Starch Supplementation of Grass Harvested at Two Stages of Maturity Prior to Ensiling: Intake, Digestion, and Degradability by Dairy Cows

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Journal of Dairy Science Vol. 81 No. 8 2221-2227
© 1998 by American Dairy Science Association ®

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Starch Supplementation of Grass Harvested at Two Stages of Maturity Prior to Ensiling: Intake, Digestion, and Degradability by Dairy Cows

H. De Visser ¹, A. Klop ¹, C. J. Van der Koelen ¹, and A. M. Van Vuuren ¹

¹ DLO-Institute for Animal Science and Health, Department of Ruminant Nutrition, PO Box 65, 8200 AB, Lelystad, The Netherlands

The effects of the maturity of grass prior to ensiling andthe supplementation of starch to grass silage on apparent digestibility,degradability, rumen content, and feed intake by dairy cowswere investigated using a Latin square design. Treatments weresilages from early or late cut grass with or without 4 kg ofsupplemental flaked corn starch. The silage from early cut grasscontained more N and sugars than did the silage from late cutgrass but was lower in neutral detergent fiber (NDF). Degradationcharacteristics were not different between the two silages.Apparent digestibilities of dry matter (DM), organic matter(OM), and N in the silage from late cut grass were lower thanthose in the silage from early cut grass, but NDF digestibilitywas not affected. Starch supplementation increased the lag phasefor DM and OM in both silages, but the rate of degradation wasdecreased for NDF. Starch supplementation did not influencedigestibilities of DM and OM in silage from early cut grassbut decreased the digestibilities of DM and OM in silage fromlate cut grass. Crude protein and NDF digestibilities were decreasedfor silages from early and late cut grass. Starch supplementationincreased NDF in the rumen of cows fed the silage from earlycut grass, but NDF was not affected by starch supplementationfor cows fed the silage from late cut grass. Rumen-degradablestarch negatively influences degradability and apparent OM digestibility;the extent of the decrease is related to the maturity of theNDF.

Key Words: silage • starch • degradability • digestibility

Submitted on December 31, 1996
Accepted on April 1, 1998

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