Influence of processing on dietary enzyme effect and nutritive value of diets for laying hens

Two experiments were carried out to examine the influence of a Trichoderma viride enzyme complex [cellulase, endo-beta-(1:3)(1:4)-glucanase, xylanase] on nutrient utilization and production parameters of laying hens. In exp. 1, the influence of extrusion (110 degrees C, 20 s) and dietary enzyme addi...

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Bibliographic Details
Published inCanadian journal of animal science Vol. 75; no. 3; pp. 453 - 460
Main Authors Vukic Vranjes, M, Pfirter, H.P, Wenk, C
Format Journal Article
LanguageEnglish
Published 01.09.1995
Subjects
barley
corn
diet
enzyme preparations
extrusion
hens
Hypocrea rufa
laying performance
nutrition physiology
nutritive value
pelleting
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Summary:Two experiments were carried out to examine the influence of a Trichoderma viride enzyme complex [cellulase, endo-beta-(1:3)(1:4)-glucanase, xylanase] on nutrient utilization and production parameters of laying hens. In exp. 1, the influence of extrusion (110 degrees C, 20 s) and dietary enzyme addition on the nutritive value of the diet was tested. Dietary treatments were as follows: M and MR, unprocessed feed, plus or minus enzyme; E, feed extruded without enzyme; ER-1, feed extruded with enzyme; ER-2, enzyme added after extrusion. Diets were fed in mash form. Partial inactivation of the enzyme took place as indicated by a significant difference in energy use in groups ER-1 and ER-2 (73 vs. 75%). According to the enzyme-affected changes of the feed extract viscosity, 65% of the enzyme initial efficacy were lost as a result of extrusion. Nevertheless, the addition of enzyme before extrusion (ER-1) was not without effect, as birds fed the ER-1 diet had improved energy (73 vs. 71%) and fat utilization (89 vs. 85%) as compared with those fed the extruded unsupplemented diet (E). Extrusion decreased feed AME content by 0.3 MJ kg-1. A significant interaction between processing and enzyme for energy and fat utilization indicated a greater beneficial effect of enzyme in extruded feed. Experiment 2 was arranged in a same way as exp. 1, with the exception that pelleting (70 degrees C) replaced the extrusion process. Feed extract viscosity measurements revealed that pelleting reduced initial enzyme efficacy by 52%. Despite this, enzyme improved nutrient utilization in unprocessed and pelleted diet to the same extent, and no further improvements were observed by supplementation of the feed after processing. Pelleting itself did not affect nutritive value of the feed.
ISSN:0008-3984
1918-1825
DOI:10.4141/cjas95-066