DEPARTMENT OF ANIMAL SCIENCE

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Subject: search.filters.subject.Ammonium sulphate

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    Body weight changes, haematological and serum biochemical indices of West African (WAD) Dwarf rams fed ammonium sulphate fortified diets
    (2017) Ososanya, T. O.; Akinlade, A. T.
    Weight gain, haematology and serum biochemical parameters of sixteen (16) West African Dwarf (WAD) rams weighing 12.8+0,12 kg were assigned to diets containing 0g/kg, 2.5g / kg, 5.0g/kg and 7.5g/kg levels of ammonium sulphate ((NH4)2SO4) as T0, T2.5, T5.0 and T7.5, respectively. The animals were fed the diet and wilted guinea grass in a 60:40. Daily weight gain, feed conversion ratio, platelet, lymphocytes, neutrophil, cholesterol, Aspartate aminotransferase (AST), Alanine aminotransferase (ALT) and Alkaline Phosphatase (ALP) values of the rams fed ammonium sulphate fortified diets were significantly (p<0.05) higher than the control. Haemoglobin concentration increased in ramsfed ammonium sulphate fortified diets from 14.00-14.68% compared to control. The white blood cell (x 10(6)/mm(3)) varied from T0 (4.3 I) to T7.5(5.15). The lowest packed cell volume (41.00%) was obtained for rams on control diet. Red blood cell (x 10(6)/mm(3))) ranged from T0 (11.86) to T7.5 (13.02) while alanine aminotransferase (ALT) ranged from 10.25 (T0) to 25.25 (T7.5) (x 10(6)µL). The study revealed that inclusion of ammonium sulphate fortified diets of WAD rams up to 7.5g/kg had no deleterious effects on weight gain, haematological and serum indices of WAD rams
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    Volatile fatty acids and microbial load of West African dwarf rams fed ammonium sulphate-fortified diets
    (Department of Animal Science, University of Ibadan, 2016) Akinlade, A. T.; Ososanya, T. O.
    Growing West African Dwarf (WAD) rams, aged between 6 and 8 months with mean body weight of 12.80 ± 0.12kg were used to predict rumen microbial population and volatile fatty acids (VFAs) for 105 days. The growing WAD rams were randomly allotted to four dietaiy treatments with four rams per treatment group in a completely randomized design. The compared experimental diets were: Each group was assigned to experimental diet shown below and ammonium sulphate at inclusion level of 0, 2.5, 5.0, 7.5g/kg (NH(4)2SO(4) were added to it as Tl, T2, T3 and T4 respectively. Results showed that, rumen ammonia nitrogen coneentration (1.17mg/100ml), rumen bacteria (7.17cfu/ml), rumen fungi (4.47 cfu/ml), rumen pH (6.82) and propionate acid (33.25mmol/100ml) were significantly (P < 0.05) highest in growing rams on T4 compared to other treatment diets. Rumen temperature (38.95°C), rumen protozoa (5.39ml), acetic acid (21.51%) and butyric acid (12.85%) were significantly (P < 0.05) better in growing WAD rams on Tl. Propionate formation can be considered as a competitive pathway for hydrogen use in the rumen and it ranges from 19.25-22.41 mmole/100ml and is statistically difference because sulphate reducing bacteria compete with methanogenic archaea for hydrogen when sulphate is present Also, ammonium sulphate can be referred to as anti-methanogenic compounds because it reduces the protozoal numbers in the rumen and it ranges from 5.36 to 5.95 mi. It was concluded that, ammonium sulphate fortified diets is a potential source of readily available nitrogen and sulphur which enhances the growth of microbial population due to their high solubility and ability to be rapidly degraded to NH(3) in die rumen thereby enhancing ruminant productivity especially when fed at 7.5g/kg (NH(4)2SO(4).
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    Growth performance and blood profile of gestating wad ewes fed dietary supplementation of ammonium sulphate
    (The Nigerian Society for Animal Production, 2016) Ososanya, T. O.; Inyang, U. A.; Shehu, S. A.
