ABSTRACT
Kunun zaki is a fermented non-alcoholic cereal beverage. It is a popular refreshing drink in northern Nigeria. The aim of this study is to determine the starter culture potentials of yeasts associated with the traditional fermentation of millet for kunun zaki production. The kunu- zaki were purchased from two different local house producers of kunu zaki in Umuahia, Abia State and was transported to the laboratory for microbiological analysis. The mixture was serially diluted in a distilled water and from the 10 fold dilutions, colony, colony forming units (Cfu) were determined using pour plate method. Plate counts were carried out using the following media, temperature and incubation periods, De Mann Rogosa- Sharpe (MRS) agar, 370C, 48hour for LAB, Malt extract agar (MEA) supplemented with streptomycin (370C) 72hours for yeasts and nutrient agar (NA) 370C, 24-48h for total viable counts, incubation for LAB was done under anaerobic conditions. After incubation and several biochemical and physiological test was carried out, ten Lactobacillus species were revealed which include Lactabacillus fermentum, Lactabacillus plantarum, Lactabacillus salivarius, Lactabacillus amylolyticus, Lactabacillu sreuten, Lactabacillus paraplantarumi, Lactabacillus ikii, Lactobacillus acidophilus, Lactobacillus brevis, Lactobacillus casei. The pH and microbial count of Kunu Zaki. pH level of the kunu zaki ranged from 6.3 to 2.69, the total bacteria count of the kunu zaki ranged from 7.229± 0.79 to 5.532±0.54, the coliform count showed ranged from 4.411±20.00 to 4±00, LAB ranged from 9.025±0.62 to 6.301±0.00 while the Yeast showed a range of 7.104±0.00 to 6.031±0.25. the Antibiotic resistance pattern of lactic acid bacteria isolated from kunu zaki this result it showed that the isolates where resistant to Chloramphenicol, Spafloacine, Amoxacillin, Gentamicin, Travid, Streptomycin, Augumentin and Erythromycin. The presence of coliform bacteria and Yeast in Kunun-zaki drinks as determined in this research will be of public health concern because teaming populace, especially students, relies on these drinks as cheaper alternative to the bottled soft drinks. Preservation method must therefore be applied during sales and distribution to make the product wholesome for consumption. The information obtained from this work should form baseline data on which preservation procedure should be adopted in order to retain the quality of this product.
TABLE OF CONTENTS
Title Page i
Certification ii
Dedication iii
Acknowledgements iv
Table of Contents v
Lists of Tables vii
Abstract
viii
CHAPTER ONE
1.0
Introduction 1
1.1 Aim 4
1.2 Objectives 4
CHAPTER TWO
2.0 Literature
Review 5
2.1
Production of Kunun-Zaki Using Starter Culture 6
2.2 Quality Characteristics of Kunun
Zaki Sold Within Bida Metropolis 7
2.3 Processing And Evaluation of
Instant Kunun Zaki from 10
Millet-Cowpea Malt And Millet-Soybean
Malt
2.2 Historical Perspective of Fermentation 12
2.3 Starter Cultures 13
2.3.1 Bacteria 14
2.4 Functions of Starter Cultures 14
2.5 Characterization and Identification of
Microorganisms In Fermented Foods 16
2.5.1 Phenotypic methods 16
2.5.2 Genotypic methods 17
CHAPTER THREE
3.0
Materials and Methods 19
3.1
Sample Collection 19
3.2
Media Used 19
3.3 Sterilization 19
3.4
Determination of pH 20
3.5 Microbiological Analysis 20
3.5.1
Enumeration of Total Bacteria 20
3.
5.2 Enumeration of Total Coliform 20
3.5.3
Enumeration of Yeasts 21
3.5.4
Isolation of Lactic Acid Bacteria 21
3.5.5
Isolation of Lactic Acid Bacteria 21
3.5.6
Characterization of Lactic acid Bacteria 21
3.5.6.1
Morphological Characterization 22
3.5.6.2
Biochemical Characterization 22
3.5.6.3
Physiological Characterization 23
3.5.7
Identification of Lactic acid bacteria 24
3.6
Haemolysis Test 25
3.6.1
Rate of Acid Production 25
3.6.2 Antibiotic Resistance Pattern 25
CHAPTER FOUR
4.0 Results 27
CHAPTER FIVE
5.0
Discussion, Conclusion and Recommendation 33
5.1 Discussion
33
5.2 Conclusion 34
5.3 Recommendation 35 References
LIST OF TABLES
Table Title
Page
1
pH and microbial count of Kunu
Zaki 28
2
Morphological characteristics
of lactic acid bacteria isolated from kunu zaki 29
3 Biochemical
and physiological characteristics of lactic acid 30
bacteria isolated from Kunu zaki
4 Haemolystic
test for lactic acid bacteria isolated from kunu zaki 31
5 Antibiotic
resistance pattern of lactic acid bacteria isolated from kunuzaki 32
CHAPTER ONE
1.0 INTRODUCTION
Kunu which is also known as kunu-zaki is the
traditional Hausa name of a non-alcoholic beverage which is widely consumed in
Nigeria. It’s a major source of calories and supplied large proportion of
energy in form of carbohydrates. Kunu is taken as an alternative to beverage
and is mostly consumed throughout Nigeria, mostly in the North (Ikpoh et al., 2013). Kunu drink is relatively
cheap due to the availability of its constituent materials. It is made from
cereal grains such as maize (Zea mays), Millet (Pennisetum
typhoideum) and Sorghum (Sorghum vulgare) (Gaffa et al., 2002). Garlic, pepper and ginger
are some other ingredients which are added to enhance its flavor, while honey
or sugar is also added to serve as sweetener. Fura, Burukutu, Buwo, Burakosko,
Akamu, Danwake, Bulum, Pito to mention but a few are other traditional foods
which are often fabricated from cereals in the northern part of Nigeria (Mamudu
et al., 2013). Acha, guinea corn, maize and millet contain 70
to 77% of carbohydrate with little fat and protein and about 12% moisture
contents in the whole grain (Olusola et
al., 2000). The variety of drinks made from sorghum is a milky light-brown
colour, whilst that is made from millet and maize is whitish in colour.
