Effect of pelleting on the chemical composition, nitrogen fractions and degradability characteristics of a commercial concentrates by two in vitro method

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BASHTANI M.; FARHANGFAR H.; GANJI F.

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Journal: ANIMAL SCIENCE RESEARCHES (FACULTY OF AGRICULTURE, UNIVERSITY OF TABRIZ) Year:2018 | Volume:28 | Issue:2 Page(s): 35-50

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Title

Effect of pelleting on the chemical composition, nitrogen fractions and degradability characteristics of a commercial concentrates by two in vitro method

Author(s)

BASHTANI M. | FARHANGFAR H. | GANJI F. | Issue Writer Certificate

Keywords

ConcentratesQ1

Gas ProductionQ1

Nylon BagsQ2

PelletingQ2

Ruminal DegradabilityQ1

Abstract

Introduction: In this experiment the chemical composition, nitrogen fractions, degradation characteristics and Gas Production of raw and pelleted concentrate were determined. Food processing is one of the most important factors affecting feed intake and digestibility of feed which may be used to optimize fermentation and digestion (Dann et al., 1999). Cereal processing can make optimal use of them, reduce nutrient losses, and also make livestock more balanced, which is very important in animal nutrition management. The aim of this study was to determine the effect of Pelleting on the chemical composition, nitrogen fractions and degradability characteristics of commercial Concentrates by two in vitro methods. Material and methods: This study was carried out at the Research Farm, Faculty of Agriculture, University of Birjand, Iran. In order to prepare experimental treatments, concentrate samples were prepared in three stages. Step mash Concentrates or Mash that was not inserted into pelleted machine, conditioner stage or phase that Concentrates flour inside the machine under the influence of water vapor was 80-70 ° C and the third stage when the Concentrates from the crossing conditioner cooled and turned into pellets. The treatments were: 1. mash Concentrates before Pelleting, 2. mash Concentrates that has received heat and the pass conditioner and 3. Heated and pelleted Concentrates. Degradability parameters of the samples were measured after incubation for 0, 2, 4, 8, 16, 24 and 48 hours in the rumen of two fistulated Holstein cows. The DM and CP degradation data were fitted by exponential equation P=a+b (1-e– ct). Effective degradability (ED) were calculated using of equation ED = a + {(cb)/(c + k)} and taking into consideration passing rate (k) 0. 02, 0. 05 and 0. 08 per hour. The Gas Production was recorded after 0, 2, 4, 6, 8, 12, 24 and 48 h of incubation. The data at the different times was analyzed using completely randomized design. Results and discussion: The results showed the pellet process had no appreciable change on chemical composition (DM, CP, Fat, Ash, NDF, ADF) of concentrate. The non-protein nitrogen (NPN) decreased under the influence of heat processing. Neutral detergent insoluble nitrogen (NDIN) increased under the influence of heat processing (P<0. 05). Acid detergent insoluble nitrogen (ADIN) also increased under the influence of heat process but no significant difference observed. The lowest NPN was observed in heat-pelleted concentrate. Pellet heating caused a significant reduction in part b of dry matter and crude protein commercial Concentrates. The rate of degradability in crude protein was associated with a significant reduction. There was a significant difference between the mean degradability coefficients and the effective degradation of crude protein under the influence of heat process. The highest mean slow part of degradation was observed in control treatment (0. 7360). Significant difference was observed between treatments in terms of fixed rate of degradability (P <0. 05), but there was no significant difference between two and three treatments. Pellet heating reduced part with the potential Gas Production that confirmed the results of the Nylon Bags method. According to the obtained data in this study, short chain fatty acid (SCFA), metabolizable energy (ME) and digestible organic matter (DOM) of experimental treatments showed significant differences (P<0. 05). Conclusions: It was concluded that pellet heating reduces the dry matter and crude protein degradability, especially in both Gas Production and nylon bag technique. Therefore heat process during Pelleting concentrate is a good strategy to reduce Ruminal Degradability of concentrate and supply bypass protein requirement of dairy cows.

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APA: Copy

BASHTANI, M., FARHANGFAR, H., & GANJI, F.. (2018). Effect of pelleting on the chemical composition, nitrogen fractions and degradability characteristics of a commercial concentrates by two in vitro method. ANIMAL SCIENCE RESEARCHES (FACULTY OF AGRICULTURE, UNIVERSITY OF TABRIZ), 28(2 ), 35-50. SID. https://sid.ir/paper/369299/en

Vancouver: Copy

BASHTANI M., FARHANGFAR H., GANJI F.. Effect of pelleting on the chemical composition, nitrogen fractions and degradability characteristics of a commercial concentrates by two in vitro method. ANIMAL SCIENCE RESEARCHES (FACULTY OF AGRICULTURE, UNIVERSITY OF TABRIZ)[Internet]. 2018;28(2 ):35-50. Available from: https://sid.ir/paper/369299/en

IEEE: Copy

M. BASHTANI, H. FARHANGFAR, and F. GANJI, “Effect of pelleting on the chemical composition, nitrogen fractions and degradability characteristics of a commercial concentrates by two in vitro method,” ANIMAL SCIENCE RESEARCHES (FACULTY OF AGRICULTURE, UNIVERSITY OF TABRIZ), vol. 28, no. 2 , pp. 35–50, 2018, [Online]. Available: https://sid.ir/paper/369299/en

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