Evaluation on Feed-Nutritional Value of Spent Mushroom(Pleurotus osteratus, Pleurotus eryngii, Flammulina velutupes) Substrates as a Roughage Source for Ruminants

느타리, 새송이 및 팽이버섯 폐배지의 반추동물 조사료원으로서의 사료 영양적 가치평가

  • 배지선 (건국대학교 자연과학대학 생명자원환경과학부 축산학전공) ;
  • 김영일 (건국대학교 자연과학대학 생명자원환경과학부 축산학전공) ;
  • 정세형 (건국대학교 자연과학대학 생명자원환경과학부 축산학전공) ;
  • 오영균 (축산연구소 영양생리과) ;
  • 곽완섭 (건국대학교 자연과학대학 생명자원환경과학부 축산학전공)
  • Published : 2006.04.30


This study was conducted to evaluate the feed-nutritional value of spent mushroom substrates(SMS) as a roughage source for ruminants through in vitro and in situ experiments. The SMS was classified into a roughage source with high fiber(NDF 64~78%) and low protein(CP 7~11%). The chemical composition of SMS was affected mainly by the primary culture ingredient rather than mushroom species. Compared with sawdust-SMS, cotton waste-SMS contained less(P<0.05) NDF and more(P<0.05) nonfibrous carbohydrate and ash(P<0.05). In vitro DM and NDF disappearances were high in the order of corn cob-, cotton waste-, and sawdust-SMS, in situ DM, NDF and ADF disappearances at 24hr incubation also showed the same pattern with in vitro trials. Compared with sawdust-SMS, cotton waste-SMS had higher digestible fractions and lower non-digestible fractions of NDF and ADF(P<0.05), resulting in higher in situ DM and NDF disappearances(P<0.05) and higher ruminal degradability(P<0.05). Therefore, the preferential use of cotton waste-SMS to sawdust-SMS is recommended as a roughage source for ruminants.


Spent mushroom substrate;Spent mushroom compost;Recycling;Feed; Nutrition;Roughage


  1. AOAC. 1990. Official Methods of Analysis(l5th Ed.). Association of official Analytical Chemists. Washington D.C
  2. Armentano. L. E., Herrington, T. A., Polan. C. E., Moe. A. J., Herbein J. H. and Umstadt. P. 1986. Ruminal degradation of dried brewers gran ins. wet brewers granins, and soybean meal. J. Dairy Sci. 69:2124-2133
  3. Caswell. L. E. 1990. Fungal additives. Feed Management. April 41(4):9-13
  4. Crawford. R. L. 1981. Lignin biodegradation and transformation. A Wiley-Inter Sci. Pub. New York. NY
  5. Governot, T. R. 1997. Best practices for environmental protection in the mushroom farm community. Commonwealth of Pennsylvania
  6. Gupta, V. K. and Langar, P. N. 1988. Pleurotus florida for Upgrading the nutritive value of wheat straw. Biological Wastes 23:57-64
  7. Hadar, Y. Kercm, Z. and Gorodecki, B. 1993. Biodegradation of lignocellulosic agricultural wastes by Pleurotus ostreatus. Journal of Biotechnology 30:133-139
  8. Mertens. D. R.' and Loften. J. R. 1980. The effect of starch on forage fiber digestion kinetics in vitro. J. Dairy Sci. 63:1437-1446
  9. Nocek, J. E. and English, J. E. 1986. In situ degradation kinetics: Evaluation of rate determination procedure, J. Dairy Sci. 69:77-87
  10. Orskov, E. R., Hovell, F. D. and Mould. F. 1980. The use of the nylon bag technique for the evaluation of feedstuffs. Tropocal Animal Production 5:195-213
  11. Smith, L. W., Goering, H. K., Waldo, D. R. and Gordon. C. H. 1971. In vitro digestion rate of forage cell wall components, J. Dairy Sci. 54:71-79
  12. Tilley, J. M. A. and Terry. R. A. 1963. A two stage technique for the ill vitro digestion of forage crops. J. Br. Grassl. Soc. 18:104-111
  13. Van Soest. P. J., Mertens. D. R. and Deinum. B. 1978. Preharvest factors influencing quality of conserted forage. J. Anirn. Sci. 47(3):712-720
  14. Van Soest. P. J., Robertson, J. B. and Lewis. B. A. 1991. Methods of dietary tiber. neutral detergent tiber. and nonstarch polysaccharides in relation to animal nutrition. J. Dairy Sci. 74:3582-3597
  15. Williams. B. C, Mcmullan. J. T. and Mccahey, S. 2001. An initial assessment of spent mushroom compost as a potential energy feedstock. Bioresource Technology 79:227-230
  16. 김용국, 김용인. 1993. Mycelium에 의한 Lignocellulose물질로부터 양질의 발효사료 생산. 한국낙농학회지. 15(4):251-260
  17. 농림부. 2005. 2004 특용작물생산실태
  18. 윤승락. 1996. 표고벼섯 재배 톱밥 폐배지의 가축 조사료 이용. 월간 축산인. 2월호 :124
  19. 임광철, 라창식, 길준민, 김병완, 권응기, 신종서, 홍병주. 1998. 표고버섯 폐기목 균을 이용한 호가성 처리가 볏짚의 반추위내 분해 특성에 미치는 영향. 한국축산학회지. 40(4)381-390
  20. 정근기. 2003. 한우 경쟁력 제고 기술개발. 농림부 최종보고서
  21. Kahlon. S. S. and Dass, S. K. 1987, Biological conversion of paddy straw into feed. Biological Wastes 22:11-21
  22. 송만강, 조남석. 1997. 볏짚에 대한 자기가수분해 처리 표고버섯 폐골목의 대치가 면양에서의 대사적 반응과 성장에 미치는 효과, 한국영양사료학회지 21(6):525-532
  23. Gasa J., Casstrillo, C. Baucells, M. D. and Guada, J. A. 1989. By-products from the canning industry as feedstuff for ruminants: digestibility and its prediction from chemical composition and laboratory bioassay. Anim. Feed Sci. Technol. 25:67-77

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