Effect of Plant Maturity and Preservation Method on In Vitro Protein Degradation of Forages

HOME

HELP

FEEDBACK

SUBSCRIPTIONS

Effect of Plant Maturity and Preservation Method on In Vitro Protein Degradation of Forages

R. A. Kohn ¹ and M. S. Allen ¹

¹ Department of Animal Science, Michigan State University, 221 Anthony Hall, East Lansing 48824

The influence of maturity and method of conservation on proteindegradation was determined for four different forage species.Alfalfa, smooth bromegrass, and reed canarygrass were harvestedat three maturities, and whole plant corn was harvested at twomaturities. Samples of each forage were freeze-dried or wiltedand then ensiled in mini silos at two DM contents. Additionalsamples of all forages except corn were field-dried to hay.Ground sample was incubated for 0, 2, and 24 h with crude enzymeextract from ruminal contents. Degraded protein as a percentageof total CP was determined as the amount of protein that wassoluble in TCA (80 g/L) after degradation. Increased maturityresulted in lower protein degradation for alfalfa, bromegrass,and canarygrass. For example, the most mature alfalfa or bromegrass,respectively, had 77 or 63% as much N that was soluble in TCAafter 2 h of incubation with ruminal enzyme than the least matureforage of the same species. Although protein degradation washigher for ensiled than for dried forage, silage DM contenthad no consistent effect. Freeze-dried material generally hadless degraded protein than hay, but protein degradation of bromegrassat 24 h was lower for hay than for freeze-dried samples. Proteindegradation of forages was highly variable and depended on plantmaturity and conservation method.

Key Words: protein degradation • forages • maturity • silage

Submitted on July 27, 1994
Accepted on March 10, 1995

This article has been cited by other articles:

J.H. Grabber and W.K. Coblentz
Polyphenol, Conditioning, and Conservation Effects on Protein Fractions and Degradability in Forage Legumes
Crop Sci., June 26, 2009; 49(4): 1511 - 1522.
[Abstract] [Full Text] [PDF]

J. A. Voelker Linton and M. S. Allen
Nutrient demand interacts with forage family to affect nitrogen digestion and utilization responses in dairy cows
J Dairy Sci, April 1, 2009; 92(4): 1594 - 1602.
[Abstract] [Full Text] [PDF]

J. H. Grabber
Mechanical Maceration Divergently Shifts Protein Degradability in Condensed-Tannin vs. o-Quinone Containing Conserved Forages
Crop Sci., March 19, 2008; 48(2): 804 - 813.
[Abstract] [Full Text] [PDF]

E. Tabacco, G. Borreani, G. M. Crovetto, G. Galassi, D. Colombo, and L. Cavallarin
Effect of Chestnut Tannin on Fermentation Quality, Proteolysis, and Protein Rumen Degradability of Alfalfa Silage
J Dairy Sci, December 1, 2006; 89(12): 4736 - 4746.
[Abstract] [Full Text] [PDF]

				J. A. Voelker Linton and M. S. Allen Nutrient demand interacts with forage family to affect nitrogen digestion and utilization responses in dairy cows J Dairy Sci, April 1, 2009; 92(4): 1594 - 1602. [Abstract] [Full Text] [PDF]

				J. H. Grabber Mechanical Maceration Divergently Shifts Protein Degradability in Condensed-Tannin vs. o-Quinone Containing Conserved Forages Crop Sci., March 19, 2008; 48(2): 804 - 813. [Abstract] [Full Text] [PDF]

				E. Tabacco, G. Borreani, G. M. Crovetto, G. Galassi, D. Colombo, and L. Cavallarin Effect of Chestnut Tannin on Fermentation Quality, Proteolysis, and Protein Rumen Degradability of Alfalfa Silage J Dairy Sci, December 1, 2006; 89(12): 4736 - 4746. [Abstract] [Full Text] [PDF]