Ingredients, diets, and experimenta

Ingredients, diets, and experimental design. The
cereal straw and the sugar beet pulp (SBP) were received
as 9 mm pellets, whereas the SFH was received in
meal form. The straw used was a 80:20 mixture of wheat
and barley straw, and was treated before pelleting with
a 2% sodium hydroxide solution. Before being included
in their respective experimental diets, all fiber sources
were ground using a hammer mill provided with a 4 mm
screen. The calculated and determined chemical analysis,
geometric mean diameter (GMD), water-holding
capacity (WHC, mL/g DM), swelling capacity (SWC,
mL/g DM), and buffer properties of the fiber sources
are shown in Table 1.
The control diet was based on corn, wheat, and soybean
meal. The other 6 experimental diets resulted
from the inclusion of 2 or 4% straw, SBP, or SFH at
the expense (wt/wt) of the whole control diet. All diets
met or exceeded the nutrient requirements of pullets
as recommended by the Fundaci´on Espa˜nola Desarrollo
Nutrici´on Animal (2008) but feeds that included
a fiber source had more dietary fiber, and slightly less
AMEn and CP, than the control feed. All diets contained
a commercial enzyme complex with xylanase and
β-glucanase activities (Roxazyme, DSM S.A., Madrid,
Spain). In the formulation of the diets it was accepted
that the inclusion of the enzyme complex increased the
energy content of the wheat by 2% (from 3,150 to 3,213
kcal AMEn/kg) but had no effects on the energy content
of the corn (Fundaci´on Espa˜nola Desarrollo Nutrici´on
Animal, 2010). Diets were offered for ad libitum consumption
in mash form. New feed was added into the
feeders 2×/day (7.00 am and 4.00 pm) to reduce feed
spillage. The ingredient composition and the calculated
and determined chemical analysis of the diets are shown
in Table 2 and their particle size distribution and GMD
are shown in Table 3.
The experimental design was completely randomized
with 7 treatments that consisted of a control diet without
any additional fiber and 6 additional diets that
formed a 3×2 factorial, with 3 fiber sources (straw,
SBP, and SFH) and 2 levels of inclusion (2 and 4%).
Each treatment was replicated 10 times and the experimental
unit was the cage for all measurements.
Measurements. Feed disappearance and BW were
determined by cage at week intervals and mortality was
recorded and weighed as produced. Feed wastage was
not measured. From these data, ADG, ADFI, and FCR
were determined by week and for the entire experimental
period. In addition, EnI expressed as kcal of
AMEn consumed per day and energy efficiency (EnE),
expressed as kcal of calculated AMEn per g of ADG,
were also estimated for the entire experimental period.
At the end of the experiment (5 wk age) the pullets
were weighed individually and BW uniformity was determined
by replicate as indicated by Peak et al. (2000).
Briefly, the CV of the individual BW of the pullets of
each cage was generated and this variable was used as
an indirect measurement of BWuniformity of the birds.
Statistical analysis. Data on