Effect of different dietary concentrations of brown marine algae (Sargassum dentifebium) prepared by different methods on plasma and yolk lipid profiles, yolk total carotene and lutein plus zeaxanthin of laying hens

The effect of different concentrations (0%, 3% and 6%) of brown marine algae (BMA,<em> Sargassum dentifebium</em>) prepared according to different methods (sun-dried, SBMA; boiled, BBMA; autoclaved, ABMA) on plasma and yolk lipid profiles, carotene, and lutein plus zeaxanthin in egg yolks was studied in hens aged from 23 to 42 weeks (30 hens per treatment). We determined the fatty acid profiles in BMA and in the egg yolk of hens fed different levels of BMA prepared according to different methods. In addition, plasma and yolk lipid profiles, yolk total carotene, and lutein plus zeaxanthin were determined at week 42 of age. Plasma and yolk cholesterol were significantly lower in groups fed diets containing either 3% or 6% BMA than in the control group, but high-density lipoprotein (HDL) significantly decreased as BMA concentration increased. There was a significant similar decline in yolk triglycerides with inclusion of either 3% or 6% BMA in the laying hen diet. Palmitic acid was the main saturated fatty acid (SFA) found in BMA and oleic acid (omega-9) and linoleic acid (omega-6) were the main unsaturated fatty acids (UFA), while there was a significant increase in palmitic acid in egg yolk when BMA was included at 6%. There was a significant increase in oleic acid (omega-9) when feed containing 3% BMA was given compared to the control group, but this decreased with a further increase in BMA. Linoleic acid (omega-6) also significantly decreased with inclusion of either 3% or 6% BMA. There was a significant increase in total carotene and lutein plus zeaxanthin in the laying hen eggs as a result of feeding diets containing 3% and 6% BMA

Growing and laying performance of Japanese quail fed diet supplemented with different concentrations of acetic acid

<p>In order to evaluate the effect of acetic acid on growing and laying performance of Japanese Quail (JQ), 180 15-day-old JQ were divided into 4 groups. During the growing (15-42 days of age) and laying (43-84 days of age) periods, the groups fed the same basal diets supplemented with 0, 1.5, 3 and 6% of acetic acid. Each diet was fed to five replicates of 9 JQ (3 males:6 females) during the growing period. During the laying period, 128 birds were housed in 32 cages (4 birds per cage, 1 male and 3 females, 8 replicates per treatment). Birds were housed in wire cages (46L×43W×20H cm) in an open room. Acetic acid supplementation at 3% in the diets significantly increased the growth and laying rate and the Haugh unit score. The liver percentage significantly decreased with acetic acid at 6%. Acetic acid at 3% significantly increased hemoglobin concentrations at 6 weeks of age and increased weight of day old chicks hatched.<strong> </strong>Acetic acid affected the immune system as manifested by an excess of cellular reactions in the intestine as well as lymphoid hyperplasia in the spleen tissue. Degenerative changes in the covering epithelium of the intestinal villi were noted at the 6% concentration of acetic acid. Hepatocyte vacuolation and fatty changes were also observed at this concentration of treatment. In conclusion, 3% acetic acid may be used as a feed supplement for JQ during the growing and laying period to improve the productive performance.</p><br /

The effects of preparing methods and enzyme supplementation on the utilization of brown marine algae (Sargassum dentifebium) meal in the diet of laying hens

Brown marine algae (BMA; <em>Sargassum dentifebium</em>) were collected from Jeddah on the shores of the Red Sea and sun dried at an average daily temperature of 40°C until constant weight was obtained. Part of the sun dried brown marine algae was subsequently processed by boiling (BBMA;boiled brown marine algae) in water and by autoclaving (ABMA; autoclaved brown marine algae). The SBMA, BBMA and ABMA were included in laying hen diet during weeks 23-42 of age at concentrations of 0.0%, 3.0% and 6.0%. The diets were given with or without enzyme supplementation. This resulted in 3 (preparation methods) × 2 (concentrations of supplemented BMA, i.e. 3 and 6 %) × 2 (with and without enzyme supplementation) diet programs plus two control groups (with and without enzyme supplementation) for a total of 14 treatments. Each treatment was represented by six replicates of five hens each. Sun dried or autocalved brown marine algae at 3% without enzyme supplementation in the laying hen diet could be fed to laying hens without any adverse effect on laying performance. However, enzyme supplementation to a diet containing 6% autocalved brown marine algae improved productive performance and eggshell quality