The efficiency of microbial production (EMP) of nine mixed diets consisting
of approximately even parts of roughage and concentrates was investigated
in vivo and in vitro. EMP in vivo was estimated based on ruminal N-15 infus
ions Of dairy cows and varied from 27.8 to 34.6 g of nitrogen (N) per kg tr
uly fermented OM (mean = 31.9 g). EMP in vitro was estimated by partitionin
g factor (PF ratio of mg of OM truly degraded to mi gas produced thereby),
by two microbial N balances and by purine base (PB: adenine and guanine) an
alysis. Both microbial N balances were based on the determination of undegr
aded feed N by neutral detergent (ND) solution treatment and N analysis. Ch
anges in the NH, concentrations in the incubation medium were taken into ac
count in one of the microbial N balances. All in vitro incubations were con
ducted in N-low (-NH4) and N-rich ( + NH4) medium. In vitro digestibility m
easurements were consistently higher (P < 0.0001) in N-rich medium but the
effect of N-level on in vitro microbial efficiency varied in dependence of
how microbial production was analyzed, Of the estimates of EMP in vitro onl
y PF values were significantly related to EMP in vivo, the relationship bei
ng slightly closer for the - NH4 (r = 0.77, P = 0.016) than for the + NH4 (
r = 0.74, P = 0.022) medium. PB per unit ATP (<mu>mol/mmol) tended to be in
versely related to EMP in vivo in both -NH4 (r= -0.52, P=0.148) and +NH4 (r
= - 0.32, P = 0.403) medium. The amount of substrate truly degraded in vit
ro as determined by ND-solution treatment was in good agreement with the su
m of the fermentation products recovered suggesting that this treatment can
also be used for the estimation of in vitro true degradability of mixed di
ets. (C) 2001 Published by Elsevier Science B.V.