ABSTRACT
This project work studied the occurrence of bacteria in packaged fruit juices and their control with lactic acid bacteria isolated from fermented African oil bean seeds (pentaclethra microphylla) packaged fruit juices Ribena and Happy Hour were selected randomly from five market locations in Orieugba, Umuahia city centre, Ubani central market, Ahiaeke daily market and Umudike Mammy markets respectively and studied. Four bacteria species were isolated and identified from the fruit juices with varying levels of occurrences including Staphylococcus species (60%), Escherichia coli (12.5%), Bacillus species (40%) and Pseudomonas species (30%). Also, two lactic acid bacteria, Lactobacillus plantarum and Lactobacillus casei were isolated from randomly selected Ugba samples with occurrences of 100% and 66.7% respectively. Crude extracts from both LAB isolates demonstrated antibacterial activity against the packaged fruit isolates in which the inhibition zone of L. plantarum was in the range of 8.67mm (Bacillus species) to 14.67mm (E. coli) while that of L. casei ranged between 8.33mm (Bacillus) and 14.67mm (E. coli). The two test LAB inhibited Staphylococcus minimally with inhibition zone of 8.67mm and 10.33mm for the L. casei and L. plantarum respectively whereas their inhibition zone against Pseudomonas species were 11.67mm each for the LAB isolate. The overall antimicrobial activities of the LAB isolates were lower than the activity of standard antibiotic which caused inhibition in the range of 18.00mm (Pseudomonas species) to 24.67mm (E. coli). The relative potencies of the LAB isolate compared with the reference standard antibiotics were in the range of 46.43% (Bacillus species) to 64.83% (Pseudomonas species) for L. plantarum and 41.94% (Staphylococcus species) to 64.83% (Pseudomonas species) for L. casei. Both LAB isolates were deemed to have potentials for use in the control of the packaged juice bacteria isolates.
TABLE OF CONTENTS
Title page i
Certification ii
Dedication iii
Acknowledgements iv
Table of contents v
List of tables vii
List of figures viii
Abstract ix
CHAPTER ONE
1.0 Introduction 1
1.1 Aim
and Objectives 2
CHAPTER TWO
2.0 Literature Review 4
2.1 Fruit juice 4
2.2 Health benefits of fruit juices 4
2.3 Heat Resistant Fungi Spoilage of
Pasteurized fruit juices 6
2.4 Preservation of fruit juices 6
2.5 Factors affecting shelf life of juices 7
2.6 Deterioration
of fruit juices by microorganisms 7
2.7 Microorganisms
Associated with
Spoilage in Fruits and Juices 8
2.7.1 E. coli (Escherichia
coli) 10
2.7.2 Salmonella
species 10
2.7.3 Staphylococcus
aureus 11
2.7.4 Pseudomonas
species 11
2.7.5 Serratia species 11
2.7.6 Yeasts 12
2.7.7 Molds 13
2.7.8 Bacteria 14
2.7.9 Lactic Acid Bacteria 15
2.7.10 Acetic acid bacteria 16
2.7.11 Spore formers 16
2.8 Ugba
and Microorganisms involved in the fermentation 16
2.9 Changes
that occur during fermentation 19
2.10 Optimization
of Ugba Fermentation 21
2.11 Microbiological
safety of Ugba 22
CHAPTER
THREE
3.0 Materials
and Methods 24
3.1 Source of Material 24
3.2 Microbial
Analysis of Fruit Juices (Screening for bacteria in fruit juices) 24
3.3 Media
Preparation 25
3.4 Isolation
of bacteria from fruit juices 26
3.4.1 Characterization
of Bacteria Isolates 24
3.4.2 Identification
of Isolates 29
3.5 Isolation
of LAB from Ugba 29
3.6 Antibacteria
activity of LAB isolates against fruit juice bacteria isolates 29
CHAPTER FOUR
4.0 Results 30
CHAPTER FIVE
5.0 Discussion,
Conclusion and Recommendations 38
5.1 DISCUSSION
38
5.2 Conclusion
42
5.3 Recommendations 42
References 43
Appendix 48
LIST OF TABLE
Table 4.1: Antibacterial activity of LAB isolates
from Ugba against two fruit juice
bacteria
isolate (mm) 37
LIST OF FIGURES
Figure
3.1 Sketch of serial dilution of
fruit juices 24
Figure
4.1 Occurrence of bacteria in fruit juices sold in markets within Umuahia 34
Figure
4.2 Occurrence of LAB isolates in Ugba samples 35
Figure 4.3 Relative potency of LAB isolates from
Ugba against bacteria isolates
of
fruit juices 36
CHAPTER ONE
1.0 INTRODUCTION
Fruit
juice refer to liquid extracted from edible fruits or fruit parts, preserved
fruits or any concentrate of such liquids (Codex-Stan, 2005), commercial fruit
juices are available in many different types of packaging usually designed to
ensure the availability of the juices in the same farm (Abbslurt, 2005). Available research information show that both
natural and synthetic preservatives are sometimes added to fruit juices to
enhance their quality and shelf life (Anand and Sati, 2013; Rowe et al., 2012). Microorganisms including
coliforms find their ways into fruit juices during processing especially
through water (Tagmin, et al., 2010).