    The concern raised as a result of antibiotic usage in the livestock industry has necessitated the need for alternative feed additives such as ammonium sulphate. Hence, sixteen West African Dwarf (WAD) ewes averaging 24 kg in weight and aged eighteen months were used to determine the growth performance and blood chemistry of ammonium sulphate supplemented diets. The animals were divided into four groups of experimented diets consisting: D1 (0 %) (Control diet), D2 (0.25 %), D3 (0.50 %) and D4 (0.75 %) of ammonium sulphate (AMS) inclusion levels and were randomly allotted in a completely randomized design. They were also synchronized with prostaglandin F(2α) and naturally mated with four (4) rams of proven fertility when they came on heat. Parameters determined were feed intake, dry matter intake (DMT), gestating weights and gains, and blood haematology and serum biochemistry such as white blood cells (WBC), red blood cell (RBC), packed cell volume (PCV), haemoglobin (HGB), albumin (A), globulin (G), total protein (TP), cholesterol (CHOP), blood urea nitrogen, creatinine (C), alanine aminotransferase (ALT), aspartate aminotransferase (AST) and alkaline phosphatase (ALP). The results showed that supplementing AMS in ewe diets generally enhanced (p < 0.05) final weight (Kg), gestational weight gain (Kg) and average daily weight gain (g). The values ranged from 32.00-45.25 Kg; 8.25 - 22.25 Kg; 207.79 - 267.86 g/d respectively. The feed conversion ratio improved with increasing levels of AMS with animats on D4 recording the least (0.20). Animals on Dl recorded the highest values for PCV, HGB, and RBC while those on D3 had the least. The values were 44.25 and 41.00 %; 14.68 and 13.40 g/dl; and 13.02 and 11.86 x 10(6)/mm(3) respectively. Animals on D4 recorded the highest values for WBC (5150.50 x 10(6)/mm(3) ). Serum biochemical responses of pregnant sheep indicated significant differences (p < 0.05) of AMS supplementation on TP, A/G ratio, ALP and creatinine values. Animals on Dl recorded the highest values for TP, A/G ratio; ALT, BUN and C white those on D2 were least except jar ALT where D3 was least in ALT. The values were 8.68 and 8.15 g/dl; 0.80 and 0.65; 289 and 235.50 I.U./L; 10.75 and 9.75 mg/dl; 1.48 and 1.08 mg/dl respectively. Animals on D2 recorded the highest values for G, ALP and CHOL (4.80 mg/dl; 25.25 1. U/L; and 63.00 mg/dl respectively). Inclusion of AMS improved conversion ratio thereby improving the performance of ewes and thus proved that it could be tolerated up to 0.75 % supplementation in diets for ewes.
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    Effect of ammonium sulphate fortification on growth performance, nutrient digestibility and nitrogen balance of West African dwarf rams
    (2016) Akinlade, A. T.; Ososanya, T. O.
    Ammonium sulphate (NH(4)2SO(4) is potential source of readily available nitrogen and sulphur which would fill the gap in feed availability to ruminants during the extended annual dry season. Hence, the use of ammonium sulphate becomes a viable alternative to growth-promoting antibiotics due to their effectiveness on ruminant productivity. Therefore, the effect of various inclusion levels of ammonium sulphate on the performance of West African Dwarf (WAD) rams was examined. Sixteen rams weighing 12.8±0.1-2 kg were assigned to four experimental diets containing 0.00, 0.25, 0.50 and 0.75% levels of ammonium sulphate designated as Tl, T2, T3 and T4 respectively. In a completely randomized design, each rams were fed at 5% of their body weight at 60:40 levels of experimental diet and wilted guinea grass as basal diet. The growth trial lasted for 105 days. The chemical composition of the experimental feed and faecal samples were analyzed, and data on total voluntary feed intake, feed conversion ratio, weight gain, nitrogen utilization, and apparent digestibility were also collected. The parameters on proximate composition of the feed were significantly affected by the inclusion of (NH(4)2SO(4) except for DM, GE, Calcium (Ca) and Phosphorus (P). The values for the parameters increased with increased inclusion of (NH(4)2SO(4). The dry matter (DM) and crude protein (CP) obtained ranged from 94.15 - 94.69% and 11.00 - 13.40% respectively while the levels of sulphur was between 4.13 - 4.85%. Live weight gain increased with increased inclusion of (NH(4)2SO(4) and ranged from 3.50 - 5.00 kg but did not differ significantly (P>0.05) from each other. The total voluntary feed intake (TVFI) obtained in this study ranged between 59.79 - 62.64 kg and feed conversion ratio (FCR) from 11.96 - 17.90. However, TVFI and FCR decreased with increasing levels of (NH(4)2SO(4) in the diet. Also, acid detergent lignin digestibility was significantly (P<0.05) affected by inclusion levels of ((NH(4)2SO(4) in the treatments. Nitrogen in feed (3.39g/day), faecal nitrogen output (2.62g/day), urinary nitrogen output (0.21g/day) and nitrogen retention (0.56g/day) were insignificantly (P>0.05) difference except percentage nitrogen retained (16.52g/day) which is significantly different (P<0.05) from each other. It is evident that rams on 0.75% ammonium sulphate supplementation had better growth performance, improved nutrient digestibility and nitrogen metabolism, hence substantiating its utilization in ram diet.
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    Evaluation of dietary supplementation of ammonium sulphate on in vitro gas production and rumen fermentation characteristics of WAD ewes
    (Science Domain, 2016-06) Ososanya, T. O.; Shehu, S. A.; Inyang, U. A.
