Seyed Morteza Vaghar Seyedin; Mohsen Mojtahedi; Mohhamad Hasan Fathi Nasri; Seyed Ehsan Ghiasi
Volume 21, Issue 4 , January 2020, , Pages 487-497
Abstract
This study aimed to evaluate the buffering capacity of some buffer mixtures and the effect of their inclusion in the diet on in vitro ruminal fermentation parameters. For this purpose, five buffer mixtures were prepared as: 1) containing 15% sodium bicarbonate + 15% magnesium oxide + 35% magnesium ...
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This study aimed to evaluate the buffering capacity of some buffer mixtures and the effect of their inclusion in the diet on in vitro ruminal fermentation parameters. For this purpose, five buffer mixtures were prepared as: 1) containing 15% sodium bicarbonate + 15% magnesium oxide + 35% magnesium carbonate + 35% sodium bentonite; 2) containing 35% sodium bicarbonate + 35% magnesium oxide + 15% magnesium carbonate + 15% sodium bentonite; 3) containing 20% sodium bicarbonate + 40% magnesium oxide + 20% magnesium carbonate + 20% sodium bentonite; 4) containing 40% sodium bicarbonate + 20% magnesium oxide + 20% magnesium carbonate + 20% sodium bentonite; and 5) containing 16% sodium carbonate + 35% magnesium oxide +22% magnesium carbonate + 5% sodium bentonite and 22% monobasic potassium phosphate. Buffering capacity and buffer value index were measured. Then the effect of buffer mixtures on gas production potential, pH, ammonia nitrogen concentration and in vitro dry matter disappearance (IVDMD) was investigated. Bufferingcapacity and buffer value index of buffer mixture 2 was higher than other buffer compounds (P<0.05). Buffer mixture 4 increased gas production (P<0.05). IVDMD was the same between the buffer mixtures and only buffer mixture 4 and 1 were different (P<0.05). The use of buffer mixture 2 increased the pH of the batch culture (P<0.05). Overall, the results of this experiment showed that the use of buffer mixture2 could have an effective role in preventing pH drop and consequently reducing acidosis.
mojtaba afshin; Nazar Afzali; Mohsen Mojtahedi; Abas Mohammadi
Volume 19, Issue 2 , August 2017, , Pages 403-414
Abstract
The effects of seeds and whole plant powder and extract of Milk thistle (MT) plant in reducing the negative effects of feeding 500 ppb aflatoxin B1 (AFB1) on broiler chickens performance, carcass characteristics and some blood parameters were examined using 192 one-day old chick (Ross 308) in a completely ...
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The effects of seeds and whole plant powder and extract of Milk thistle (MT) plant in reducing the negative effects of feeding 500 ppb aflatoxin B1 (AFB1) on broiler chickens performance, carcass characteristics and some blood parameters were examined using 192 one-day old chick (Ross 308) in a completely randomized design with six treatments, four replicates and 8 birds per repetition. The experimental treatments included: 1) control, 2) contaminated control (CC), 3) CC + 0.5 percent of MT seed powder, 4) CC + 1 percent MT plant powder, 5) CC + 600mg/kg MT plant extract, 6) CC + 1000mg/kg MT plant extract. Results indicated that feeding contaminated diet reduced body weight gain and increased the feed conversion ratio and alanine aminotransferase enzyme compared with control in whole experimental period (P≤0.05). The inclusion of 1 percent MT plant powder to the contaminated diets improved weight gain and feed conversion ratio in 1-7, 7-21 days and whole experimental period (1-35 days) compared to the contaminated control (P≤0.05). The addition of 0.5 percent MT seed powder, 1 percent MT plant powder and 1000mg/kg MT plant extract to the contaminated diets decreased alanine aminotransferase enzyme (at 35d) compared to the contaminated control (P≤0.05). It was concluded that compared to other treatments, one percent MT plant powder was more effective in reducing the negative effects of feeding AFB1 in broiler chickens.