In the same cause of production, different methods are applied to preserve the
juices including the chemicals, freezing, canning, pasteurization etc (Fasoyiro
et al., 2005).
The
existence of microorganisms in fruit juices are said to be responsible for
their fermentation, spoilage and food borne diseases (Essien et al., 2014). According to Inhamakov et al.,(2013), microbial
contamination occur in fruit juices due
to errors in packaging, and on application of aseptic principles during
processing, standard production regulation demands commercial fruit juices to
comply with correct processing, storage and constant surveillance procedures
(Igbal et al., 2016). The report of
Splistoeaser et al., (1994), the
presence of microorganisms in fruit juices originates from different sources
which include the natural flora of the raw material (fruits), handlers and
those that enter by chance inoculation from the surrounding of the processing
environment. Other researchers observed
that the reason for presence of microorganism in processed fruit juices
is due to the fact that high temperature heat treatments have deliteriory effect on organoleptic properties of juices
hence processors tends to apply limited heat which does not like microbial spores thereby leaving
residual microorganisms emanating from the spores. But Teli et al., (2014) observed that some microorganisms
in fruit juices do not have any deleterious effects hence the juices are
consumed without harm whereas stews may manifest in spoilage, fermentative or
food borne diseases.
There
are reports of food borne diseases associated with consumption of fruit juices
in several places (Clumber et al.,
2007; Gosh et al., 2007; Lewis et al., 2006; Mosupye and Holy, 2000).
Also, available records show that illnesses attributed to bacteria like. Coli, Shigella, Salmonella, Staphylococcus
aureus have been recorded from consumed fruit juices (Barro et al., 2006; Sandeep et al., 2001). Again many reports show
the isolation, many bacteria species in fruit juices within the bonetry.
Olurofuwon et al., (2011) isolated
many genera of bacteria from local fruit juices sold in Sagamu Ogun State
including Websolla, E. coli, Shigella, Salmonella, and Pseudomonas,while Olamiyi (2013) isolated many bacteria species
from NAFDAC approved packaged fruit juices in Ilorin, Kwara state.
Lactic
acid bacteria (LAB) are widely applied in the food industry due to their safe
level and their probiotic potentials. This is partly due to reported cases of
side effects with most chemical preservation. Against the above information,
the project was designed to study the incidence of bacteria in two commercial
fruit juices sold within Umuahia and its environ and the antibacterial activity
of LAB isolates from Ugba against them.
1.1 Aim
and Objectives
The
aim of this project is to study the occurrence of bacteria in two fruit juices
sold in Umuahia area and the effect of crude extracts (supplements) LAB isolate
from fermented African oil bean seeds on them.
Objectives
The
objectives of this project work are to carry out the following:
1. To
isolate LAB from Ugba
2. To
isolate and identify bacteria from two commercial fruit juices sold in Umuahia
and its environ.
3. To
determine the antibacterial activity of crude extracts from LAB isolates from
Ugba against the fruit juice bacteria isolates.
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