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The effect of sulphur deficiency on the uptake and incorporation of nitrogen in ryegrass

Published online by Cambridge University Press:  27 March 2009

P. Millard
Affiliation:
Macaulay Institute for Soil Research, Craigiebuckler, Aberdeen, AB9 2QJ
G. S. Sharp
Affiliation:
Macaulay Institute for Soil Research, Craigiebuckler, Aberdeen, AB9 2QJ
N. M. Scott
Affiliation:
Macaulay Institute for Soil Research, Craigiebuckler, Aberdeen, AB9 2QJ

Summary

Sulphur deficiency reduced the yield and sulphur content of ryegrass at the fourth cut, while increasing the nitrogen content and N:S ratio. The distribution of the forms of nitrogen was also altered, with a decrease in the proportion of nitrogen recovered as amino acids and an increase in the concentration of asparagine. Amino acid analysis showed that the concentrations of the sulphur-containing amino acids cyst(e)ine and methionine were depressed by sulphur deficiency as well as those of arginine, histidine, lysine, glycine, leucine, serine and threonine. Sulphur deficiency, therefore, decreases the quality of crude protein found in grass, as well as reducing the yield.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1985

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References

REFERENCES

Bolton, J., Nowakowski, T. A. & Lazarus, W. (1976). Sulphur–nitrogen interaction effects on the yield composition of protein-N, non protein-N and soluble carbohydrates in perennial ryegrass. Journal of the Science of Food and Agriculture 27, 553560.CrossRefGoogle Scholar
Bristow, A. W. & Garwood, E. A. (1984). Deposition of sulphur from the atmosphere and the sulphur balance in four soils under grass. Journal of Agricultural Science, Cambridge 103, 463468.CrossRefGoogle Scholar
Cowling, D. W. & Bristow, A. W. (1979). Effects of SO2 on sulphur and nitrogen fractions and on free amino acids in perennial ryegrass. Journal of the Science of Food and Agriculture 30, 354360.CrossRefGoogle Scholar
Crooke, W. M. & Simpson, W. E. (1971). Determination of ammonium in Kjeldahl digests of crops by an automated procedure. Journal of the Science of Food and Agriculture 22, 910.CrossRefGoogle Scholar
Davy, K. W. M. & Morris, C. J. O. R. (1977). Applications of gas–liquid chromatography in protein chemistry. II. Determination of amide residues in nanomolar amounts of proteins. Journal of Chromatography 136, 361369.CrossRefGoogle ScholarPubMed
Ensminger, L. E. (1954). Some factors affecting the adsorption of sulphate by Alabama soils. Soil Science Society of America Proceedings 18, 259264.CrossRefGoogle Scholar
Eppendorfer, W. (1968). The effects of nitrogen and sulphur on changes in nitrogen fractions of barley plants at various early stages of growth and on yield and amino acid composition of grain. Plant and Soil 29, 424438.CrossRefGoogle Scholar
Gilbert, M. A. & Robson, A. D. (1984). Sulphur nutrition of temperate pasture species. I. Effects of nitrogen supply on the external and internal sulfur requirements of subterranean clover and ryegrass. Australian Journal of Agricultural Research 35, 379380.CrossRefGoogle Scholar
Johnson, C. M. & Nishita, H. (1952). Micro-estimation of sulphur in plant materials, soils and irrigation waters. Analytical Chemistry 24, 736742.CrossRefGoogle Scholar
Jones, M. B., Rendig, V. V., Torell, D. T. & Inouye, T. S. (1982). Forage quality for sheep and chemical composition associated with sulfur fertilization on a sulfur deficient site. Agronomy Journal 74, 775780.CrossRefGoogle Scholar
Jones, J. H. & Ruckman, J. E. (1970). Effect of P and S fertilization on the nutritive value of subclover c. Trifolium subterraneum. Proceedings of the New Zealand Grassland Association 32, 6975.CrossRefGoogle Scholar
Mason, V. C., Bech-Andersen, S. & Rudemo, M. (1980). Hydrolysate preparation for amino acid determination in feed constituents. In 3rd EAAP Symposium on Protein Metabolism and Nutrition, Braunschweig, 05 1980.Google Scholar
Murphy, M. D., Brogan, J. C. & Noonan, D. G. (1983). Sulphur fertilization of pasture improved cattle performance. Sulphur in Agriculture 7, 26.Google Scholar
Scott, N. M., Watson, M. E., Caldwell, K. S. & Inkson, R. H. E. (1983). Response of grassland to the application of sulphur at two sites in the northeast of Scotland. Journal of the Science of Food and Agriculture 34, 354361.CrossRefGoogle Scholar
Stewart, B. A. & Porter, L. K. (1969). Nitrogen–sulfur relationships in wheat (Triticum aestivum L.), corn (Zea mays), and beans (Phaseolus vulgaris). Agronomy Journal 61, 267271.CrossRefGoogle Scholar
Turnell, D. C. & Cooper, J. D. H. (1982). Rapid assay for amino acids in serum or urine by pre-column derivatization and reverse-phase liquid chromatography. Clinical Chemistry 28, 527531.CrossRefGoogle ScholarPubMed