    Ammonium sulphate, a chemical compound was utilized to evaluate its potential through in vitro gas production technique and rumen fermentation characteristics as a rumen stimulator and mitigates methane gas. Four experimental diets were formulated with ammonium sulphate (AS) included at varying levels: T1 (control/0% AS), T2 (control diet + 0.25% AS), T3 (control diet + 0.50% AS) and T4 (control diet + 0.75% AS). Rumen fluid was collected from the ewes, sixteen in number and weighing 24 kg averagely, using suction tube method to evaluate in vitro gas production, determine microbial population and rumen fermentation characteristics. Gas production was determined over a 96 hour period. Other data collected included organic matter digestibility (OMD%), short Chain Fatty Acids (SCFA μml), Metabolisable Energy (ME MJ/KJ DM), Degradability (D%), Volatile Fatty Acids (VFA), rumen pH, temperature and ammonia nitrogen (AN). Results showed no significant differences (p>0.05) for in vitro gas production profiles (i.e. total gas, OMD, ME, SCFA). However, as inclusion increased it stimulated the parameters measured to be numerically higher than control. Methane gas was highest for control diet (4 ml/200 mg DM) while T2 recorded the least (2 ml/200 mg DM). Degradability increased as the inclusion level of AS increased. Control diet was the lowest (32%) while T4 had the highest (45%). The rumen fermentation characteristics showed significant (p<0.05) differences for all the parameters measured except rumen temperature. Animals on T4 diet recorded the highest (p<0.05) pH value (6.85) while those on T2 diet had the least (6.53). Animals on Control diet recorded the highest values (p<0.05) for AN and acetic acid (100.40 mg/l and 8.98 mol/100L) while the least values were observed in animals on T2 diet (AN) and those on T4 (acetic acid). Increase inclusion of AS caused a decrease in acetic acid. Rumen bacteria was highest (p<0.05) in animals on T4 (1.40 x 10(6)cfu/mm(3)) and lowest in those on T3 (0.65 x 10(6)cfu/mm(3)). For fungi and protozoa, animals on T4 and T2 diets were higher (p<0.05) respectively than those on Control diet (1.15 and 1.09 x 10(6)cfu/mm(3) compared to 1.10 and 0.85 x 10(6)cfu/mm(3) respectively). Supplementation of AS has been validated by this study, with a 0.75% inclusion level resulting in lowest methane gas, and higher ME, SCFA, pH, bacteria and fungi and may be recommended for ruminant feeding.
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    Nutrient utilization, ruminal microbial population and fermentation characteristics of West African Dwarf (WAD) rams fed ammonium sulphate fortified diets
    (National Animal Production Research Institute, Ahmadu Bello University, Zaria, 2016) Akinlade, A. T.; Ososanya, T. O.
    The ruminal microbial population has enormous potential for fibre digestion. Microorganisms are responsible for breakdown of plant cell walls, fungi have better ability to attack lignocellulosic tissues for bacteria to act on it. Ammonium sulphate, a chemical compound that serves as a ready source of nitrogen and sulphur, plays important roles in enhancing rumen microbial activity. Therefore, the effects of ammonium sulphate fortification on rumen fermentation characteristics and microbial populations were evaluated. Sixteen (16) West African dwarf (WAD) rams weighing 12.8±0.12kg were assigned to diets containing 0g/100kg (control diet), 250g/100kg, 500g/100kg and 750g/100kg levels of ammonium sulphate (T1, T2, T3 and T4 respectively) in a completely randomized design, each ram fed 5% body weight of the diet and wilted guinea grass in a 60:40 ratio for 105 days. At the end of the feeding trial, the effects of the diets on rumen microbial population and fermentation characteristics of the rams were assessed. The fungi population in sheep fed ammonium sulphate fortified diets ranged from 3.37- 4.36 x 10(4) cfu/ml. Acetate, propionate and butyrate in the ammonium sulphate fortified diets ranged from 46.37 - 48.71, 29.41 - 33.25 and 21.00 - 24.75 mmole/100ml respectively. The acetate and butyrate of the ammonium sulphate fortified diets decreased with increasing inclusion levels of ammonium sulphate, while the propionate decreased. Results obtained showed that ammonia nitrogen, fungi, bacteria and acetate were 1.45ppm, 4.36 cfu/ml, 7.01 cfu/ml, 48.71 mmole/100ml respectively, and they were significantly (P<0.05) highest in rams fed diet fortified with 750g/100kg ammonium sulphate. Rams on control diet had significantly (P<0.05) higher values of protozoa, pH, acetate and butyrate (5.96 cfu/ml, 6.82, 48.71 mmole/100ml, 24.75 mmole/100ml) than rams on T2, T3 and T4 because the control diet is not fortified with ammonium sulphate. It was concluded that rams fed 750g/100kg of ammoniumsulphate had greater number of rumen microbes which resulted in higher microbial protein synthesis, hence improved performance and higher body weight gain.