Growth performance and water quality as affected by dietary nitrogen levels in Nile Tilapia / Gad Hassan Gad Hussein ; Supervised Mohamed Elnady Ahmed Mohamed , Rasha Khaled Abdelwahed

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Gad Hassan Gad Hussein

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TextLanguage: English Publication details: Cairo : Gad Hassan Gad Hussein , 2016Description: 164 P. : charts ; 25cmOther title:

آداء النمو و جودة المياة تحت تأثير مستويات نيتروجين العليقة فى البلطى النيلى [Added title page title]

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Dissertation note: Thesis (M.Sc.) - Cairo University - Faculty of Agriculture - Department of Animal Production Summary: Nile tilapia juveniles with a range initial weights 95.1 - 106.8 were distributed into 18 concrete tanks with a constant water depth of 75 cm. Two feeding rates (inputs) were employed in the first rearing experiment at 7 and 10 grams diet/m2/day. The commercial feed contained three levels of dietary protein (25, 30 and 35%). The rearing experiment included six treatments. Increasing dietary protein contents within the 7 gram and 10 gram treatments did not affect oxygen concentration at sunset. When feed load increased from 7 grams to 10 gram algal blooms took place in higher feed load. Early morning oxygen deficits ranged -0.72 to -0.81 g O₂/m² in the 7 grams treatments, with no significant effect due to protein content among tested diets. However, higher early morning oxygen deficits (- 1.59 to -1.99 g O₂/m²) were observed in the 10 grams treatments. Feeding Nile tilapia at 7 grams/m2/day had comparable growth performance and better feed conversion ratio to those fed at 10 grams/m2/day. Consequently, higher feed inputs neither improved economic efficiency, nor enhanced oxygen budget. Increasing crude protein within the 7 gram treatments above 30% did not improve PER value. Nile tilapia juveniles with a range initial weights of 129.6-140.3 grams/fish were distributed into 18 concrete tanks with a constant water depth of 75 cm. Two feeding rates (inputs) were employed in the experiment at 8 and 9 grams diet/m²/day, six days a week. The commercial feed contained three levels of dietary protein (25, 30 and 35%). Increasing dietary protein content did not have any effect on oxygen concentrations at sunset among treatments. Dissolved oxygen (DO) concentrations at sunset decreased sharply from 8.9 - 10.8 g O₂/m2 during the second month to 3.4 - 6.9 g O₂/m² during the third month, with significant differences between the two periods (p<0.05). There was a sharp decline in secchi disk readings caused by the excessive increase in algal abundance during the third month. Dissolved oxygen concentration at sunrise and sunset were drastically reduced during the third month due to the excessive algal bloom observed in the latter period. Better environment during the second month improved treatment performance in terms of nighttime oxygen availability, however, adverse environments were observed during the third month with fish suffering oxygen deficiency

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Item type	Current library	Home library	Call number	Copy number	Status	Barcode
Thesis	قاعة الرسائل الجامعية - الدور الاول	المكتبة المركزبة الجديدة - جامعة القاهرة	Cai01.07.03.M.Sc.2016.Ga.G (Browse shelf(Opens below))		Not for loan	01010110070596000
CD - Rom	مخـــزن الرســائل الجـــامعية - البدروم	المكتبة المركزبة الجديدة - جامعة القاهرة	Cai01.07.03.M.Sc.2016.Ga.G (Browse shelf(Opens below))	70596.CD	Not for loan	01020110070596000

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Thesis (M.Sc.) - Cairo University - Faculty of Agriculture - Department of Animal Production

Nile tilapia juveniles with a range initial weights 95.1 - 106.8 were distributed into 18 concrete tanks with a constant water depth of 75 cm. Two feeding rates (inputs) were employed in the first rearing experiment at 7 and 10 grams diet/m2/day. The commercial feed contained three levels of dietary protein (25, 30 and 35%). The rearing experiment included six treatments. Increasing dietary protein contents within the 7 gram and 10 gram treatments did not affect oxygen concentration at sunset. When feed load increased from 7 grams to 10 gram algal blooms took place in higher feed load. Early morning oxygen deficits ranged -0.72 to -0.81 g O₂/m² in the 7 grams treatments, with no significant effect due to protein content among tested diets. However, higher early morning oxygen deficits (- 1.59 to -1.99 g O₂/m²) were observed in the 10 grams treatments. Feeding Nile tilapia at 7 grams/m2/day had comparable growth performance and better feed conversion ratio to those fed at 10 grams/m2/day. Consequently, higher feed inputs neither improved economic efficiency, nor enhanced oxygen budget. Increasing crude protein within the 7 gram treatments above 30% did not improve PER value. Nile tilapia juveniles with a range initial weights of 129.6-140.3 grams/fish were distributed into 18 concrete tanks with a constant water depth of 75 cm. Two feeding rates (inputs) were employed in the experiment at 8 and 9 grams diet/m²/day, six days a week. The commercial feed contained three levels of dietary protein (25, 30 and 35%). Increasing dietary protein content did not have any effect on oxygen concentrations at sunset among treatments. Dissolved oxygen (DO) concentrations at sunset decreased sharply from 8.9 - 10.8 g O₂/m2 during the second month to 3.4 - 6.9 g O₂/m² during the third month, with significant differences between the two periods (p<0.05). There was a sharp decline in secchi disk readings caused by the excessive increase in algal abundance during the third month. Dissolved oxygen concentration at sunrise and sunset were drastically reduced during the third month due to the excessive algal bloom observed in the latter period. Better environment during the second month improved treatment performance in terms of nighttime oxygen availability, however, adverse environments were observed during the third month with fish suffering oxygen deficiency

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