ABSTRACT
Lactic acid bacteria (LAB) are the main group of microorganisms that are responsible for the production of fermented products with a great economic importance. This study was done to characterize and identification of lactic acid bacteria isolated from fermented tiger nut milk. The objectives were to isolate lactic acid bacteria from fermented tiger nut milk, characterize and identify lactic acid bacteria using morphological, physiological and biochemical techniques and to access the technological potentials of lactic acid bacteria isolated from fermented tiger nut milk. The result of the analysis showed that L.brevis 1.32 x 105 was highest at pH 4.0 while L.bugaricus was low at pH 6.5, the results of bile salt tolerance showed that L.mesenteriodes 1.22 x 105 was high at 0.3% bile salt concentration while L. helveticus 0.8 x 105 was low at 0%. It was proven that tiger nut milk contained both homofermentative and hetrofermentative lactic acid bacteria. Lactic acid bacteria also produce exopolysaccharides which are essential as texture formation. It is therefore recommended that lactic acid bacteria also produce exopolysaccharides which are essential as texture formation. Considering the existing reports on several health-promoting properties as well as their generally recognized as safe (GRAS) status of LAB, they can be widely used in the developing of new fermented milk products.
TABLE OF CONTENTS
Title page i
Certification ii
Dedication iii
Acknowledgements iv
Table of contents v
List of Tables viii
Abstract ix
CHAPTER
ONE
1.0
Introduction 1
1.1 Background of the Study 1
1.2 Aims
and Objectives 4
CHAPTER TWO
2.0
Literature Review 5
2.1 Classification, Taxonomy and Sources of Lactic Acid Bacteria 5
2.1.1 Lactic
Acid Bacteria 5
2.1.2 Sources of Lactic Acid Bacteria 5
2.1.3 Classification
of Lactic Acid Bacteria 5
2.2 Lactic acid bacteria as
source of exopolysaccharides 7
2.2.1 Definition and
classification of exopolysaccharides 7
2.3 Food fermentation 8
2.3.1 Benefits
of Food Fermentation 10
2.4 Fermentation
of Foods by Lactic Acid Bacteria 12
2.5 Fermentation of
Tiger Nut by Lactic Acid Bacteria 14
2.6 Economic and Nutritional Benefits of
Tiger Nut 15
CHAPTER THREE
3.0
Materials and Methods 17
3.1 Source
of Materials 17
3.1.1 Sample Preparation 17
3.2 Glass Wares and Media Used and Their Preparation 17
3.3 pH Determination 18
3.4 Microbiological Analyses 22
3.4.1 Enumeration of total bacteria 22
3.4.4 Enumeration of Lactic acid bacteria 24
3.4.5 Isolation of Lactic Acid Bacteria 24
3.4.6 Characterization of Lactic Acid Bacteria 25
3.4.6.1 Morphological characterisation 26
3.4.6.2 Biochemical
characterization 26
3.4.6.3 Physiological Characterization 28
3.4.7 Identification of Lactic acid bacteria 29
3.5.2 Antibiotic resistance pattern 30
3.6 Determination of Technological Properties 30
3.6.3 Rate of Acid Production 31
CHAPTER
FOUR
4.0 Results 32
CHAPTER FIVE
5.0 DISCUSSION, CONCLUSION AND
RECOMMENDATIONS 43
5.1 Discussion
43
5.2 Conclusion 45
5.3 Recommendations 46
References 47
LIST OF TABLES
Table Title Page
1. Identification of the LAB Isolates
from the samples 28
2. Acidic
pH tolerance test on the LAB species isolated 29
3. Bile
salt Tolerance test on the Lab species isolated 30
4.
Antimicrobial effect of the LAB
species metabolites on pathogens 31
CHAPTER ONE
1.0 INTRODUCTION
1.1 Background of the Study
Lactic
acid bacteria (LAB) are the main group of microorganisms that are responsible
for the production of fermented products with a great economic importance
(Arici et al., 2014). Lactic acid
bacteria are a group of gram-positive bacteria include the following genera Lactobacillus,
Lactococcus, Leuconostoc, Pediococcus, and Streptococcus. Others
include Aerococcus, Carnobacterium, Enterococcus, Lactobacillus,
Lactococcus, Leuconostoc, Pediococcus, Streptococcus, Tetragenococcus,
Vagococcus, and Weissella species (Odoemelan, 2013). The general
description of the bacteria included in the group is gram-positive, non-spore
forming, they are either rod shaped (bacilli) or spherical (coccus) which
produce lactic acid as the major end product during the fermentation of
carbohydrates (Aslim et al.,
2015). They are microaerophillic, they
outcompete other bacteria during natural fermentation. They can withstand
increased acidity from organic acid production (e.g lactic acid). They are
catalase negative and do not reduce nitrate. Lactic acid bacteria are amongst
the most important groups of microorganisms used in the food industry (Leroy
and de Vyust, 2014).
