ABSTRACT
The study evaluated the occurrence of biodeteriogens in harvested tomato fruits and their antimicrobial sensitivity. A total of Twenty (20) Tomato fruit samples were purchased at guided random from five different markets (Ahieke, Orieugba, Ndioru, Umuariga and Gate 6 market) in Umuahia, Abia State. The Tomatoes were cultured on Sabouraud Dextrose Agar, Nutrient Agar (NA), and MacConkey Agar (MAC), using a pour plate technique. From the result obtained, a total of five (5) bacterial species, and three (3) fungal species and one (1) yeast species isolated. The biochemical, Morphological and cultural features revealed the bacterial and fungal isolates to be Escherichia coli, Staphylococcus aureus, Bacillus subtilis, Serratia marcesens, Proteus mirabilis, Aspergillus niger, Fusarium oxysporum, Rhizopus stolonifer and Rhodotorula spp. Among the five major markets investigated however within Umuahia metropolis, Gate 6 market had the highest bacteria at 2.8x105. In the decayed tomato samples assessed, it was observed that Escherichia coli were the most frequently occurring isolates with a high percentage occurrence of 6(21.4%). The occurrence of Escherichia coli that is usually associated with faecal matter also affirmed poor hygiene in the markets. However, there were wide variations in the fungi population, with Aspergillus niger 4(14.3%) and Rhizopus stolonifer 4(14.3%) being most predominant and occurring isolates, followed by Rhodotorula sp., 2(7.1%) and Fusarium oxysporum 1(3.6%). It was also recorded in this study that Aspergillus niger and Rhizopus stolonifer dominated and had the highest percentage of occurrence over other fungal species.
TABLE OF CONTENTS
Title Page i
Certification ii
Dedication iii
Acknowledgements iv
Table of Contents v
List of Tables vii
Abstract viii
CHAPTER ONE
1.0 Introduction 1
1.1 Aim and Objectives 4
CHAPTER TWO
2.0 Literature Review 5
2.1 Brief Description of Tomato Fruit 5
2.2 Antibiotic
Sensitivity of Bacterial and Fungal Isolates from Tomato
(Solanum
Lycopersicum) Fruit 6
2.3 Control
of E. coli and Spoilage Microorganisms in Tomato Sauce and Paste
Using
a Synergistic Antimicrobial Formula 8
2.4 Isolation
and Identification of Fungi Associated With Postharvest
Decay
of Lycopersicum Esculentum Sold in Abakaliki, Nigeria 10
2.5 Isolation of Microorganisms Associated
With Deterioration of Tomato
(Lycopersicon Esculentum) and
Pawpaw (Carica Papaya) Fruits 11
CHAPTER THREE
3.0 Materials and Methods 14
3.2 Source/Sample Collection 14
3.3 Materials and Media Used 14
3.3.1 Sterilization of Materials 14
3.4 Processing of Samples 14
3.5 Microbiological
Studies 15
3.5.1 Inoculation
and Enumeration of Microorganisms 15
3.6 Microbial
Characterization and Identification 15
3.6.1 Identification
of Bacterial Isolates 15
3.6.1.1 Gram Staining 15
3.6.2 Biochemical
Tests 16
3.6.2.1 Indole Test 16
3.6.2.2 Carbohydrate
Utilization Analysis 16
3.6.2.3 Catalase
Test 16
3.6.2.4 Oxidase
Test 16
3.6.2.5
Coagulase Test 17
3.6.2.6 Citrate Utilization Test 17
3.6.2.7 Motility Test 17
3.6.2.8 Methyl Red Test 17
3.7 Spore Staining 17
3.8 Subculturing/Purification
and Identification of Test Fungi Species 17
3.9 Identification of Fungal Isolates 18
3.9.1 Wet Preparation 18
3.9.2 Colonial Morphology 18
3.10 Antimicrobial Susceptibility Testing 18
CHAPTER FOUR
4.0 Results 20
CHAPTER FIVE
5.0 Discussion and Conclusion 27
