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옥수수 가공방법 및 두께가 in situ 건물 분해율과 in vitro 메탄 발생에 미치는 영향 KCI 등재

Effects of Processing Methods of Corn and their Thickness on in situ Dry Matter Degradability and in vitro Methane Production

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한국초지조사료학회지 (Journal of The Korean Society of Grassland Science)
한국초지조사료학회 (The Korean Society of Grassland and Forage Science)
초록

This study was conducted with two ruminally cannulated Holstein steers to examine the effect of micronized and steam flaked corn on ruminal fermentation characteristics. The in situ dry matter degradability after 48 h incubation was the highest (P<0.05) at micronized corn (2.5 mm thickness) compared with steam flaked corn treatments. The steam flacked corn (3.3 mm thickness) was degraded lower (P<0.05) than the 2.9 and 3.1 mm thickness of steam flacked corn. Effective dry matter degradability and the rate of constant were the highest (P<0.05) at micronized corn (2.5 mm thickness) compared with steam flaked corns as well. The in vitro dry matter degradability after 48 h incubation was tended to higher (P=0.088) at micronized corn (2.5 mm thickness) than steam flaked corns, whereas there is no significantly difference between steam flaked corn treatments. Total volatile fatty acid concentration was higher at steam flaked corn (2.9 mm thickness) than micronized corn (2.5 mm thickness) and steam flaked corn (3.1 and 3.3 mm thickness). The acetate : propionate ratio was the highest (P=0.008) at steam flaked corn (2.9 mm thickness) and the lowest (P=0.008) at micronized corn (2.5 mm thickness). Total gas and methane production after 48h ruminal incubation was the highest (P=0.001) at micronized corn (2.5 mm thickness) compared with steam flaked corns. According to these results, the thickness of steam flaked corn as resulted corn processing is believed to do not affect methane production. However, further study is needed to better understand the present results to verify the correlation between corn processing method and their thickness on methane production using the same thickness corns by difference processing methods.

저자
  • 김도형(경북도립대학교 축산과) | Do Hyung Kim (Department of Animal Science, Gyeongbuk Provincial College, Yecheon 36830, Korea.)
  • 이창현(건국대학교 동물자원과학과) | Chang Hyun Lee (Department of Animal Science and Technology, Konkuk University, Seoul 05029, Republic of Korea.)
  • 우양원(서울대학교 국제농업기술대학원) | Yang Won Woo (Graduate School of International Agricultural Technology, Seoul National University, Pyeongchang 25354, Korea.)
  • BharanidharanRajaraman(서울대학교 그린바이오과학기술연구원) | Bharanidharan Rajaraman (Institute of Green Bio Science & Technology, Seoul National University, Pyeongchang 25354, Korea.)
  • 김종남(국립한국농수산대학 대가축학과) | Jong Nam Kim (Dept. of Beef & Dairy Science, Korea National College of Agriculture & Fisheries. Jeonju 57874, Korea.)
  • 조광현(국립한국농수산대학 대가축학과) | Kwang Hyeon Cho (Dept. of Beef & Dairy Science, Korea National College of Agriculture & Fisheries. Jeonju 57874, Korea.)
  • 장선식(국립축산과학원 한우연구소) | Sun Sik Jang (Hanwoo Research institute, National Institute of Animal Science, Pyeongchang 25340, Korea.)
  • 김경훈(서울대학교 그린바이오과학기술연구원) | Kyoung Hoon Kim (Institute of Green Bio Science & Technology, Seoul National University, Pyeongchang 25354, Korea.) Corresponding author