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Effect of potassium fertilizer on the yield, quality and potassium offtake of sugar beet crops grown on soils of different potassium status

Published online by Cambridge University Press:  01 August 2000

G. F. J. MILFORD
Affiliation:
IACR–Rothamsted, Harpenden, Herts AL5 2JQ, UK
M. J. ARMSTRONG
Affiliation:
Sugar for Industry, British Sugar plc, Agricultural Research and Development Department, Holmewood Hall, Holme, Peterborough PE7 3PG, UK
P. J. JARVIS
Affiliation:
Sugar for Industry, British Sugar plc, Agricultural Research and Development Department, Holmewood Hall, Holme, Peterborough PE7 3PG, UK
B. J. HOUGHTON
Affiliation:
Sugar for Industry, British Sugar plc, Agricultural Research and Development Department, Holmewood Hall, Holme, Peterborough PE7 3PG, UK
D. M. BELLETT-TRAVERS
Affiliation:
IACR–Rothamsted, Harpenden, Herts AL5 2JQ, UK
J. JONES
Affiliation:
IACR–Rothamsted, Harpenden, Herts AL5 2JQ, UK
R. A. LEIGH
Affiliation:
IACR–Rothamsted, Harpenden, Herts AL5 2JQ, UK Present address: Department of Plant Sciences, University of Cambridge, Downing Street, Cambridge CB2 3EA, UK.

Abstract

The effect of different rates of potassium (K) fertilizer on the yield and quality of sugar beet was studied in a series of 26 trials on soils of different type and K index between 1992 and 1997. There were few yield responses even though the majority of trials were on soils of low K index, and large quantities of fertilizer were applied (0–600 kg K/ha). Potassium offtakes (kg/ha) in the harvested beet increased asymptotically, not linearly, with yield and were much larger for a given yield on high K index soils than on low index soils. Commercially acceptable concentrations of beet K for processing are in the range 700 to 1000 mg K/100 g sugar. Concentrations in excess of this decrease the amount of sugar crystallized from the extracted juice. They were not greatly affected by large applications of fertilizer K but were strongly influenced by long-established differences in soil exchangeable K (Kex) due to soil type, previous cropping or manuring history.

The asymptotic nature of the K offtake[ratio ]yield relationship was confirmed by factory tarehouse measurements relating to the national sugar beet crop delivered during the 1993–97 UK processing campaigns. Potassium offtakes generally increased linearly with yield up to 60–70 adjusted t of clean beet/ha, but increased little beyond that. The amount of K removed by a 60–70 t/ha crop of beet varied from 70 kg K/ha on low K index sandy loams to 120 kg K/ha on clay soils of K index 3 and above. Further increases in yield decreased the amount of K in fresh beet from 1·7 to 1·4 kg K/t on low K index soils, and from 3·6 to 2·5 kg K/t on high K index soils.

An analysis of data from individual fields of commercially grown sugar beet showed that much of the site and season variation in the K content of beet was due to differences in K uptake driven by Kex, and to differential effects of nitrogen (N) supply on K uptake and sugar yield. Regressions on Kex and total crop N (kg/ha) accounted for c. 30 and 50% of the variance in beet K content, respectively, and the two together for over 60%. Total N uptake by the crops ranged from 100 to 550 kg N/ha. The total K content of the crop and the amounts of K in the beet (kg/ha) both increased linearly with crop N over the whole of this range, whereas sugar yield increased asymptotically with total uptakes of N up to 250–300 kg N/ha. Consequently, low yielding crops grown on soils in which N and K were freely available produced beet of poor K quality. However, the asymptotic relationship between beet K (kg/ha) and yield implies that, in many situations, the processing quality of the beet could be improved by increasing yield through better agronomy.

Type
Research Article
Copyright
© 2000 Cambridge University Press

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