BACTERIOLOGICAL QUALITY OF KUNUN ZAKI

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ABSTRACT

The bacterialogical quality of Kunun-zaki sold in some locations in Umuahia metropolis was investigated. Ten samples were collected from five different locations in Umuahia. Total heterotrophic count, coliform counts, Salmonella-shigella counts and Staphylococcus aureus counts, isolation and characterization of isolates in the sample were done. The result reveals that kunu 6 from Research institute has the highest heterotrophic count of 6.9 x106 cfu/ml while kunu 2 from Gate six has the lowest heterotrophic count of 3.9x106 cfu/ml. Kunu 5 from Research institute has the highest coliform count of 1.8x106cfu/ml while kunu 4 from Isi gate has the lowest coliform count of 7.2x105cfu/ml. For Staphylococcus count, Kunu 5 from Research institute has the highest count of 7.2x105cfu/ml while kunu 2 from Gate six has the lowest count of 5.1x105cfu/ml. For salmonella-shigella count, kunu 4 from Isi gate has the highest count of 4.4x105cfu/ml while kunu 2 from Gate six has the lowest count 2.2x106 cfu/ml. These counts are above the acceptable standards when compared with microbiological criteria for non-bottled drinks that was published by the centre for food safety, food and environmental hygiene department whose limits are E. coli (<100cfu/ml), Salmonella spp. (non detected in 25ml) and Staphylococcus aureus (<100cfu/ml). Bacterial identification revealed the presence of E. coli, Enterobacter aerogenes, Staphylococcus aureus, Salmonella spp, Shigella spp, Citrobacter spp, Lactobacillus spp and Klebsiella spp. The high bacterial load of these organisms could be a matter of serious concern as these organisms are of public health importance.

TABLE OF CONTENTS

Title Page

Title Page i

Certification ii

Dedication iii

Acknowledgements iv

Table of Contents v

List of Tables viii

List of Figures ix

Abstract x

CHAPTER ONE

1.0 Introduction 1

1.1 Aims and objectives 2

CHAPTER TWO

2.0 Literature Review 3

2.1 Nutritive Content of Kunun Drink 3

2.2 Ingredients used in the Production of Kunun-zaki 4

2.2.1 Millet 4

2.2.2 Sorghum 5

2.2.3 Ginger 6

2.2.4 Red pepper (capsicum annum) 7

2.2.5 Cloves (Eggenia calophylloides) 8

2.2.6 Black Pepper 8

2.3 Process of Kunun Production 9

2.4 Health Benefits of Kunun Drink 11

CHAPTER THREE

3.0 Materials and Methods 13

3.1 Collection of Samples 13

3.2 Sterilization of Materials 13

3.3 Microbial Analysis 13

3.3.1 Preparation of media 13

3.3.2 Total viable count 14

3.3.3 Characterization and identification of bacterial isolates 15

CHAPTER FOUR

4.0 Results 19

CHAPTER FIVE

5.0 Discussion, Conclusion and Recommendations 23

5.1 Discussion 23

5.2 Conclusion 25

5.3 Recommendations 26

References 27

LIST OF TABLES

Table Title Pages

2.1 The nutritive content of Kunu-zaki 4

4.1 Total bacterial count of the Kunun-zaki samples sold in Umuahia

Metropolis 20

4.2 Characterization and identification of organisms isolated from

Kunun-zaki samples sold in Umuahia metropolis 21

4.3 Bacterial diversity and percentage occurrence of the bacteria isolates 22

LIST OF FIGURES

Figures Title Pages

2.1: Flow chart for kunun-zaki production 11

CHAPTER ONE

1.0 INTRODUCTION

Kunun-zaki is a non alcoholic beverage drink sold in several public places including markets, offices, schools, motor parks and served as drinks during festivities, weddings and naming ceremonies (Umaru et al., 2014). It is an appetizer, food complement and refresher to quench thirst (Adeleke et al., 2010; Mbachu et al., 2014; Amusa and Odunbaku, 2009). It is of low viscosity and has a sweet-sour taste, milky cream appearance and it is popular with people in Northern Nigeria. However, this non alcoholic beverage is becoming more widely accepted in several other parts of Nigeria, including Umuahia metropolis, owing to its refreshing qualities.

Kunun-zaki is rich nutritionally; hence several Nigerians who could not afford imported milk extensively consume this drink especially in the rural areas (Mbachu et al., 2014). There are different types of kunu depending on the feedstock used for processing. This include kunun zaki, kunun gyada, kunun akamu, kunun tsamiya, kunun baule, kunun jiko and kunun gayamba (Amusa and Odunbaku, 2009; Essien et al., 2009). Of these kunun zaki is the most widely produced and consumed (Gaffa et al., 2002; Amusa and Ashaye, 2009; Ayo et al., 2010).

The production of kunun-zaki is mostly carried out in environments were quality control is lacking just like in most fermented foods in Nigeria. Some of the microorganisms involved in the fermentation of food include Lactobacillus, Lactococcus, Enterococcus, Streptococcus, Penicillin and Saccharomyces species (Oyewole and Isah, 2012). The production of kunun-zaki in environment with poor sanitary condition could predispose consumers of the drink to pathogens of medical or public health importance. Furthermore, the drink has short shelf-life. Kunu-zaki is prone to microbial spoilage if not adequately stored and could act as important medium for the transmission of pathogenic microorganisms (Ogbonna et al., 2011).

According to Mbachu et al., (2014) the short shelf-life of kunun-zaki drink is a major challenge faced by their producers and consumers. The invasion of bacteria to this drink resulting from the processing activities and materials such as water, handling and preservation techniques. Again, there is no regulatory agency of public health that monitors the production processes of kunun drinks in spite of the associated harm that is allied to it. According to Umaru et al. (2014), local drinks such as kunu could act as vehicles for zoonotic and food born infections including Salmonellosis, Brucellosis, Tuberculosis, Shigellosis, Listeriosis etc. Most of the pathogens found in food materials lead to diarrhea. Additionally, bacteria such as Staphylococcus aureus, Salmonella spp, Clostridium, Bacillus, Pseudomonas aeruginosa, Vibrio cholera and Escherichia coli could contaminate food and lead to change in physical and nutritional quality (Bukar et al., 2010).

1.2 AIM AND OBJECTIVES

The aims and objectives are:

To isolate, characterize and identify the bacterial species associated with kunun-zaki
To determine the bacterial load of kunun-zaki sold in Umuahia metropolis.

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