Muhammed Arshad Shad
Effectis Of Supplementation Of Phytase On Growth Performance And Mineral Utilization (Ca, P & Zn) In Japanese Quail - 2008
Two third of phosphorus present in poultry diets is in bound form (Phytate P) and is predominantly not available to poultry, as non ruminant species lack sufficient endogenous phytase activity. Phytate probably compromises the utilization of protein/amino acids, energy and minerals including calcium, ferrous, zinc, magnesium, potassium & many others and can contribute to mineral deficiencies. Dietary inclusion of phytase enzyme economically generates blo-available phosphorus and reduces the Phosphorus load on the environment. Phytase is the requisite enzyme to degrade phytate and notionally phytase has the capacity to hydrolyze the phytate and release inorganic Phosphorus.
Keeping this thing in view a 28 day long feeding trial was planned. A total of 900 day old Japanese quail chicks were randomly assigned to 6 dietary treatments each having 10 replicates of 15 birds. Six corn soybean based diets (A & B) were formulated in such a way that they contained similar levels of CP and ME (24% & 2900 kcal/kg) but were different in Phosphorus & Calcium levels. Diet A was in accordance with the nutritional requirements of Japanese quail as specified in NRC (1994) whereas, diet B had lower levels of total Phosphorus and Calcium(0.20% and 0.15% less relative to diet A respectively). Five levels of phytase enzyme (250, 500, 750, 1000 FTU/kg of feed) were added to diet B to obtain diets C, D, F and F, respectively. Body weight gain, feed consumption, FCR, plasma calcium and phosphorus, zinc retention, keel /shank length, dressing %, tibia ash%, toe ash%, deficiency symptoms, mortality % and economics of all experimental rations were the parameters considered. The data thus obtained were subjected to statistical analysis using Analysis of Variance (ANOVA) Technique. The difference among the treatment means were tested by Duncans's Multiple Range (DMR) Test.
The results of the experiment revealed that body weight gain, feed consumption, FCR, plasma calcium and phosphorus, keel /shank length, dressing %, tibia ash% and toe ash% of groups E and F were significantly higher than group B, C and D, (P<0.05).The performance of group E and F was comparable with that of group A (+ve control). No significant difference was observed between these groups.
As far as deficiency symptoms and mortality is concerned, a large number in the groups B (39.30%), C (2 1.33%) and D (16.00%) was found suffering from leg weakness, swollen joints and crippled legs. A higher mortality rate was also recorded in these groups (4.67%, 3.33% and 2.67%, for groups B, C and D, respectively). Very less number of birds showed the above mentioned signs in groups A (0%), E (8.67%) and F (3.33%), similarly mortality percentage in these groups also remained considerably low (1 .33%, 2.67% and 2.00% for groups A, E and F, respectively).
Data pertaining to economics of the experiment revealed a considerably low cost of feed/kg of the group F than all the other treatment groups. The difference between group F and A was calculated as Rs. 1.89. A large amount can be saved as profit if diets are formulated with out DCP and are supplemented with phytase ensuring optimum utilization of phytate.
From the results of above experiment it is concluded that phytase supplementation ensures phytate degradation making available, the minerals and other nutrients chelated to it. Phytase supplementation not only facilitates the feed formulatin but also make possible the inclusion of ingredients which contain anti nutritional factor named, "phytate". This consequently results in considerably improved performance and ultimately higher profitability of the farm.
Department of Animal Nutrition
1038,T
Effectis Of Supplementation Of Phytase On Growth Performance And Mineral Utilization (Ca, P & Zn) In Japanese Quail - 2008
Two third of phosphorus present in poultry diets is in bound form (Phytate P) and is predominantly not available to poultry, as non ruminant species lack sufficient endogenous phytase activity. Phytate probably compromises the utilization of protein/amino acids, energy and minerals including calcium, ferrous, zinc, magnesium, potassium & many others and can contribute to mineral deficiencies. Dietary inclusion of phytase enzyme economically generates blo-available phosphorus and reduces the Phosphorus load on the environment. Phytase is the requisite enzyme to degrade phytate and notionally phytase has the capacity to hydrolyze the phytate and release inorganic Phosphorus.
Keeping this thing in view a 28 day long feeding trial was planned. A total of 900 day old Japanese quail chicks were randomly assigned to 6 dietary treatments each having 10 replicates of 15 birds. Six corn soybean based diets (A & B) were formulated in such a way that they contained similar levels of CP and ME (24% & 2900 kcal/kg) but were different in Phosphorus & Calcium levels. Diet A was in accordance with the nutritional requirements of Japanese quail as specified in NRC (1994) whereas, diet B had lower levels of total Phosphorus and Calcium(0.20% and 0.15% less relative to diet A respectively). Five levels of phytase enzyme (250, 500, 750, 1000 FTU/kg of feed) were added to diet B to obtain diets C, D, F and F, respectively. Body weight gain, feed consumption, FCR, plasma calcium and phosphorus, zinc retention, keel /shank length, dressing %, tibia ash%, toe ash%, deficiency symptoms, mortality % and economics of all experimental rations were the parameters considered. The data thus obtained were subjected to statistical analysis using Analysis of Variance (ANOVA) Technique. The difference among the treatment means were tested by Duncans's Multiple Range (DMR) Test.
The results of the experiment revealed that body weight gain, feed consumption, FCR, plasma calcium and phosphorus, keel /shank length, dressing %, tibia ash% and toe ash% of groups E and F were significantly higher than group B, C and D, (P<0.05).The performance of group E and F was comparable with that of group A (+ve control). No significant difference was observed between these groups.
As far as deficiency symptoms and mortality is concerned, a large number in the groups B (39.30%), C (2 1.33%) and D (16.00%) was found suffering from leg weakness, swollen joints and crippled legs. A higher mortality rate was also recorded in these groups (4.67%, 3.33% and 2.67%, for groups B, C and D, respectively). Very less number of birds showed the above mentioned signs in groups A (0%), E (8.67%) and F (3.33%), similarly mortality percentage in these groups also remained considerably low (1 .33%, 2.67% and 2.00% for groups A, E and F, respectively).
Data pertaining to economics of the experiment revealed a considerably low cost of feed/kg of the group F than all the other treatment groups. The difference between group F and A was calculated as Rs. 1.89. A large amount can be saved as profit if diets are formulated with out DCP and are supplemented with phytase ensuring optimum utilization of phytate.
From the results of above experiment it is concluded that phytase supplementation ensures phytate degradation making available, the minerals and other nutrients chelated to it. Phytase supplementation not only facilitates the feed formulatin but also make possible the inclusion of ingredients which contain anti nutritional factor named, "phytate". This consequently results in considerably improved performance and ultimately higher profitability of the farm.
Department of Animal Nutrition
1038,T