Location and period of investigation
The
experiment was carried out in an establi-shment located in the Department of
Presidente Hayes, Chaco, Paraguay, latitude: 25°07°15.27° S and longitude:
57°42°38.81° W; between Sep-tember and November 2021. The duration of the
investigation was 56 days, subdivided into four periods of 14 days. During the
investigation, an average minimum temperature of 18 °C, an average maximum of
33 °C, and total precipitation of 17 mm were recorded.
Animals, diet and facilities
In
total, 12 uncastrated male Santa Inés × Dorper sheep with average initial
weights of 27.33 ± 0.58 kg and ages of 225 ± 15 days were used. Initially, they
were weighed individually (with solid fasting of 12 hours) and identified with
caravans placed in the ear and at the same time treated against endoparasites
by applying ivermectin at a rate of 1 ml per 50 kg of live weight (LW).
Subsequently,
they were housed in individual pens with 2.50 m2 of area per animal
and equipped with food and water trays, and had wooden wall, zinc sheet metal
roof and concrete floor. For feeding, isoproteic diets were formulated
according to the category nutritional requirements by considering the NRC
(2007) recommendation, with a forage-concentrate ratio of 30:70 (dry matter
basis) (Table 1).
Animals were
accustomed to the facilities and diets for 14 days, where supplied concentrates
were gradually increased. The amount supplied diet was between 3 and 5% of the
live weight (dry matter basis) and, the distribution was 50% at 07:00 am and
the rest at 5:00 pm. These ranges were maintained during the experiment and the
adjustments were made by daily feeder reading according to Lopes's (2013)
methodology.
Tabla
1
Rations used
to feed sheep in each treatment and their respective bromatological
compositions
|
Ingredients
|
Substitution
levels (%)
|
|
0% (T1)
|
15% (T2)
|
30%
(T3)
|
|
Pangola hay
|
30.0
|
30.0
|
30.0
|
|
Ground corn
|
42.0
|
42.0
|
42.0
|
|
Soybean meal
|
23.50
|
20.0
|
16.50
|
|
Cotton seed meal
|
0.0
|
3.50
|
7.0
|
|
Lime carbonate
|
1.20
|
1.20
|
1.30
|
|
Minerals
1
|
3.30
|
2.90
|
2.40
|
|
Urea
|
0.0
|
0.40
|
0.80
|
|
Total
|
100.0
|
100.0
|
100.0
|
|
Nutritional composition
|
|
CP (%)
|
18.00
|
18.00
|
18.00
|
|
TDN (%)
|
78.51
|
77.59
|
76.68
|
|
NDF (%)
|
32.67
|
32.91
|
33.16
|
|
ADF (%)
|
24.13
|
24.69
|
25.26
|
|
Fat (%)
|
4.57
|
4.50
|
4.42
|
|
Ca (%)
|
0.11
|
0.11
|
0.10
|
|
P (%)
|
0.06
|
0.05
|
0.05
|
1Composition of
the mineral supplement: vit. A = 135,000 UI; vit. D3 = 68,000 UI; vit. E = 450
mg; Ca = 240 g; P = 71 g; K = 28.2 g; S = 20 g; Mg = 20 g; Co = 30 mg; 119 Cu =
400 mg; Cr = 10 mg; Fe = 2500 mg; I = 40 mg; Mn = 1,350 mg; Se = 15 mg; Zn =
1,700 mg.
Measures
of performance and feed efficiency
The animals’
live weights (kg) measurements were carried out at 14, 28, 42, and 56 days with
a prior 12 hours solid fasting. From the differences between the initial and
final weight divided by the days of each experimental period, it is determined
the daily weight gain (DWG, g day-1).
Dry matter
intake (DMI) was determined by weighing food before offering, as well as the
leftovers from the previous day, and the values were related to each animal
live weight at 14, 28, 42, and 56 days. The feed conversion (FC, kg kg-1)
was determined by the relationship between the DMI and the DWG for each
experimental period.
Slaughter
and carcass characteristics
At end of the
trial (at 56 days), the animals were fasted from solid food for 12 h, weighed
(slaughter body weight - SBW) were stunned for electro-narcosis and then the
jugular veins and carotid arteries were sectioned for bleeding, according to
the procedures that characterize humane slaughter.
All the non-carcass
components were removed, and carcasses were weighed to obtain the hot carcass
weight (HCW, kg). After weighing the hot carcasses, they were placed in a cold chamber
at 4 °C for 24 h. Then the cold carcass weight (CCW) was determined, and the
HCW and CCW were used to calculate the following carcass-related para-meters:
hot carcass yield (HCY) = (HCW/SBW) × 100; cold carcass yield (CCY) = (CCW/SBW)
× 100, and cooling loss (CL) = [(HCW - CCW) × 100]/HCW (Pérez & Carvalho
2002).
Measures
meat quality
To evaluate the
quality of the meat, the carcasses were taken to the Meat Quality Laboratory of
the Faculty of Agricultural Sciences, National Univer-sity of Asuncion, where
they were sectioned with a band saw and then the eye area of the loin (LEA, cm2)
was measured in the 12th and 13th intercostal space,
using the transparent checkered template with an area of 1 cm2 cell-1,
and the thickness of subcutaneous fat (TSF) was also measured with a caliper
(Cezar & Sousa, 2018).
Subsequently,
two fillets with 2.54 cm thickness were extracted; following the transverse
direction of the muscle fibers and, they were weighed and vacuum packed, and
cooked in water bath (at 70 °C) for 15 minutes. The samples were removed and
weighed again to determine the difference in weight and calculate the
percentage loss by cooking (WLC, %).
To determine the
shear force (SF, kgf), three sub-samples of the cooked samples were extracted
with a 2.54 cm thick and 1.27 cm diameter punch and were positioned
perpendicular to the Warner-Bratzler equipment blades (1.1684 mm thick). The
equipment was calibrated with a standard weight of 5 kg. The device's descent
rate was 200 mm/min (AMSA, 2015).
Statistical
analyses
Obtained data
were subjected to analysis of variance (ANOVA) using the Fischer test (p ≤
0.05) using the InfoStat® software (Di Rienzo et al., 2015) adopting a
completely randomized experi-mental design, with 3 treatments consisting of
cottonseed meal levels (T1: 0%; T2: 15% and T3: 30%) and 4 repetitions (4 sheep).
The treatments means were compared by the Tukey test (p ≤ 0.05) and the
mathematical model used for the analysis was the following:
Yijk = μ +
Gi + εijk (1)
Where Yij: the value of the dependent variable referring to the
observation k, of cotton seed meal level i, in the repetition j; μ:
the overall average; Gi: effect of cottonseed meal levels i; (i = 1, 2,
3); εij: the random error associated with each observation.
In addition,
when significant effects were registe-red in some variables, a regression
analysis was carried out at 5% significance for a better description of the
treatments behavior and to determine the maximum level of cottonseed meal to be
used.
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https://orcid.org/0000-0002-1722-8883 G. A.
Portillo: 
http://orcid.org/0000-0003-0749-0826 
https://orcid.org/0000-0002-0542-1774 
https://orcid.org/0000-0002-9667-3968 
