1. Different endosperm structures in wheat and corn affected in vitro rumen fermentation and nitrogen utilization of rice straw-based diet
- Author
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J.X. Liu, Wang Jiaojiao, Di-ming Wang, Bo-Yin Wang, and Ning-Ying Xu
- Subjects
040301 veterinary sciences ,Starch ,Forage ,SF1-1100 ,Endosperm ,0403 veterinary science ,Hydrolysis ,Rumen ,chemistry.chemical_compound ,Ruminant ,Food science ,crystallinity ,nitrogen utilization ,biology ,Chemistry ,0402 animal and dairy science ,food and beverages ,04 agricultural and veterinary sciences ,Factorial experiment ,biology.organism_classification ,040201 dairy & animal science ,low-quality forage ,Animal culture ,rumen fermentation ,starch–protein matrix ,Animal Science and Zoology ,Fermentation - Abstract
Starchy grain is usually supplemented to diets containing low-quality forage to provide sufficient energy for ruminant animals. Ruminal degradation of grain starch mainly depends on the hydrolysis of the endosperm, which may be variable among grain sources. This study was conducted to investigate the influence of endosperm structure of wheat and corn on in vitro rumen fermentation and nitrogen (N) utilization of rice straw. The 3×4 factorial design included three ratios of concentrate to forage (35:65, 50:50 and 65:35) and four ratios of wheat to corn starch (20:80, 40:60, 60:40 and 80:20). The endosperm structure was detected by scanning electronic microscopy and a confocal laser scanning microscopic. An in vitro gas test was performed to evaluate the rumen fermentation characteristics and N utilization. Starch granules were embedded in the starch–protein matrix in corn, but more granules were separated from the matrix in the wheat endosperm. With the increasing ratio of wheat, rate and extent of gas production, total volatile fatty acids, and ammonia N increased linearly (P
- Published
- 2018