Relationships between in situ protein degradability and grass developmental morphology

Relationships between in situ protein degradability and grass developmental morphology

The objective of this research was to determine the relationships between the morphological development and in situ ruminally degradable protein (RDP), ruminally undegradable protein (RUP), and microbial protein of two cool season grasses (intermediate wheatgrass and smooth bromegrass) and two warm...

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Bibliographic Details
Published in:Journal of dairy science Vol. 80; no. 6; p. 1143
Main Authors: Mitchell, R B, Redfearn, D D, Moser, L E, Grant, R J, Moore, K J, Kirch, B H
Format: Journal Article
Language:English
Published: United States 01-06-1997
Subjects:
Analysis of Variance
Animal Feed - standards
Animals
Dietary Proteins - metabolism
Digestion - physiology
Nebraska
Plant Proteins - metabolism
Poaceae - growth & development
Random Allocation
Ruminants - metabolism
Ruminants - physiology
Seasons
Nebraska
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Summary:The objective of this research was to determine the relationships between the morphological development and in situ ruminally degradable protein (RDP), ruminally undegradable protein (RUP), and microbial protein of two cool season grasses (intermediate wheatgrass and smooth bromegrass) and two warm season grasses (switchgrass and big bluestem). The initial growth of grass tillers grown near Mead, Nebraska was clipped at ground level six times during the 1992 growing season and morphologically classified. Mean stage was calculated. Forage was ground to pass a 2-mm screen and was incubated in ruminally fistulated steers for 16 h. The RUP was adjusted for microbial protein and acid detergent insoluble N. The mean stage of cool season grasses was higher than that of warm season grasses throughout the growing season. The RDP decreased as plant maturity increased for all species. The RUP expressed as a percentage of crude protein for the cool season grasses was lower than that for warm season grasses. The RUP for intermediate wheatgrass, smooth bromegrass, and switchgrass remained constant across maturities, but RUP for big bluestem decreased as maturity increased. Microbial augmentation of RUP decreased as crude protein decreased in all species. The RUP corrected for acid detergent insoluble N and microbial protein was relatively constant across plant maturities. The quantification of RUP across a range of plant maturities provided information for incorporating RUP content of forage grasses into the diets of animals.
ISSN:0022-0302
DOI:10.3168/jds.S0022-0302(97)76041-7