5.1 Discussion 27
5.2 Conclusion 30
References
LIST OF TABLES
Tables
|
Title
|
Page
|
1
|
Viable
Microbial Counts on Tomatoes Fruit Samples
|
21
|
2
|
Morphological Identification of
Bacterial Isolates on Tomatoes Fruit Samples
|
22
|
3
|
Cultural
Morphology and Microscopic Characteristics Fungal Isolates from Tomatoes Fruit Samples
|
23
|
4
|
Biochemical Identification, Gram
Reaction and Sugar Utilization Profile of Bacterial Isolates
|
24
|
5
|
Percentage of Occurrence of
Isolates from Tomatoes Fruit Samples
|
25
|
6
|
Antibiotics Susceptibility of the
Bacterial Isolates from the Tomatoes Fruit Samples
|
26
|
CHAPTER ONE
1.0 INTRODUCTION
Tomato
(Solanum lycopersicum L.) is a berry, annual, short‒lived
herbaceous plant of the Solanaceae family. It is usually sprawls on the ground,
and could reach about 1‒5 m height (Wogu and Ofuase 2014). It has a weak woody
stem covered with glistering yellow to reddish glandular hairs, rarely vine
over other plants. The leaves are between 10 and 25 cm long with 5–9 leaflets
on the petioles, which are odd and pinnate. Each leaflet is about 8cm long with
serrated margins. Flowers are yellow from 1–2 cm with fine and pointed lobes on
its corolla (Ijato et al. 2011). The fruit is edible with a smooth
epicarp, and varies in shape and size. Immature fruit is green and becomes
yellow or bright red as it ripens (Chinedu and Enya, 2014). Tomato plant is
cultivated in the savannah agro-ecological zone of Nigeria during cropping
season and dry season under furrow irrigation. The plant usually produces
higher yield and better fruit qualities with minimal foliar diseases under
irrigation compared to those cultivated during the cropping season.
Tomato
(Solanum lycopersicum) is one of the highly nutritious food ingredient
used in the preparation of food all over the world (Ogunbanwo et al., 2014). Its utilization as an
ingredient in vegetable salads, other dishes and its processing into different
products like puree, ketchups and juice is well documented. Nutritionally, it
contains a large amount of water, niacin, calcium and vitamins especially A, C,
E which are important in the metabolic activities of man and protects the body
against diseases (Taylor, 2007). Lycopene (acarotene) an essential component of
tomato contributes in the prevention of cardiovascular disease and cancer of
the prostrate (Bernard et al., 1999).
Tomato
fruit ranks 7th as the most important staple crop worldwide, after wheat,
maize, rice, soybeans, cassava and potatoes, with production estimate of
approximately 160 million tonnes, cultivated on 4.8 million hectares in the
year 2011 (Ogunbanwo et al., 2014). The fruit is consumed as vegetable,
dietary supplement, eaten raw as salad and for garnishing assorted cooked food
or condiment, contributing to a healthy well‒balanced diet. It is also valuable
in the food industries (Fatima et al., 2015; Bello et al. 2016). Ripened
raw tomato fruit of 100g constituents are carbohydrate 4 g, energy 75 kg (18 k),
dietary fiber 1g, sugar 2.6g, fat 0.2g, vitamin C (22%, 13 mg), protein 1g, and
water 95 g (Ijato et al., 2011). Nutritionally, the fruit contains
calcium, niacin, flavonoids, lycopene, beta-carotene, derivatives of
hydroxycinnamic acid, high amount of water and vitamins, specifically A, C, and
E which are very vital in metabolic activities of humans (Gerszberg et al., 2015).
