Isolation of cellulase producing bacteria from EFB compost, sawdust and rhinoceros beetle guts / Mohd Alif Haikal Ramly and Muhamad Nuruddin Mohd Nor

Ramly, Mohd Alif Haikal and Mohd Nor, Muhamad Nuruddin (2018) Isolation of cellulase producing bacteria from EFB compost, sawdust and rhinoceros beetle guts / Mohd Alif Haikal Ramly and Muhamad Nuruddin Mohd Nor. In: Plantation Management Exhibition & Seminar (PIMES). Faculty of Plantation and Agrotechnology, Kampus Jasin, p. 148.

Abstract

The microbial succession occurs due to the establishment of a new species that modified the environment. The decomposition of leaves and other organic materials produce rich top soil. Since plant made up from cellulose, this experiment purposely to isolate and identifies bacteria that able to decompose cellulose. The enzymes cellulases are which hydrolysis cellulosic biomass and are microorganisms that being produced by growing from cellulosic matters. Important enzyme cellulase which can be obtained from cheapagro wastes, as well as cellulose as substrates by using solid state fermentation and submerged fermentation. Cellulase enzyme can degrade cellulose protein and can be produced by cellulolytic bacteria and fungi, in this experiment only bacteria will be used. All of this because the bacteria have higher rate growth than fungi and also it has good potential to produce cellulase. Therefore, in this study it is really important to isolate and identify the cellulase producing bacteria.

Metadata

Item Type: Book Section
Creators:
Creators
Email / ID Num.
Ramly, Mohd Alif Haikal
UNSPECIFIED
Mohd Nor, Muhamad Nuruddin
mnuruddin@uitm.edu.my
Subjects: Q Science > QH Natural history - Biology > Microscopy
Q Science > QH Natural history - Biology > Microscopy > Microorganisms
Q Science > QH Natural history - Biology > Reproduction
S Agriculture > SB Plant culture
Divisions: Universiti Teknologi MARA, Melaka > Jasin Campus > Faculty of Plantation and Agrotechnology
Event Title: Plantation Management Exhibition & Seminar (PIMES)
Event Dates: 15
Page Range: p. 148
Keywords: Cellulose; Decomposition; EFB; Cellulolytic
Date: 2018
URI: https://ir.uitm.edu.my/id/eprint/57187
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