Abstract
The effects of substituting soyabean meal with yeast ( Sacharomyces cerevisae ) meal in diets fed to Clarias gariepinus was studied for 60 days. Growth response, haematological and biochemical parameters were evaluated. 105 juvenile three-weeks old C. gariepinus composed of seven treatment groups replicated thrice were used for the study. Each replicate had five fishes. The Groups (A to G) were: Group A, 0% yeast meal (YM) (15 juveniles); Group B, 10% YM; Group C, 20%; Group D 30%; Group E, 40%; Group F, 50%; and Group G, 100% YM. The acceptability of yeast based diets by C. gariepinus was studied using the time to strike index, and their growth responses studied using ‘weight gain’ and ‘specific growth rate’ while the haematological and biochemical indices were assessed using the different blood parameters. The results indicate that substituting yeast meal for soyabean meal in diets fed C. gariepinus juveniles slightly increased the growth response. All the catfishes fed with 100% yeast meal (diet G) died within the first week. Increasing proportion of substitutions of yeast meal in diets fed to C. gariepinus juveniles, led to weight increase in all dietary types with exception of diet G and higher growth induction in catfishes fed diets with exception of diet B. Diet F induced better mean growth than the control diet. Substitution of various levels of soyabean meal with yeast meal after 30 days led to better result on haemoglobin (HB), red blood cell (RBC), packed cell volume (PCV) and white blood cell (WBC) in diet C Group when compared to the control, while after 60 days, diet F Group had better HB, RBC, PCV and WBC values than the control. Substitution of varied percentages of soyabean meal with yeast meal for 60 days led to significantly higher (P 0.05) between those on yeast inclusion and the control in the serum alanine aminotransferase activity. This study shows that yeast inclusion at 50% (diet F) led to significantly better growth, weight gain, haematological and biochemical profile than other diets. This study shows that yeast inclusion may have a better effect on fish diet at lower levels of inclusion. Diet F (50% yeast inclusion) was considered the best level of inclusion because of enhanced nutritional status, better blood parameters and improved health of fishes. Key words : Clarias gariepinus , soyabean, yeast, growth, haematology, biochemistry, serum, total protein, cholesterol, aspartate aminotransferase, alanine aminotransferase.
Highlights
Clarias gariepinus has been widely cultured because of its high growth rate, disease resistance and amenability to high density because of their air breathing habits (Haylor, 1993; Leung and Tisdell, 1997; Machiels and Ezenwaji et al 15803Henken,1985)
The results indicate that substituting yeast meal for soyabean meal in diets fed C. gariepinus juveniles slightly increased the growth response
Substitution of varied percentages of soyabean meal with yeast meal for 60 days led to significantly higher (P < 0.05) serum, total protein and cholesterol in some of the groups on yeast meal inclusion when compared to the control, and significantly higher (p < 0.05) serum aspartate aminotransferase activity in all the groups given yeast meal based diets when compared to the control (Group A)
Summary
Clarias gariepinus has been widely cultured because of its high growth rate, disease resistance and amenability to high density because of their air breathing habits (Haylor, 1993; Leung and Tisdell, 1997; Machiels and Ezenwaji et al 15803Henken,1985). The increase in demand for fish has led to growth in aquaculture. This increase can be attributed to factors such as increasing world population, an increase in the spending power of individuals in developing countries and the changing tastes and preferences toward sea food than meat. Fagbenro and Adeparusi (2003) reported increasing attempt to develop practical diets for farmed fish in Nigeria. Omitoyin (1995) and Aderemi et al (2004) noted that Nigeria produces large quantity of agricultural and agro-industrial by-products which serves as alternative feed sources to conventional feed ingredients. The technology of formulating, manufacturing and feeding practical diets is advanced to the stage that highly productive and cost efficient feeds are being produced
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