ABSTRACT
The invitro antimicrobial activities of Moringa oleifera and Hibiscus sabdariffa on tomato spoilage organisms was carried out. Spoiled tomato samples were purchased from four different markets in Umuahia Abia State and calyces of Hibiscus sabdariffa was purchased from the market, and also leaves of Moringa oleifera were gotten fresh from Moringa tree. The tomato samples were examined for the organisms which causes spoilage of tomato and the mean bacterial and fungal counts were gotten. The bacterial isolates were Escherichia coli and Bacillus sp. While the fungal isolate was Rhizopus sp. The colonial count of E. coli isolated from this study was in the range of 5.0 x 105 cfu/g to 1.5 x 106cfu/g while that of Bacillus ranged from 1.2 x03 to 1 5.0 x 104cfu/g. The mean fungal count was in the range of 4.7 x 105 to 2.8 x105. Moringa oliefera and Hibiscus sabdaffla leaf extract were shown to have some degree of antimicrobial properties on the tomato isolates by means of producing a zone of clearance around the growth of the organisms on nutrient plates. The aqueous extract of H. sabdariffa showed maximum activity against Bacillus species with a diameter zone of clearing of 20mm. The ethanol extract of both plants also recorded remarkable activity with zones of inhibition ranging from 6mm to 10mm for the Moringa extracts. The aqeous extract of Hibiscus sabdariffa had the lowest active concentration (MIC) against Rhizopus, E. coli, and Bacillus at 125mg/ml, 62.5mg/ml and 62.5mg/ml respectively. Plants have an almost limitless ability to synthesize aromatic substances. In many cases, these substances serve as plant defence mechanisms against predation by microorganisms.
TABLE OF CONTENTS
Title page i
Certification ii
Dedication iii
Acknowledgement iv
Table of Contents v
List of Tables ix
Abstract x
CHAPTER ONE
INTRODUCTION
1.0 Introduction 1
1.1 Spoilage microorganisms and their adverse effects on fruits and
vegetables 2
1.2 Adverse effects 3
1.3 Aim and objectives 4
CHAPTER TWO
LITERATURE REVIEW
2.0 Tomatoes 5
2.1 Importance and uses of tomatoes 5
2.2 Microorganisms associated with tomato spoilage and their effects 6
2.3 Hibiscus sabdariffa
(botanical and morphological description) 7
2.4 Phytochemistry of Hibiscus sabdarriffa 8
2.5 Biological and pharmacological activities of H. Sabdariffa 9
2.5.1 Antimicrobial activity of H.
Sabdariffa 9
2.5.2 Antioxidant activity of H.
Sabdariffa 10
2.5.3 Cancer-preventive activity of H.
Sabdariffa 10
2.5.4 Uses of H. Sabdariffa 10
2.6 Moringa oleifera (botanical and morphological
description) 11
2.7
Phytochemistry of M. oleifera 12
2.8 Biological
and pharmacological activities of M. oleifera 13
2.8.1
Antimicrobial Effects of Moringa oleifera 13
2.8.2
Antioxidant properties of Moringa oleifera 13
2.8.3
Anti-cancer properties of M. oleifera 14
2.8.4 Uses of Moringa
oleifera 14
CHAPTER THREE
Materials and Methods 16
3.0 Sample collection 16
3.1 Preparation of extracts 16
3.2 Sterilization of materials 16
3.3 Preparation of media 17
3.4 Isolation and Enumeration of Microorganisms 17
3.4.1 Isolation of bacteria 17
3.4.2 Isolation of fungi 18
3.5 Purification (subculture) of bacterial isolates 18
3.6 Purification of fungal isolates 18
3.7 Characterization and identification of isolates 19
3.7.1 Gram staining 19
3.7.2 Motility test 20
3.8 Biochemical tests 21
3.8.1 Catalase test 21
3.8.2 Coagulase test 21
3.8.3 Oxidase test 21
3.8.4 Urease test 21
3.8.5 Indole test 21
3.8.6 Methyl red- voges proskauer test 21
3.8.7 Citrate utilizatrion test 22
3.8.8 Sugar fermentation tests 22
3.9 Determination of minimum inhibitory concentration 22
3.9.1 Determination of bactericidal concentration (mbc) 23
3.9.2 Antimicrobial susceptibility testing (invitro) 23
CHAPTER FOUR
Results 24
CHAPTER FIVE
Discussion, Conclusion and
Recommendation 35
5.0 Discussion 35
5.1 Conclusion 37
5.2
Recommendation 37
References 38
LIST OF TABLES
|
TABLE
|
TITLES
|
PAGE
|
|
1.
|
Characteristics and identification of
bacterial isolates
|
25
|
|
2.
|
Identification and Characteristics
of Fungal isolates
|
26
|
|
3a.
|
Diameter Zone of inhibition (mm) of Moringa oleifera extracts against
tomato isolates
|
27
|
|
3b
|
Diameter Zone of inhibition (mm) of Hibiscus sabdariffa extracts against
tomato isolates
|
28
|
|
4a.
|
Minimum inhibitory concentration and Minimum bactericidal
concentration of Moringa oleifera extracts against susceptible
organisms.
|
29
|
|
4b.
|
Minimum inhibitory concentration and
Minimum bactericidal concentration of Hibiscus
sabdariffa extracts against susceptible organisms
|
30
|
|
5a.
|
Minimum inhibitory concentration and Minimum fungicidal concentration
of Moringa oleifera extracts against susceptible
organisms
|
31
|
|
5b.
|
Minimum inhibitory concentration and Minimum fungicidal concentration
of Hibiscus sabdariffa extracts
against susceptible organisms
|
32
|
|
6.
|
Mean bacteria counts of tomato
fruits samples from different markets (cfu /g)
|
33
|
|
7.
|
Mean fungal counts of tomato fruit
samples from different markets (cfu/g).
|
34
|
CHAPTER ONE
INTRODUCTION
1.0 INTRODUCTION
Anti- microbial agents are substances that kill microorganisms or inhibit
their growth. They are widely employed to cure bacterial and fungal diseases.
