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The effect of fertilizers on the yield of red clover seed

Published online by Cambridge University Press:  27 March 2009

J. W. Dent  and
R. P. Hawkins
J. W. Dent
Affiliation:
National Institute of Agricultural Botany, Cambridge
R. P. Hawkins
Affiliation:
National Institute of Agricultural Botany, Cambridge
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Extract

The effect of fertilizers in increasing the yield of clover seed was examined by a series of manurial trials. The initial mineral status of the crop and the extent of the uptake of the applied nutrients were determined by analyses of the leaf. The techniques for sampling and analysing leaves to determine mineral status are described.

The high yields of seed and lack of response to fertilizers in trials at Cambridge led to their being repeated at Saxmundham on land known to be extremely deficient in minerals. Even then there was a response only to phosphate which although significant was small.

Leaf samples were also collected from commercial crops of red clover in 1955, 1956 and 1957. The analyses of these samples indicted that none of them was as deficient as the crops at Saxmundham, and no relationship was found between mineral status and seed yield.

It is concluded that yields of red clover seed in Eastern England are not likely to be increased materially by the application of fertilizers.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 59 , Issue 1 , August 1962 , pp. 13 - 23
Copyright
Copyright © Cambridge University Press 1962

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References

REFERENCES

Allen, R. J. B. (1940). The estimation of phosphorus. Biochem. J. 34, 858865.CrossRefGoogle ScholarPubMed
Bould, C., Bradfield, E. G. & Clarke, G. M. (1960). Leaf analysis as a guide to the nutrition of fruit crops (1). J. Sri. Fd & Agric. 5, 229–42.CrossRefGoogle Scholar
Carlisle, E. & Ryle, M. (1956). The influence of nitrogen, phosphate, potash and lime on the secretion of nectar in field conditions. Emp. J. Exp. Agric. 23, 126–30.Google Scholar
Cooke, G. W., Mattingly, G. E. G. & Williams, R. J. B. (1958). Changes in the soil of a long-continued field experiment at Saxmundham, Suffolk. J. Soil Sci. 9 (2), 298305.CrossRefGoogle Scholar
Evans, G. (1933). Manuring of red clover for seed. Welsh J. Agric. 9, 135–41.Google Scholar
Gorfinkiel, E. & Pollard, A. G. (1952). A modified procedure for determining boron in plant material and soils using 1: l′-Dianthrimide. J. Sci. Fd & Agric. 3, 622.CrossRefGoogle Scholar
Hawkins, R. P. (1958). A survey of late flowering and single-cut red clover seed crops. J. Nat. Inst. Agric. Bot. 8, 450–61.Google Scholar
Hawkins, R. P. (1961). Observations on the pollination of red clover by bees, I. The yield of seed in relation to the number and kinds of pollinators. Ann. Appl. Biol. 49, 5565.CrossRefGoogle Scholar
Hunter, J. G. (1950). An absorptiometrio method for the determination of magnesium. Analyst, 75, 9199.CrossRefGoogle Scholar
John, J. L. (1933). Manuring red clover for seed production. Welsh J. Agric. 9, 132–35.Google Scholar
Nicholas, D. J. D. (1944). The application of rapid chemical tests to plant tissues in the diagnosis of deficiencies of mineral nutrients. Annu. Rep. Res. Sta. Long Ashton, 84.Google Scholar
Ryle, M. (1954). The influence of nitrogen, phosphate and potash on the secretion of nectar. Part II. J. Agric. Sci. 44, 408–19.CrossRefGoogle Scholar
Sergeev, P. A. (1956). Non-radical nutrition of red clover. Zemledyelie (Agric. U.S.S.R.) 4, 17, 115–17.Google Scholar
Shuel, R. W. (1957). Some aspects of the relation between nectar secretion and nitrogen, phosphorus and potassium nutrition. Canad. J. Plant Sci. 37, 220–36.CrossRefGoogle Scholar
Shuel, R. W. (1961). The influence of calcium and magnesium supply on nectar production in red clover and snapdragon. Canad. J. Plant Sci. 41, 50.CrossRefGoogle Scholar
Stapel, C. (1941). Investigations on nectar yield and length of corolla tube of red clover under different manuring conditions. Tidsskr. Planteavl., 46, 267–97.Google Scholar
Weir, J. I. (1956). Boron requirements for crimson clover seed production, etc. Agron. J. 48, 132–4.CrossRefGoogle Scholar
Whittington, W. J. (1957). The role of boron in plant growth (i). J. Exp. Bot. 8, 24, 353–67.CrossRefGoogle Scholar