HOME JOURNALS CONTACT

Pakistan Journal of Nutrition

Year: 2013 | Volume: 12 | Issue: 9 | Page No.: 851-853
DOI: 10.3923/pjn.2013.851.853
Potency of Indigenous Bacteria from Oil Palm Waste in Degrades Lignocellulose as a Sources of Inoculum Fermented to High Fibre Feed
Yunilas , Lili Warli, Yetti Marlida and Irsan Riyanto

Abstract: This study aimed to test the ability of indigenous bacteria derived from oil palm waste to degrade lignocellulose as sources of inoculum fermented to high fibre feed. The selection is based on the highest ratio of clear zone the colony grow for 24 h (Kluepfel, 1988). The study we got 10 isolates that could degrades lignocellulose, but 5 among it has a better ability to degrades lignocellulosa with the ratio of clear zone (index hydrolysis) there are YL.B1 (2.9), YL.B2 (2.7), YL.B7 (2.6), YL.B8 (1.7) and YL.B9 (2.5). YL.B1 is the best isolates to degrades lignocellulosa, it shown by the highest hydrolysis index value rather than other isolates. Isolates YL.B1 is indigenous bacteria from oil palm waste, it has the potential to degrade the fiber (lignocellulose) and can be used as a source of inoculum fermented for to high-fiber feed.

Fulltext PDF

How to cite this article
Yunilas , Lili Warli, Yetti Marlida and Irsan Riyanto, 2013. Potency of Indigenous Bacteria from Oil Palm Waste in Degrades Lignocellulose as a Sources of Inoculum Fermented to High Fibre Feed. Pakistan Journal of Nutrition, 12: 851-853.

Keywords: Indigenous bacteria, oil palm waste and high-fiber feed

REFERENCES
  • Barrow, G.I. and R.K.M. Feltham, 1993. Cowan and Stell's Manual for the Identification of Medical Bacteria. 3rd Edn., Cambridge University Press, Cambridge, Pages: 331

  • Bayer, E.A., E. Morag and R. Lamed, 1994. The Cellulosome: A treasure-trove for biotechnology. Trends Biotechnol., 12: 379-386.
    CrossRef    

  • Cappuccino, J.G. and N. Sherman, 1987. Microbiology a Laboratory Manual. 2nd Edn., The Benjamins Columning Publishing Company, California

  • Corbin, B.D., B. Geissler, M. Sadasivam and W. Margolin, 2004. Z-ring-independent interaction between a subdomain of FtsA and late septation proteins as revealed by a polar recruitment assay. J. Bacteriol., 186: 7736-7744.
    CrossRef    Direct Link    

  • Dashtban, M., H. Schraft and W. Qin, 2009. Fungal bioconversion of lignocellulosic residues; opportunities & perspectives. Int. J. Biol. Sci., 5: 578-595.
    CrossRef    PubMed    Direct Link    

  • Fengel, D. and G. Wegener, 1995. Kayu: Kimia, Ultrastruktur, Reaksi-Reaksi. In: Diterjemahkan Oleh Hardjono Sastrohamidjoyo, Cetakan, I. (Ed.)., Gajah Mada University Press, Yogyakarta, pp: 124-154

  • Khokhar, I., M.S. Haider, S. Mushtaq and I. Mukhtar, 2012. Isolation and screening of highly cellulolytic filamentous fungi. J. Applied Sci. Environ. Manage., 16: 223-226.
    Direct Link    

  • Saha, B.C., 2004. Lignocellulose biodegradation and application in biotechnology. ACS Symposium Series, 889: 2-34.
    CrossRef    Direct Link    

    • © Science Alert. All Rights Reserved