Lactic
acid bacteria (LAB) have a long and known history about its use in fermented
products: the fermentation process as in the production of antimicrobial
substances including lactic acid and other organic acids and bacteriocins
(Soccol et al., 2010). In addition to
the mentioned benefits, LAB can also be characterized as potentially probiotic
according to the beneficial effects on consumer health and safety use (Bibek,
2011). Among LAB, Lactobacillus species are usually described as
possessing beneficial properties, as well as some Streptococcus,
Leuconostoc, Pediococcus and Enterococcus (Fontana et al., 2013).
Lactic
acid bacteria (LAB) have long been used as commercial starter culture in dairy
industries, fermented beverages, meat and vegetable processing for their
contribution to flavor and aroma development and spoilage retardation. They are
food-grade microorganisms that are generally recognized as safe (Hammes et al., 2016). Lactic acid bacteria
(LAB) have been used in the production of foods, especially fermented foods
because not only are these components desirable for their effects on food
taste, they can produce several compounds that contribute to smell, color, and
texture of the foods but they also inhibit undesirable microflora. Hence,
lactic acid bacteria and their products give fermented foods distinctive
flavors, textures, and aromas while preventing spoilage, extending shelf-life
and inhibiting pathogenic organisms (Bibek, 2011). In addition, they can produce antimicrobial
substances including bacteriocins that have the ability to inhibit pathogenic
and food spoilage bacteria. Lactic acid bacteria are capable of inhibiting
various microorganisms in a food environment and display crucial antimicrobial
properties with respect to food preservation and safety (Achilleos and
Berthier, 2013).
Lactic acid bacteria are grouped two; the first group
are the homofermentative lactic acid bacteria such as Pediococcus,
Streptococcus and Lactococcus species which produce lactic acid as
the major or sole end-product of glucose fermentation .The second group are the
heterofermentative lactic acid bacteria such as Weissella and Leuconostoc
species which produce lactate, CO2 and ethanol from glucose
fermentation. The main LAB groups are gram-positive, catalase negative
organisms and belong to genera Lactobacillus, Bifidobacterium, Lactococcus,
Pediococcus and Leuconostoc (Leroy and de Vuyst, 2014). Lactic acid
bacteria are able to produce acids, hydrogen peroxide and bacteriocins and
possessed great potential as food bio-preservatives (Aslim et al.,
2015).
LAB
are commonly used in fermented food products and their importance is mainly
associated with their physiological characteristics, such as their use of
different substrates, their metabolic capabilities and their health promoting
properties. They are characterised by their organoleptic characteristics, the
determination of their products and their interference in the survival and
detection of foodborne pathogens (Bas et
al., 2014).
Lactic
acid bacteria are very promising sources for novel products and applications,
especially those that can satisfy the increasing consumer’s demands for natural
products and functional foods. They can be used in the diet of humans and
animals, with particular role in their health status. Despite recent advances,
the study of LAB and their functional ingredients is still an emerging field of
research that has yet to realize its full potential (Begley et al., 2016).
Tiger
nut (Cyperus esculentus L.) is a tough erect fibrous-rooted perennial
plant, 1 to 3 ft high, reproducing by seeds and by many deep, slender rhizomes,
which form weak runners above the ground, and small tubers or nutlets at the
tips of underground stems. This tuber is rich in energy content (starch, fat,
sugar, and protein), minerals (mainly phosphorus and potassium), and vitamins E
and C. There are mainly three varieties of tiger nut tubers namely: black,
brown and yellow. Only the yellow and brown tubers are readily available in the
Nigerian markets. The yellow variety is preferred to all other varieties
because of its inherent properties like its bigger size, attractive colour and
fleshier body. The yellow variety also yields more milk, contains lower fat and
higher protein and less anti-nutritional factors especially polyphenols
(Davidson et al., 2010).
The three major products of tiger nut
tubers are tiger nut flour, tiger nut oil and tiger nut milk (Onwuakor et al.,
2014). The easiest means of consuming tiger nut tubers is by chewing the raw
tubers which has a slightly sweet and nutty flavour. Tiger nut-milk is known as
tiger nut drink or tiger nut beverage or descriptively known as tiger nut-milk
drink. Tiger nut drink, locally called ‘ayah’ is recommended for diabetics and
people who are gluten intolerant (Bamishaiye and Bamishaiye, 2011).
Some researchers had isolated lactic
acid bacteria (LAB) from the surface of tigernut tubers. In fact, LAB possess
adhesional adaptation which gives it ability to survive different environments
such as diverse food matrices (Hayek and Ibrahim, 2013). (Bi et
al., 2016) in their study isolated LAB from the surface of tigernut tubers.
Tiger nut being slightly acidic (pH 6.34) can support the growth of lactic acid
bacteria. Previous researches reported that tiger nut is a substrate that can
sustain microbial growth possibly due to the near neutral pH of tiger nut
tubers which favours the growth of many microorganisms. Therefore, this
research is aimed at characterization and identification of lactic acid
bacteria isolated from fermented tiger nut milk.
1.2 Aims
and Objectives
The
aim of the study is concerned with the characterization of lactic acid bacteria isolated from fermented
tiger nut milk. The objectives of the study are:
i. To isolate lactic acid bacteria from
fermented tiger nut milk
ii. To
access the identification of lactic acid bacteria isolated from fermented tiger
nut milk.
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