Hostname: page-component-78c5997874-t5tsf Total loading time: 0 Render date: 2024-11-10T19:42:13.219Z Has data issue: false hasContentIssue false

The chemical composition of grass silage

Published online by Cambridge University Press:  27 March 2009

S. J. Watson
Affiliation:
Imperial Chemical Industries, Limited, Jealott’s Hill Research Station, Bracknell, Berks
W. S. Ferguson
Affiliation:
Imperial Chemical Industries, Limited, Jealott’s Hill Research Station, Bracknell, Berks

Extract

A short account is given of the main changes which take place during the ensilage process. Details are given of the methods of analysis used in examining samples of silage for pH, crude-protein, volatile base, amino acid, lactic acid, total volatile acid, acetic acid and butyric acid contents. The results of the examination of 293 samples of silage are discussed. Of these 258 were made from grassland herbage, 24 from silage crops, 9 from sugar-beet tops, and 2 from potatoes. The silages were made in towers, wood-lined pits, and a small number in stacks or clamps. The samples are divided up into those made by the ordinary process, with added molasses, with added whey, with moderate amounts of mineral acid with or without molasses, and with mineral acids added in amounts sufficient to bring the mass rapidly to a pH of 3·0–4·0—the A.I.V. process.

For comparative purposes the silages made by these processes have been divided, within each process, into groups of varying pH. reaction.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1937

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

(1)Allen, L. A. & Harrison, J.Ann. appl. Biol. (1936), 23, 538, 546.CrossRefGoogle Scholar
(2)Virtanen, A. I.Contr. Lab. Valio (1934), No. 2 (Five years’ experience of A.I.V. fodder), p. 6.Google Scholar
(3)Allen, L. A. & Watson, S. J.Int. Dairy Congr. (1934), See. 1, 145; Le Lait (1934), 14, 889.Google Scholar
(4)Virtanen, A. I.Emp. J. exp. Agric. (1933), 1, 143.Google Scholar
(5)Amos, A. & Woodman, H. E.Min. Agric. Misc. Pub. No. 53 (1926). London: H.M. Stationery Office.Google Scholar
(6)Ashton, F. L.J. agric. Sci. (1936), 26, 339.CrossRefGoogle Scholar
(7)Stutzer, A. J.Landw. (1881), 29, 473.Google Scholar
(8)Wiegner, G.Arileitung zum quantitativen agrikulturchemischen Praktikum (1926). Berlin: Gebrüder Borntraeger.Google Scholar
(9)Edin, H. & Sandberg, E.Medd. CentAnst. Försöksv., Stockh. (1922), No. 221.Google Scholar
(10)Virtanen, A. I.Acta chem. fenn. (1933), A 6.Google Scholar
(11)Foreman, F. W.Biochem. J. (1920), 14, 451; (1928), 22, 208.CrossRefGoogle Scholar
(12)Woodman, H. E.J. agric. Sci. (1925), 15, 343.CrossRefGoogle Scholar
(13)Hirsoh-Kauffmann, . Z. physiol. Chem. (1924), 140, 25.CrossRefGoogle Scholar
(14)Karström, H.Über die Enzymbildung in Bakterien (1930). Helsingfors.Google Scholar
(15)Mangold, E.Handbuch der Ernahruäng. Vol. I, Die Futtermittel, pp. 348.Google Scholar
(16)Defu, . Silofutterbereitung und Silobau (1933). Verden am Aller.Google Scholar
(17)Piraux, E., Hacquart, A., Joassin, F. & Desmet, F.Bull. Inst. agron. Gembloux (1935), 4, 105.Google Scholar
(18)Greenhill, A. W.Biochem. J. (1936), 30, 412.CrossRefGoogle Scholar
(19)Amos, A. & Woodman, H. E.J. agric. Sci. (1922), 12, 337, 362; (1924), 14, 99.CrossRefGoogle Scholar
(20)Spildo, L. S.Verhandlungsber. des III. Grünland-Kongress der nord- und mitteleuäischen Länder (1934), pp. 398405. Zürich.Google Scholar
(21)de Ruijter de Wildt, J. C.Versl. RijkslandbProefst., ’s Grav. (1934), 40, 875.Google Scholar
(22)Watson, S. J. & Ferguson, W. S.J. agric. Sci. (1936), 26, 337.CrossRefGoogle Scholar
(23)Dox, A. W. & Neidig, . Iowa St. Coll. Res. Bul. No. 10 (1913).Google Scholar
(24)Kuchler, L. F.Die Zeitgemāsse Grünfutterkonservierung (1926), pp. 128–37. Münich: F. P. Datterer & Co.Google Scholar
(25)Kirsch, W. & Hildebrandt, H.Die Silofutterbereitung nach dem Kaltgärverfahren (1930), p. 79. Berlin: Parey.Google Scholar
(26)Watson, S. J. & Horton, E. A.J. agric. Sci. (1936), 26, 142.CrossRefGoogle Scholar