Carbohydrate, proteins, minerals and fat can be obtained from cereals but
carbohydrates are the prominent diet produced from cereals, while vitamins and
proteins are less produced from cereals (Adebayo et al., 2010).
Minerals
such as manganese, iron, zinc and copper can be obtained from the intake of
kunu (Cheesbrough, 2004). In Nigeria, particularly in the North, kunu is widely
consumed by young and old as thirst quencher and also for refreshment at home,
office or in the market place. Owning to the low protein contents, kunu is often
supplemented (Innocent et al., 2011).
One
of the most commonly used supplements in Nigeria is milk. Kunu can be taken
with bread or snacks. Some people prefer to take kunu drinks as an alternative
to soft drinks which many believe to be associated with diabetes. Gaffa et al., (2002) reported the
microbiological quantity, consumption rate and nutrient contents of kunu. The
high demand for kunu drinks is believe to be due to the presence of
carbohydrates which serve as source of energy, protein (although of low
content) and vitamins usually vitamins B (Otaru et al., 2013). When kunu beverage is exposed to air without
refrigeration for two to three days, its nutritive value diminishes and this
lead to the spoilage of the kunu product owning to enzyme actions, poor
handling and frequent fermentation process of the carbohydrate contents (Amusa
and Ashaye, 2009). According to healthdiaries.com, millet contains a
polynutrients called lignin, which has cancer fighting properties and is
beneficial in the treatment of heart disease and also reduce the risks
associated with diabetes. Ginger content in kunu helps to lowers cholesterol
level and prevents the formation of blood cloths. Chronic inflammatory diseases
such as rheumatoid arthritis can also be prevented through the
intake of kunu (Essien et al., 2011).
Fermentation
involves the use of microorganisms and enzymes to produce foods with distinct
quality attributes, quite different from the original agricultural raw
material. The process depends on the biological activity of microorganisms to
produce a range of metabolites which suppress the growth and survival of
undesirable microflora in foodstuffs (Ross et al., 2002). It is one of
the oldest and most economical methods of producing and preserving food, and
provides a natural way to reduce the volume of the material to be transported;
destroys undesirable components, enriches the nutritive value and appearance of
the food, decreases the energy required for cooking and results in a safer
product (Kassa and Hailay, 2014).
Fermentation
may be a useful strategy for reducing bacterial contamination of food. The
number of harmful microorganisms (Staphylococci, Coliform bacteria
"E.coli" and Salmonella) in sorghum significantly
decreased with the increase of fermentation period and could also reduce the
prevalence of diarrheal diseases (Kassa et al., 2014).
According
to Egounlety et al, (2002), fermentation is a low-cost and the most
economical technique of production and preservation of foods. It helps to
preserve perishable foods and to improve their nutritional and organoleptic
qualities. As of 1995, fermented food represented between one quarter and one
third of food consumed in Central Europe (Essien et al, 2011). In
addition, fermented foods are of particular importance in ensuring adequate
intake of protein and/or calories in the diet. Food fermentation, and
especially lactic acid fermentation, is an important technology in Africa,
indigenous and adaptable to the culture of the people. There are many cereal based fermented foods
in Africa, such as ogi and mahew in Benin, kenkey in Ghana,
injera in Ethiopia, poto-poto in Congo, ogi and kunu-zaaki in
Nigeria, uji and togwa in Tanzania, kisra in Sudan (Blandino et
al., 2003). The desirable changes of taste, flavor, acidity, digestibility,
and texture in these gruels are contributed by fermentation. The cereals most
commonly fermented are maize, sorghum, millet, tef and occasionally rice and
wheat (Egounlety et al., 2002).
The
use of starter cultures has been suggested by Kimaryo et al. (2000), as
an appropriate approach for the control and optimization of the fermentation
process in order to alleviate the problems relevant of variations in
organoleptic quality and microbiological stability observed in African
indigenous fermented foods. The development of starter cultures is however one
of the pre-requisites for the establishment of small scale industrial
production of fermented foods in Africa (Ross et al., 2002).
1.1 AIM
The
aim of this work is to determine the starter culture potentials of yeasts
associated with the traditional fermentation of millet for kunun zaki production.
1.2 OBJECTIVES
·
To determine the
physicochemical properties of Kunu zaki
·
To enumerate microorganisms
associated with Kunu zaki.
·
To isolate and
characterize Lactic acid bacteria from kunu zaki.
·
To evaluate the
suitability of selected Lactic acid bacterial isolates as starter culture.
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