The
deep red coloration of the fruit has been attributed to lycopene, a form of
carotenoid pigment with a powerful antioxidant that protects humans against
diabetes, cardiovascular diseases and anti-cancer as well as preventing blood
clotting (Abdul‒Hammed et al. 2015). High pH (4.9‒6.5), water and
nutrient contents enhance microbial growth such as bacteria and fungi, which
degrade the nutrients through enzymes production (Ogunbanwo et al. 2014),
and heighten spoilage susceptibility, thereby reducing the nutritional and market
values. Contamination of tomato fruit by microbes is due to poor handling
during the production chain, transportation, distribution, marketing and
storage (Akinyele and Akinkunmi 2012). Environmental factors such as
temperature, frost and rainfall constituted adverse effects on quality of the
fruit and their storage shelf life (Akinyele and Akinkunmi 2012). Besides the
damage to the fruit, microbial infections poise potential health hazards to
animals and humans, as some of the organisms are pathogenic, producing toxins
capable of causing diseases such as diarrhoea, gastroenteritis, respiratory
infections and meningitis, if ingested (Barth et al., 2009). The Centre
for Disease Control and Prevention estimated 76 million cases of food borne
diseases yearly, and the etiology is predominantly of microbial origin (Wokoma,
2008). Ghosh, (2009) reported that fungi were more virulent than bacteria in
tomato fruit spoilage. The main tomato diseases in the forest and savanna
ecologies of Nigeria are Aspergillus niger, Pseudomonas solanacearum,
Sclerotium rolfsii and Fusarium oxysporum (Ogunbanwo et al., 2014).
The need for an elaborate study of contaminating pathogens of the tomato fruit
becomes essential, considering tomato fruit as a ready‒to‒eat food with minimal
processing or eaten raw and can possess serious threats to food safety (Ofor et
al., 2009). Similarly, the high price of fresh ripened tomato fruit sold in
the Nigerian markets is a major concern. A relatively cheaper spoiled fruit
consumed by the poor contain microbial infectious diseases.
The
characteristic flavor of tomato is produced by the complex interaction of the
volatiles and non-volatile components (Buttery, 1993). The nutritional value of
tomato products is a topic attracting much attention, particularly regarding
the effects resulting from food processing and storage treatments. Among the
common post-harvest fungal pathogens of tomatoes are Pencillium expansum,
Monilinia laxa and Rhizopus stolinifer (Pla et al., 2005). Many Lactic Acid Bacteria strains are able to
produce protein compounds with efficient antimicrobial effect, which are known
as bacteriocins (Davidson and Harrison, 2002). In recent times, the understanding
of the preservation mechanisms of Lactic Acid Bacteria is being exploited for
industrial production of foods (Trias et
al., 2008) because of their natural acceptance as Generally Recognized as
Safe (GRAS) for human consumption and exhibit antimicrobial property. There is
a complimentary effect by the production of acid and antimicrobial compounds
that increases inhibition of both pathogen and spoilage bacteria (Artés et al., 1999).
Susceptibility
of fruits and vegetables is largely due to differential chemical composition
such as pH and moisture contents are associated with greater predisposition to
microbial spoilage. The occurrence of fungal spoilage of fruits is also
recognized as a source of potential health hazard to man and animal. This is
due to their production of mycotoxins (naturally occurring toxic chemical often
of aromatic structure) which are capable of producing aflatoxin in man,
following ingestion or inhalation. These fruits are usually displayed on
benches and in baskets for prospective customers in the open markets until
sold, thereby exposing them to further microbial infection beside those
associated with these whole fruit surface and those from adjacent infected
fruits (Baiyewu et al, 2007). In developing countries, post harvest
deterioration are often more severe due to inadequate storage and
transportation facilities. Microbial fruits infection may occur during the
growth season, harvesting, handling, transport and post harvest storage and
marketing conditions, or after purchasing by the consumer.
1.1 AIM
AND OBJECTIVES
To
determine the occurrence of spoilage microorganisms in tomato fruit and their
antimicrobial sensitivity, while the specific objectives are;
· To
isolate, identify and characterize micro organisms present in tomato fruit
sample
· To
determine the percentage of occurrence of various isolate from tomato fruit
sample
· To
determine the sensitivity profile of various isolate present in tomato fruit
sample
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