Effects of exogenous fibrolytic enzymes on in vitro ruminal fermentation of substrates with different forage:: concentrate ratios

Batch cultures of mixed rumen micro-organisms were used to study the effects of three fibrolytic enzymes (xylanase from Trichoderma viride (XYL) and fibrolytic enzymes from Aspergillus niger (ASP) and Trichoderma longibrachiatum (TR)) on the fermentation of three substrates composed of grass hay:concentrate in the proportions (dry matter (DM) basis) of 0.7:0.3 (HF), 0.5:0.5 (MF) and 0.3:0.7 (U). Enzymes were characterized for xylanase, endoglucanase, exoglucanase and amylase activities, and were supplied at rates of 40 and 80 enzymatic units/g substrate DM. In 8h incubations, all enzymes increased (P=0.048 to P<0.001) the true degradability of substrate DM and the production of acetate, propionate, total volatile fatty acids (VFA) and gas. After 24 It incubation, some of the observed effects disappeared, but all enzymes still increased (P=0.028 to P<0.001) the degradability of substrate acid detergent fibre and the production of acetate, propionate and total VFA. For all enzymes, the effects on ruminal variables were less marked at 24 than at 8h of incubation. Only few significant (P=0.044 to P=0.001) enzyme x substrate interactions were detected, although the magnitude of the response for each substrate varied with the enzyme. When considering the amount of organic matter apparently fermented (OMAF) and the methane:OMAF ratio as main variables, TR80 produced the greatest increase in OMAF (17.0%) for HF substrate, with ASP80 and TR40 having similar values (11.1 and 12.6%), and XYL and ASP40 showing no effects (P>0.05). A decrease (P<0.05) of methane:OMAF ratio was only found for TR86 at 8h (17.4%). All enzymes, with the exception of ASP40, increased (P<0.05) OMAF at 8h for MF substrate (11.3-25.4%), TR80 showing the greatest response. After 24h of incubation, both doses of XYL and TR increased (P<0.05) OMAF (mean value 8.2%) and decreased methane:OMAF ratio (mean value 9.5%). All enzymes increased significantly OMAF with LF substrate at 8h (7.5-19.9%), but after 24h no effect (P>0.05) was detected on OMAF and methane:OMAF ratio. In general, few differences were detected between both doses of enzymes, which indicate than the used enzymes would be effective in enhancing ruminal degradation of substrates at a dose lower than 80 enzymatic units/g substrate DM. (C) 2007 Elsevier B.V. All rights reserved.