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The carotene content of certain species of grassland herbage

Published online by Cambridge University Press:  27 March 2009

A. M. Smith
Affiliation:
Chemistry Department, Edinburgh and East of Scotland College of Agriculture
Tung Wang
Affiliation:
Chemistry Department, Edinburgh and East of Scotland College of Agriculture

Extract

The total nitrogen and carotene have been determined in sixty-three samples of white clover, cocksfoot, rye-grass and timothy taken at different times during the growing season from various localities.

Except for rye-grass, there was more carotene in the leaves and stems than in the heads or flowers. A late dressing of ammonium sulphate increased the carotene content of rye-grass by 55 and 17% in the leaves and heads respectively. The effects of lime and slag on the carotene content of cocksfoot and rye-grass were much less marked and there were no obvious effects due to environment.

The predominant factor in determining both nitrogen and carotene, which were very closely related, was stage of growth. Grazing effected important increases in both constituents.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1941

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References

REFERENCES

Atkeson, F. W., Peterson, W. J. & Aldous, A. E. (1937). J. Dairy Sci. 20, 557.CrossRefGoogle Scholar
Ferguson, W. S. (1935). Analyst, 60, 680.CrossRefGoogle Scholar
Ferguson, W. S. & Bishop, G. (1936). Analyst, 61, 515.CrossRefGoogle Scholar
Kon, S. K. & Thompson, S. Y. (1940). J. agric. Sci. 30, 622.CrossRefGoogle Scholar
Moon, F. E. (1939 a). J. agric. Sci. 29, 295.CrossRefGoogle Scholar
Moon, F. E. (1939 b). J. agric. Sci. 29, 524.CrossRefGoogle Scholar
Moon, F. E. (1939 c). Empire J. exp. Agric. 7, 225.Google Scholar
Moon, F. E. (1939 d). Empire J. exp. Agric. 7, 235.Google Scholar
Quackenbush, F. W., Steenbock, H. & Peterson, W. H. (1938). J. Amer. chem. Soc. 60, 2937.CrossRefGoogle Scholar
Seaber, W. M. (1940). Analyst, 65, 266.Google Scholar
Snyder, W. W. & Moore, L. A. (1940). J. Dairy Sci. 23, 363.CrossRefGoogle Scholar