Anti-microbial agents that reversibly inhibit growth of bacteria are called
bacteriostatic where as those with irreversible lethal action on bacteria are
known as bactericidal (Rajesh and Rathan, 2008).
Ideally, anti-microbial agents disrupt microbial processes or structures
that differ from those of the host. They may damage pathogens by hampering cell
wall synthesis, inhibiting microbial protein and nucleic acid synthesis,
disrupting microbial membrane structure and function or blocking metabolic
pathways through inhibition of key enzymes (Willey et al., 2008).
Before an anti-microbial agent is accepted for use in human it must
demonstrate most, if not all, of the following properties:
1. Selective
toxicity (it should act on bacteria
without damaging the host tissue)
2. It
should be bactericidal rather than bacteriostatic.
3. It
should be effective against a broad range of bacteria.
4. It
should remain active in plasma body fluids etc.
5. It
should be stable and preferably water soluble.
6. Desired
level should be reached rapidly and maintained for adequate period of time and
should not give rise to resistance in microorganisms.
7. It
should have a long shelf life and should not be expensive (Rajesh and Rathan,
2008).
Spoilage refers to any change in the condition of food in which the food
becomes less palatable or even toxic, these changes may be accompanied by
alterations in taste, smell, appearance or texture (Berdeque et al, 2005).
Food spoilage refers to various changes in which the food becomes less
palatable or even toxic to consumers. These changes may be accompanied by
alterations in taste, smell, appearance or texture. Numerous microbial defects
of agricultural crops are characterized by the types of micro-organisms
responsible for their deterioration (Akinmusire, 2011).
1.1 SPOILAGE MICROORGANISMS AND THEIR ADVERSE
EFFECTS ON FRUITS AND VEGETABLES
Spoilage microorganisms can be introduced to the crop on the seed itself,
during crop growth in the field, during harvesting and post-harvest handling or
during storage and distribution (Barth et
al., 2009).
Those types of soil-borne spoilage microbes that occur on produce are the
same spoilage organisms that are present on harvesting equipment, on handling
equipment, packaging house, and storage facility and on food contact surfaces
throughout the distribution chain (Barth et
al., 2009).
The main sources of microorganisms in vegetables are soil, water, air and
other environmental sources and can include some plant pathogens. Fresh
vegetables are fairly rich in carbohydrate (5% or more), low in proteins (about
1-2%); except for tomatoes have high PH. The presence of air, high
humidity and higher temperature during storage increases the chances of
spoilage. The common spoilage defects are caused by molds belonging to genera Pennicillium, Phytophora, Alternaria, Aspergillus. Among the bacteria genera
species from Pseudomonas, Erwinia, Bacillus and Clostridium
are important. Microbial vegetables spoilage is generally described by the
common term rot, along with changes in appearance, such as black rot, gray rot,
pink rot, soft rot, stem-end rot (Hozbor et
al., 2006).
A fruit is the edible part of a mature ovary of a flowering plant. When
matured they are either fleshy or dry. Fleshy fruits are classified into berry
(e.g tomato), drupes (e.g almond) and pomes (e.g apple). Dry fruits are
classified in dehiscent and indehiscent fruits (Jay 2000).
Fruits and vegetable are vital source of nutrients to human beings. They
give the body the necessary vitamins, fats, minerals and oil in the right
proportions for human growth and development. They however, have serious
challenges to their existence which includes: changes in climatic condition,
pests, and microbial attack. Over the years, there has been an increase in the
need to identify and isolate the microorganisms associated with the spoilage as
a way of finding a means of controlling it (Akinyele and Akinkunmi, 2012).
Spoilage microorganisms can be introduced to the crop on the seed itself,
during crop growth in the field, during harvesting and post-harvest handling or
during storage and distribution (Barth et
al, 2009).
Fruits are affected by a wide array of microorganisms causing its decay. Susceptibility
of fruits and vegetables is largely due to differential chemical composition
such as PH and moisture contents and are associated with greater
predisposition to microbial spoilage.
1.2 ADVERSE EFFECTS
Bacterial spoilage first causes softening of tissues as pectins and its
degradation. Starches and sugars are metabolised next and unpleasant odours and
flavour develop along with lactic acid and ethanol. Molds belonging to several
genera including Rhizopus and Botrytis causes vegetable rot.
In fact, healthy fruits have many microbes on their surfaces but can
usually inhibit their growth until after harvest. Ripening weakens cell walls
and decreases the amounts of antifungal chemicals in fruits, and physical
damage during harvesting causes breaks in outer protective layers of fruits
that spoilage organisms can exploit. Molds are tolerant of acidic conditions
and low water activity are involved in spoilage of fruits. Penicillium and Rhizopus
are frequently isolated from spoiled fruits (Calvo et al., 2007).
1.3 AIM
To investigate the antimicrobial effect of extracts of Moringa oleifera and Hibiscus sabdariffa on Organisms that cause tomato spoilage.
1.4 OBJECTIVES
1. To
isolate and identify micro-organisms associated with spoilage of tomatoes.
2. To
investigate the effects of Hibiscus saabdariffa and Moringa oleifera extracts
on tomatoes spoilage organisms.
3. To
determine the minimum inhibitory concentrations and minimum bactericidal
concentration of extracts of Moringa oleifera and Hibiscus saabdariffa.
4. To
measure the zone of inhibition of extracts against tomatoes spoilage organisms.
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