ABSTRACT
Micro organisms associated in fermentation of castor bean seeds “ogiri†(COSO) were investigated. Organisms isolated include micrococcus, Bacillus and proteus. Soyabean paste was produced and divided into three portions; one portion was inoculated with the pure culture from caster bean seed “ogiri†the second portion was inoculated with caster bean seed “ogiri†(COSO) the rd part, the control was left without inoculation. Each of the three portions was subdivided into two to produce salted and non salted samples, and coded as SPCS (say pure culture salted) and SPCUS (Soy pure culture unsalted), SCOS (say wild fermented salted) and SWFUS (say wild fermented unsalted). Using Hedonic scale, a 9 – man untrained panelists, were used to conduct sensory evaluation on the raw “ogiri†and “ogiri†with 7.5 point followed by the SCOUS with 7 points.
There was no significant difference at 1% and 5% level for the sensory evaluation carried out.
TABLE OF CONTENT
TITLE PAGE
APPROVAL PAGE
DEDICATION
ACKNOWLEDGEMENT
ABSTRACT
CHAPTER ONE
INTRODUCTION
CHAPTER TWO
LITERATURE SURVEY
ORIGIN AND BRIEF AGROMIC HISTORY OF CASTOR BEAN SEED
2.1 INDUSTRIAL UTILIZATION OF CASTOR OIL BEAN SEED
2.2 CHEMICAL COMPOSITIONS IN CASTOR BEAN SEEDS.
2.3 IMPORTANCE OF MICROORGANISMS IN CASTOR BEAN SEEDS
2.4 ORIGIN OF SOYABEN
2.5 INTRODUCTION OF SOYABEN IN NIGERIA.
2.6 STORAGE / PROSESSING F SOYABEN INTO VARIOUS TRADITIONAL PRODUCTS.
2.7 VALUES OF SOYABEAN PRODUCT
2.8 TYPICAL ISOFLAVONES CONTENT OF SOYAFOOD (PER 100g).
2.9 NUTRITIONAL INFORMATION OF SOYAMILK (PER 100g)
2.10 AMIND ACID IN SOYAPROTIEN
2.11 UNDESIRABLE COMPOSITIONS OF
2.12 FERMENTATION TRADITIONAL
2.13 FERMENTATION
2.14 FACTORS AFFECTING FERMENTATION
2.15 FERMENTE VEGETABLE PROTEIN
CHAPTER THREE
MATERIALS AND METHODS
3.1 SOURCE OF RAW MATERIALS
3.2 SAMPLX PREPARATION METHODS
3.3 MEDIA USED
3.4 CULITUE OF SAMPLES
3.5 BIOCHEMICAL TESTS
3.6 SUGAR FERMENTATION TESTS
3.7 CHARACTERISTICE OF ISOLATES
3.8 SENSORY EVALUATION OF THE SAMPLES
3.9 PROXIMATE ANALYSIS OF THE PROCED SOYAOGIRI AND CASTOR BEAN JEED OGIRI.
3.10 PROTEIN CONTENT DETERMINATION
3.11 FAT CONTENT DETERMINATION
3.12 TOTAL ASH DETERMINATION
3.13 CRUDE FIBRE DETERMINATION
3.14 MOISTURE CONTENT DETERMINATION
CHAPTER FOUR
4.1 MENTIFICATION OF BACTERIA ISOLATE FROM ANALYSED CASTOR BEAN SEED OGIRI
4.2 TABLE FOR GENERAL ACCEPTABILITY OF THE THREE MAIN SAMPLES
4.3 TABLE IN.
4.4 DISCUSSION
CHAPTER FIVE
5.0 CONCLUSION AND RECOMMENDATION
5.1 CONCLUSION
5.2 RECOMMENDATION
REFERENCES
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CITE THIS WORK
(2013, 03). Production Of “ogiri†From Soya Bean Using Micro Organism Responsible For Fermentation Of Castor Beans Seed “ogiri†(commercial “ogiriâ€).. ProjectStoc.com. Retrieved 03, 2013, from https://projectstoc.com/read/1121/production-of-ldquo-ogiri-rdquo-from-soya-bean-using-micro-organism-responsible-for-fermentation-of-castor-beans-seed-ldquo-ogiri-rdquo-commercial-ldquo-ogiri-rdquo
"Production Of “ogiri†From Soya Bean Using Micro Organism Responsible For Fermentation Of Castor Beans Seed “ogiri†(commercial “ogiriâ€)." ProjectStoc.com. 03 2013. 2013. 03 2013 <https://projectstoc.com/read/1121/production-of-ldquo-ogiri-rdquo-from-soya-bean-using-micro-organism-responsible-for-fermentation-of-castor-beans-seed-ldquo-ogiri-rdquo-commercial-ldquo-ogiri-rdquo>.
"Production Of “ogiri†From Soya Bean Using Micro Organism Responsible For Fermentation Of Castor Beans Seed “ogiri†(commercial “ogiriâ€).." ProjectStoc.com. ProjectStoc.com, 03 2013. Web. 03 2013. <https://projectstoc.com/read/1121/production-of-ldquo-ogiri-rdquo-from-soya-bean-using-micro-organism-responsible-for-fermentation-of-castor-beans-seed-ldquo-ogiri-rdquo-commercial-ldquo-ogiri-rdquo>.
"Production Of “ogiri†From Soya Bean Using Micro Organism Responsible For Fermentation Of Castor Beans Seed “ogiri†(commercial “ogiriâ€).." ProjectStoc.com. 03, 2013. Accessed 03, 2013. https://projectstoc.com/read/1121/production-of-ldquo-ogiri-rdquo-from-soya-bean-using-micro-organism-responsible-for-fermentation-of-castor-beans-seed-ldquo-ogiri-rdquo-commercial-ldquo-ogiri-rdquo.
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