ABSTRACT
Lactic Acid Bacteria play key roles in the fermentation of maize to akamu. The lactic acid bacterial species associated with the local fermentation of maize were isolated, characterized and identified. The isolation of the lactic acid bacteria was done by culturing of the sample after serial dilution on MRS agar for 24hrs at 37oC. The isolates obtained were subcultured on a nutrient agar to obtain a pure culture of the lactic acid bacteria. The occurrences of the lactic acid bacteria were determined. The characterization and identification of the lactic acid bacteria was achieved by the different biochemical tests that were carried out such as the, sugar fermentation, catalase. The morphology, gram reaction and colony features were also investigated. The 12 samples showed high microbial load which ranged from 1.8×106cfu/ml to 2.8×106cfu/ml. A total of 43 lactic acid bacteria were isolated which comprised of Lactobacillus spp (12), Streptococcus spp (9), Lactococcus spp (7), Pediococcus spp (8) and Leuconostoc spp (7). Lactobacillus spp had 100% occurrence in the 12 samples. Lactic acid bacteria are essential bacteria responsible for the fermentation of maize to akamu.
TABLE OF CONTENTS
Title page i
Certification ii
Dedication iii
Acknowledgements iv
Table
of contents vi
List
of tables vii
Abstract viii
CHAPTER ONE
1.0 Introduction
1
1.1 Food
fermentation 1
1.2 Akamu 2
1.3 Aim 3
1.4 Objectives 3
CHAPTER TWO
2.0 Literature
review 4
2.1 Lactic
acid bacteria 4
2.2
Physiology and morphology 6
2.3
General description of lactic acid
bacteria 8
2.4 Applications
of lactic acid bacteria 9
2.5 Cereal
12
2.6 Maize 13
2.6.1 Distribution 14
2.6.2 Nutritional
Value and Health Benefits 14
2.6.3 Medicinal Value 15
2.6.4 Economic
Importance 15
CHAPTER THREE
3.0 Materials
and methods 16
3.1 Sources
of material 16
3.2 Sample
preparation 16
3.3 Preparation
of media for bacteria isolation 16
3.4 Enumeration
of bacteria from locally fermented maize
16
3.5 Isolation
of microorganism 17
3.6 Characterization
of bacteria isolates 17
3.6.1 Colony features of bacteria isolates 17
3.6.2 Microscopic
Feature 17
3.6.3 Biochemical Tests for Identification of Bacteria 18
3.7 Identification
of isolates 19
CHAPTER FOUR
4.0 Results 20
CHAPTER FIVE
5.0 Discussion
25
5.1 Conclusion 25
REFERENCES
LIST
OF TABLES
Table Title of
table page
1 Total viable bacterial count of the
samples 23
2 Occurrence of lactic acid bacterial in
fermented maize 22
3 bacteriological identification of the
lactic acid bacteria isolate 23
CHAPTER ONE
1.0
INTRODUCTION
1.1 FOOD FERMENTATION
Food
is any substance or mixture of substances both solid and liquid, which are
intended for human consumption or ingestion for their nutritional support for
the body or pleasurable benefits. It usually consists of plant or animal
origin, which contains essential nutrients such as carbohydrates, fats,
proteins, vitamins or minerals and is ingested and assimilated by an organism
to produce energy, stimulate growth and maintain life (Abdulmumeen et al., 2012,
Francis, 2000).
Many
African foods are fermented before consumption. Food fermentation has over the
years become a part of the cultural and traditional norm among indigenous
communities in Africa. Different parts of West Africa are removed with their
own favorite food that has evolved over centuries depending on the customs,
tradition and religion (Chelule et al.,
2010).
Food
fermentation involves the use of microorganisms and enzymes for the production
of foods with distinct quality attributes that are quite different from the
original agricultural raw materials.
Fermentation
is one of the oldest and most important traditional food processing and
preservation techniques (Aworh, 2008).
Fermentation
has been used as a means of improving the quality of food (Lei and Jakobsen,
2004). It inhibits spoilage and pathogenic microorganism by a combination of
factors which include production of organic acid, hydrogen peroxide,
antibiotic-like substances and the lowering of oxidation reduction potentials
(Pan and Zhang, 2008).
Fermentation
process serves as a means of providing a source of nourishment for large rural
populations. Fermentation enhances the nutrient content of food through
synthesis of proteins, vitamins and essential amino acids (Zhang et al., 2010).
Fermentation
in food processing is the conversion of carbohydrate to alcohol using yeast
and/or bacteria. Under anaerobic conditions (Frazies and Westhoff, 2008).
Microbiological
processing is an age long tradition in food production, but there are few
documented works on these African foods (Raheem, 2006). Fermentation process
for many African food products constitute a vital body of indigenous knowledge
used for food preservation acquired by observation and experience and passed
from generation to generation (Aworh, 2008). Cereal foods are the most
important substrates for fermented foods in sub-Saharan Africa and that
fermentation will lead to production of numerous food types – alcoholic and
non-alcoholic. The types, flavors and peculiarities of the fermented food are
cultural attributes in West Africa (Muller, 1980). Interaction between
microorganisms, plants and animal are natural and constant (Frazies and
Westhoff, 2008).
1.2 AKAMU
Akamu
is traditionally made from maize. Several reports had identified steeping and
souring as the two fermentation stages involved in the traditional process of
akamu. It is prepared by steeping clean grain of maize in water at room
temperature for 48-72hours. The steep water is decanted and the fermented maize
grain is washed with clean water and then wet-milled. The bran is removed by
wet sieving and sievate is allowed to settle for another 24-48hours, a process
referred to as souring during which time fermentation also proceeds to solid
starchy matter and akamu sediments (Akingbala et al., 1980). The wet akamu usually has smooth texture, a sour
flavor resembling that of yoghurt and characteristic aroma that differentiate
it from starch and flour. The color of the akamu depends on the color of the
maize grains: yellow maize for yellow akamu and white maize for white akamu.
The
wet akamu can be boiled at 8-10% total solids into a porridge or pap which
serves as a weaning food for infants, breakfast for children and convenient
meal for the convalescence (Onyekwere et
al., 1989).
In
general, a wide spectrum of microorganism is usually during fermentation
process. But a few types usually determine the quality of the end products
(Abegaz, 2007).
1.3 AIM
To
determine the lactic acid bacterial species associated with the fermentation of
maize to akamu
1.4 OBJECTIVES
To
isolate lactic acid bacterial species associated with locally fermented maize
(akamu).
To
characterize and identify them using morphological, physiological and biochemical
techniques.
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