Abstract:
Orange-fleshed Sweetpotato Root (OSR) is a potent energy feedstuff for laying hens due to
its high energy and carotenoid content. However, OSR’s high perishability and dustiness in
finished feeds are limitations, which could be addressed by high-temperature-short-time
extrusion. There is scarce information on the effect of extrusion on the nutritional quality of
OSR, the pigmenting abilities of OSR carotenoids and their interconversion to vitamin A in
poultry. Therefore, this study was designed to assess the effect of extrusion on metabolisable
energy of OSR-based concentrates, pigmenting abilities and the interconversion of OSR
carotenoids to vitamin A in laying hens.
Concentrates: OSR and Corn Bran at 3:2 (OSR-CB), extruded at 65-70℃ (Elow) and 100-
110℃ (Ehigh) in a single screw extruder, were assayed for Water Solubility Index-WSI,
Water Absorption Index-WAI, and Provitamin A (PVA) carotenoids using standard
procedures. Twenty-nine-week-old ISA Brown hens (n=96, 1.9±0.1kg) were randomly
allotted to 12 diets containing unextruded, Elow and Ehigh OSR-CB each at 0, 10, 20 or 30%
as substitute for glucose monohydrate, for seven days (r=4). The nitrogen corrected
Apparent Metabolisable Energy (AMEn, kcal/kg) of the concentrates were estimated using
standard methods. Carotenoid-depleted hens at 42-week-old (n=96, 2.2±0.1kg) were
randomly assigned to White Maize-Soybean Meal (WM+SBM, control), WM+SBM + apo-
ester, OSR-CB+SBM or Yellow Maize -SBM (YM+SBM) based diet in four replicates for
84 days. Eggs were collected for yolk quality assessment, PVA carotenoids (μg/g) and
retinol (μg/100g) at day 0, 28, 56 and 84 using standard procedures. Liver was biopsied at
day 0, 28, 56, and 84, and assayed for retinol (μg/g). Data were analysed using descriptive
statistics and ANOVA at ἀ0.05.
Extrusion significantly decreased WSI by 4.05% (23.67±0.47) and 16.21% (20.67±0.47) in
Elow and Ehigh OSR-CB, respectively, compared to unextruded OSR-CB (24.67±0.47). A
significantly higher WAI of 5.39±0.21 was recorded in Ehigh OSR-CB, while unextruded
and Elow OSR-CB were similar. The PVA carotenoids decreased significantly from
228.04±0.05 in unextruded OSR-CB to 152.32±0.16 in Elow and 148.37±0.53 in Ehigh OSR-
CB. Extrusion significantly enhanced AMEn of Elow and Ehigh OSR-CB by 16.47%
iv
(4051.15±0.05) and 14.11% (3968.82± 0.06), respectively over unextruded OSR-CB
(3478.13± 0.08). Colour intensity of egg yolk at day 28 ranked: 74.07±0.18 (WM+SBM +
apo-ester) > 70.97±0.04 (YM+SBM) > 63.41±0.03 (OSR-CB+SBM) > 53.68±0.09
(WM+SBM), with similar trends at 56 and 84 days. The PVA carotenoids in egg yolk on
day 84 was significantly higher in OSR-CB+SBM (2.80±0.04) and YM+SBM (1.13±0.02)
than WM+SBM (0.52±0.03) and WM+SBM + apo-ester (0.33±0.02) fed hens. Egg yolk
retinol increased by 709.56% (77.88±0.04) and 20.06% (11.55±0.03), in OSR-CP+SBM
and YM+SBM fed hens, respectively compared to the control (9.62±0.08) at day 28, with
similar trend at 56 and 84 days. Liver retinol at day 28 was significantly higher in OSR-
CB+SBM (996.26±0.04) and YM+SBM (367.64±0.05) and similar in WM+SBM
(136.30±0.02) and WM+SBM + apo-ester (126.80±0.06) fed hens with same trend observed
at 56 and 84 days.
Extruded Orange-fleshed sweetpotato root based concentrate at low temperature
improved energy availability, egg yolk pigmentation and vitamin A in laying hens.