Recently, some exogenous fibrolytic

Recently, some exogenous fibrolytic enzyme products
were reported to increase milk production efficiency in
early to mid lactation dairy cows (Arriola et al., 2011;
Holtshausen et al., 2011).


This increased milk production
efficiency was a result of a numerical decrease in
feed intake with no change in milk yield in cows fed
diets supplemented with enzymes.Arriola et al. (2011)
related the improvement in feed conversion efficiency to
increased total-tract digestibility, although in situ ruminal
degradability was not affected. Holtshausen et al.
(2011) attributed the improvement in milk production
efficiency to an increase in fiber digestibility (based on
in vitro assay) of dietary forages. However, ruminal fermentation
responses were not measured in that study.


Arriola et al. (2011) also reported a similar level of milk
production for cows fed an enzyme-treated, high-forage
diet (67% diet DM) compared with cows fed an untreated, low-forage diet (52% diet DM). Based on these
findings, the use of certain enzyme additives may allow
dairy producers to feed higher forage diets or high-fiber
byproduct feeds without compromising energy intake
and milk production of the cow.


Increased substrate degradability by fibrolytic
enzyme additives reported in in vitro evaluations
(Eun et al., 2007; Eun and Beauchemin, 2007) has
often been accompanied by concurrent decreases in
acetate:propionate ratios in the incubation fluids. The
formation of propionate serves as an H2 sink in ruminal
fermentation, and a greater proportion of propionate
and (or) a lower acetate:propionate ratio in ruminal
fluid could indicate a lower availability of metabolic
H2 for methanogenesis. Based on this observation,
Beauchemin et al. (2008) proposed supplementing ruminant
diets with enzyme feed additives as a means of
mitigating enteric methane (CH4) production. Giraldo
et al. (2008a) reported that CH4 production corrected
for the amount of OM degraded was decreased when
fibrolytic enzymes were added to the substrates during
an in vitro incubation. In an in vivo study (Arriola
et al., 2011), a decrease in the calculated enteric CH4
production was reported for a lactating cow diet (52%
dietary forage) supplemented with a fibrolytic enzyme
additive. A decreased acetate:propionate ratio was reported
in both of the studies.
Hence, this study was conducted to obtain further
information on the potential mode of action of the
enzyme additive used by Holtshausen et al. (2011), in
which milk production efficiency of lactating dairy cows
was increased with the use of an exogenous fibrolytic
enzyme additive.


The objective was to determine the effects
of supplementing a dairy cow diet with a fibrolytic
enzyme additive on fermentation, pH, and microbial
populations in the rumen and enteric CH4 emissions.