Mohammad Ebrahim Nooriyan Soroor; Mohammad Ebarhim Nooriyan Soroor; Mohammad Mahdi Moeini
Volume 18, Issue 4 , December 2016, , Pages 729-740
Abstract
Effects of ethanol and acetone extracts of Glycyrrhiza glabra at six levels (0, 50, 100, 200,300 or 500 µl) were evaluated on gas production process, ruminal fermentation and protozoa population in Markhoz goat. The gas production was conducted by alfalfa substrate using compiled randomized design ...
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Effects of ethanol and acetone extracts of Glycyrrhiza glabra at six levels (0, 50, 100, 200,300 or 500 µl) were evaluated on gas production process, ruminal fermentation and protozoa population in Markhoz goat. The gas production was conducted by alfalfa substrate using compiled randomized design with five replications in each treatment. The fermentation parameters, methane, partitioning factor (PF) and volatile fatty acids (VFA) were recorded. The gas production in 24 h was increased in all levels of both extracts (P˂0.01). The methane production decreased in ethanol extract (P˂ 0.05) however, it was increased by acetone extract at level of 300 and 500 µl (P˂0.01). The organic matter degradability was improved by addition of both extracts (P˂0.01). The Ammonia was declined by ethanol extract (P˂ 0.01). The PF and microbial mass production were decreased by inclusion of both extract, however the VFA and metabolizable energy were enhanced at all levels of both extracts (P˂0.01). All subfamily (except Diplodiniinae)and total protozoa population were decreased by both extracts. It can be concluded that ethanol and acetone extracts of Glycyrrhiza glabra has the potential to improve degradability and were decreased methane production and protozoa population of goat rumen.
Ali Khezrian; Mohammad Ebrahim Nooriyan Soroor; Mohammad Mahdi Moeini
Volume 18, Issue 3 , October 2016, , Pages 477-490
Abstract
The aim of this study was to evaluate the effects of Mentha longofolia plant (MLP) and its essential oils (MLE) on ruminal fermentation and protozoa population in goat. The MLP at six levels 0, 25, 35, 55, 75 and 100 mg/30 ml, and the essential oil at six levels 0, 1700,3000,6700,8300 and 10000 mg/L ...
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The aim of this study was to evaluate the effects of Mentha longofolia plant (MLP) and its essential oils (MLE) on ruminal fermentation and protozoa population in goat. The MLP at six levels 0, 25, 35, 55, 75 and 100 mg/30 ml, and the essential oil at six levels 0, 1700,3000,6700,8300 and 10000 mg/L plus monensin (as positive control, 50 mg and dissolved in ethanol) added to rumen fluid respectively. The in vitro gas production was conducted by compiled randomized design with five replications for each treatment. The gas production was decreased at levels of 75 and 100 mg of MLP (p˂0.001). Organic matter degradability was reduced (p˂0.001) at 75 and 100 mg levels respectively of MLP compared to control. Ammonia nitrogen concentration was decreased (p˂0.001) at all levels of MLP compared with control and monensin treatments. However, partition factor was increased (p˂0.001) only at 100 mg of MLP. The efficiency of microbial protein production was increased (p˂0.001). The metabolisable energy and net energy lactation were decreased (p˂0.001) by inclusion MLP at two level of 75 and 100 mg as total volatile fatty acids reduced, compared with control treatment. The total protozoa and subfamily of Entodinninea were declined (p˂0.001) at all levels of MLP compared with control and positive control treatments. The parameters of methane production, ammonia N and protozoa population were reduced (p˂0.001) by all levels of MLE. The efficiency of microbial protein production was enhanced (p˂0.001).Results suggest that the methane gas production, ammonia N and protozoa populations were reduced in both MLP and MLE and improved partition factor and microbial protein production.