 kg N/ha with yields reaching 50 t/ha. Phosphorus increased yields in only 4 out of 21 trials. In two of these cases the soil contained 8 mg bicarbonate-extractable P/kg soil or less. In the other two cases the soil contained 34 and 56 mg P/kg but irrigation was erratic. In only one experiment where soil potassium was depleted to 222 mg exchangeable K/kg through continuous cropping with irrigated crops, without potassium fertilizer, was a clear response to K fertilizer obtained; this, however, is the first response to K fertilizer by any crop reported in a plain area of Cyprus.

Concentration of NO2·N in the petiole of the first mature leaf from the top sampled at 80 days from planting under the 120 kg N/ha rate, beyond which seldom were yields increased, was about 0·5%. In the only experiment where a response to K was obtained, concentration of K in entire leaves sampled as above was about 2·5%.

It is argued that since growers in this area have used heavy dressings of P and K over recent years, they will seldom get any benefit from applying more than a maintenance dose of 70 kg P and 150 kg K/ha to the potato crop. It is suggested that since in semiarid regions leaching is limited, soil tests of NO3 content can aid farmers in choosing the optimum amount of N fertilizer for each crop.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1979

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Agricultural Research Institute (19621969). Annual Beports for 1962–1969. Agricultural Research Institute, Nicosia, Cyprus.Google Scholar
Bessey, P. M. (1967). Nitrogen fertilizer timing for winter potatoes. American Potato Journal 44, 214217.CrossRefGoogle Scholar
Boyd, D. A. & Dermott, W. (1964). Fertilizer experiments on maincrop potatoes 1955–61. Journal of Agricultural Science, Cambridge 63, 249259.CrossRefGoogle Scholar
Dubetz, S. & Bole, J. B. (1975). Effect of nitrogen, phosphorus, and potassium fertilizers on yield components and specific gravity of potatoes. American Potato Journal 52, 399405.CrossRefGoogle Scholar
Economides, C. V., Vakis, N. I. & Ioannou, A. (1973). Trials on potato varieties in Cyprus 1969–1972. Technical Bulletin 11. Agricultural Research Institute, Nicosia, Cyprus.Google Scholar
Fao/Unesco (1974). Soil Map of the World, 1: 5000000, vol. I. Legend. Paris: FAO/UNESCO.Google Scholar
Fong, K. H. & Ulrich, A. (1969). Leaf analysis as a guide for potassium nutrition of potato. Journal of the American Society for Horticultural Science 94, 341344.CrossRefGoogle Scholar
Fulton, J. M. & Findlay, W. I. (1964). Cumulative effects of supplemental irrigation on fertilizer requirement, yield and dry matter content of early potatoes. American Potato Journal 41, 315318.CrossRefGoogle Scholar
Gardner, B. R. & Jones, J. P. (1975). Petiole analysis and the nitrogen fertilization of Russet Burbank potatoes. American Potato Journal 52, 195200.CrossRefGoogle Scholar
Geus De, J. G. (1967). Fertilizer Guide for Tropical and Subtropical Farming, pp. 163180. Zurich: Centre d’ Etude de 1’ Azote.Google 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. Journal of Agricultural Science, Cambridge 71, 283296.CrossRefGoogle Scholar
Gupta, A. & Saxena, M. C. (1976). Total nitrogen concentration in leaves of potatoes (Solanum tuberosum L.) as an index of nutritional status. Journal of Agricultural Science, Cambridge 87, 293296.CrossRefGoogle Scholar
Harris, P. M. (1978). Mineral nutrition. In The Potato Crop (ed. Harris, P. M.), pp. 195243. London: Chapman and Hall.CrossRefGoogle Scholar
Holliday, R. (1970). Soil profile moisture and nitrogen availability. In Nitrogen Nutrition of the Plant (ed. Kirkby, E. A.), pp. 189200. University of Leeds.Google Scholar
Ivins, J. D. (1963). Agronomic management of the potato. In The Growth of the Potato (ed. Ivins, J. D. and Milthorpe, F. L.), pp. 303312. London: Butterworths.Google Scholar
Liegel, E. A. & Walsh, L. M. (1976). Evaluation of sulfur-coated urea (SCU) applied to irrigated potatoes and corn. Agronomy Journal 68, 457463.CrossRefGoogle Scholar
Littlejohn, L. (1946). Some aspects of soil fertility in Cyprus. The Empire Journal of Experimental Agriculture 14, 123134.Google Scholar
Loizides, P. A. (1957). Fertilizer experiments in Cyprus. I. Experiments with potatoes, cotton, and onions. The Empire Journal of Experimental Agriculture 25, 278290.Google Scholar
Lorenz, O. A., Tyler, K. B., Takatori, F. H., Bishop, J. C. & Nelson, P. M. (1961). Fertility experiments with potatoes in Southern California. California Agricultural Experiment Station Bulletin, no. 781.Google Scholar
Mackay, D. C, Maceachern, C. R. & Bishop, R. F. (1966). Optimum nutrient levels in potato leaves (Solatium tuberosum L.). Soil Science Society of America Proceedings 30, 7376.CrossRefGoogle Scholar
Orphanos, P. I. (1975). Photosynthesis and crop production. Qeoponika 226, 267273. (In Greek.)Google Scholar
Orphanos, P. I. (1978). Growth analysis: an example with the potato. Qeoponika 240, 1013. (In Greek.)Google Scholar
Papachristodoulou, S. (1976). Norm input-output data of the main crops of Cyprus. Agricultural Economics Report 6. Agricultural Research Institute, Nicosia, Cyprus.Google Scholar
Slater, J. W. (1963). Mechanisms of tuber initiation. In The Growth of the Potato (ed. Ivins, J. D. and Milthorpe, F. L.), pp. 114120. London: Butterworth.Google Scholar
Tyler, K. B., Lorenz, O. A. & Fullmer, F. S. (1961). Plant and soil analyses as guides in potato nutrition. California Agricultural Experiment Station Bulletin, no. 781.Google Scholar