Mr. Alvir et al., Relationship between in situ rumen protein degradability and chemical composition of alfalfa hays, ANN ZOOTECH, 48(6), 1999, pp. 447-456
The variation in protein degradation kinetics and effective degradability o
f ten alfalfa hays was studied to evaluate the prediction of these paramete
rs from chemical composition of the hays. The alfalfa hays were selected on
the basis of the stags of maturity to obtain a wide range of variation in
their chemical composition. Rumen degradation of crude protein (CP) was mea
sured by the nylon bag technique on four cannulated wethers fed one of the
tested alfalfa hays: in two equal meals at an intake level of 80 g dry matt
er.kg(-1) LW0.75. Four of the studied hays with different vegetative state
were mordanted with chromium (Cr) and rumen outflow rates determined from f
aecal Cr concentrations after single dose. The neutral detergent insoluble
nitrogen (NDIN) showed a wide variation among hays, from 6.2 to 29.8 % of t
otal N. In six of the ten hays the existence of a lag time was verified wit
h values ranging from 2.70 to 6.75 h. The length of this period was positiv
ely related to the NDIN content of hays (R-2 = 0.57; P < 0.05). The NDIN wa
s also found to be the best predictor of effective degradability of protein
(R-2 = 0.77; P < 0.001), which ranged from 61.1 to 74.7 %. The soluble and
insoluble potentially degradable protein fractions represented from 35.9 t
o 48.1 % and from 38.7 to 55.2 % of the total CP, respectively. Values of t
he degradation rate were highly variable among hays, ranging from 0.061 to
0.151 h(-1). The non-degradable protein fraction also showed a wide variati
on from om 3 to 20 %. The best single predictor of this last fraction was t
he acid detergent lignin content (R-2 = 0.83; P < 0.001), but the predictio
n was improved when considering as the second variable the cellulose expres
sed as a fraction of the cellular wall (R-2 = 0.92; P < 0.001). ((C) Elsevi
er / Inra).