ABSTRACT
Fungal phyto-pathogen of pineapple plants were investigated. Fungal isolates from pre-harvest and post-harvest of pineapple plants were characterized and identified. Those isolated from the post-harvest periods were characterized and identified as Saccharomyces cerevisiae, Saccharomyces fragilis, Debaroyomyces spp, Geotricum candidium, Fusarium spp, Aspergillus glaucus, Saccharomyces roiixii and Pichia species.Saccharomyces cerevisiae had the highest rate of occurrence among the isolated fungi,followed by Saccharomyces roiixii, Saccharomyces fragilis, Pichia spp, Geotricum candidium, while Debaroyomyces spp, Aspergillus glaucus and Fusarium spp were the least predominant. While in the pre-harvest fruits no organisms were isolated and identified, but the remarkable observation was that when re-inoculated with the isolates from the spoilt pineapple fruits into which they were incubated at 28oc for 7 days, it was found that the same organisms found in the post-harvest pineapple fruits were responsible for the spoilage of the fruits. The increase load were found to be more in the pre-harvest fruits when reisolated. The microbial load difference between the pre-harvest fruits and post-harvest fruits sample went from 1.6x104 to 8.6x105( cfu/g).The result of the pathogenicity test revealed that Saccharomyces cerevisiae, Geotricum candidium and Aspergillus glaucus, indicating that the organisms were responsible for the spoilage of the fruits.Fusarium spp and Aspergillus glaucus were the multicellular mould while S. cerevisiae, S. roiixii, S. fragilis, Debaroyomyces spp, Geotricum candidium, and Pichia species were the unicellular once.
TABLE
OF CONTENTS
Tittle i
Certification ii
Dedication iii
Acknowledgements iv
Table of contents v
List of tables vi
Abstract vii
CHAPTER
ONE
1.1 Introduction 1
1.2
Aim
and Objectives 3
CHAPTER
TWO
2.0 Literature Review 4
2.1 Pineapple (Ananas comosus) 4
2.1.1 Four Different Varieties of Pineapples 4
2.1.1.1 Smooth
Cayenne 5
2.1.1.2 Abacaxi 5
2.1.1.3 Queen 5
2.1.1.4 Red
Spanish 5
2.1.5 Uses and
composition 6
2.12 Nutrition Information/Health Benefits of
Pineapple 8
2.1.3 Brief History of Pineapple 9
2.14 Microbial Spoilage of Pineapple. 10
CHAPTER THREE
3.0 Materials and Methods 13
3.1 Materials 13
3.2 Methods 13
3.2.1 Samples collection 14
3.2.2 Preparation of Media 14
3.2.3 Fungal Counts 14
3.2.4 Preparation of Samples 15
3.1.5 Isolation of Micro-Organisms 15
3.1.6 Purification and Maintenance of pure
Isolates 16
3.1.7 Identification of the isolates 16
3.1.8 Fungal Characterization 16
3.1.9 Gram
staining 17
3.2
Pathogenicity of Isolated Fungi 17
3.2.1
Pathogenicity Test
18
CHAPTER
FOUR
4.1 Results 20
CHAPTER
FIVE
5.0 Discussion, Conclusion and
Recommendation 31
5.1 Discussion 31
5.2 Conclusion 33
53. Recommendation 33
REFERENCE
LIST OF TABLES
S/N Tiltle Pages
1.
Fungi Species Found in the Unhealthy
Pineapple Fruits 21
2.
Mycological Identification Of Isolate
Obtain From Infected Pineapple 23
3.
Mycological Identification Of Isolate
Obtain From Healthy Pineapple Inoculated
With Pure Cultures Obtained From The Unhealthy Fruits
24
4.
Prevalence of fungal species in
fruits 29
CHAPTER
ONE
1.1 INTRODUCTION
Food
spoilage refers to various changes in which the food becomes less palatable or
even toxic to consumers. These changes may be accompanied by alteration in
taste, smell, appearance or texture.
Numerous
microbial defects of agricultural crops are characterized by the types of
microorganisms responsible for their deterioration (Akinmusire, 2011).A fruit
is the edible part of matured ovary of a flowering plant. It is usually eaten
raw. When matured, they may be either fleshly or dry. Freshly fruits are
further classified into berry (orange, tomato, pineapple, pawpaw and banana),
drupes (plume, coconut, cherry and almond) and pomes (apple and pear).
The
dry fruits, unlike fleshy fruits which have unlayered pericarp are classified
into dehiscent (pod, follicle and capsule) and indehiscent fruits like achene,
samara, cashew etc. (Jolaosho,et al,
2010).
Fruits
and vegetable are vital sources of nutrients to human being and animals. They
give the body the necessary vitamins, fats, minerals, and oil in the right
proportion for human growth and development. Fruits and vegetables however,
have serious challenges to their existence. These include change in climatic
condition, pest and microbial attack. Over the years , there has been an
increase in the need to isolate, identify and compare the microorganisms
associated with spoilage as a way of finding a means of controlling it (Akiroet al, 2015).
Susceptibility
of fruits and vegetables is largely due to different chemical composition such
as pH and moisture contents are associated with greater predisposition to
microbial spoilage. The occurrence of fungi spoilage of fruits is also recognized
as a source of potential health hazard to man and animals. This is due to their
production of mycotoxins naturally occurring toxin chemical often of aromatic
structure) which are capable of producing aflatoxin to man, following ingestion
or inhalation.
These
fruits are usually displayed on beaches and in baskets for prospective
customers in the open market unit sold, thereby exposing them to further
microbial infection besides those associated with these whole fruit surface and
those from adjacent infected fruits (Baiyewe et al, 2007).In developing countries, postharvest deterioration are
often more severe due to inadequate storage and transportation facilities.
Microbial fruit infection may occur during the growth season due to climatic
condition and the type of manure applied to it, harvesting, handling,
transport, postharvest storage and marketing condition or after purchasing by
the consumers. Fruits contain high levels of sugar and nutrient elements and
their low pH value make them particularly desirable to fungal decay (Singh and
Sharma, 2007). Studies by Licohen and Bruhn (2002) shows that fungi can survive
and/or grow on flesh produce and that nutrient content (protein, carbohydrate
and fat) of fresh produce support pathogens (Mbajiuka and Enya, 2014).
Fruits
are affected by a wide range of microorganisms causing its decay. Spoilage
microorganisms can be introduced to the crop on the seed itself during crop
growth in the field during harvesting and postharvest handling or during storage and
distribution (loading and off-loading) (Barth et al, 2009).Those type of soil borne spoilage microbes that occur
on produce are the same spoilage microorganisms that are present on harvesting
equipment, on handling equipment, in the packaging house, in the storage
facility, and on food contact surface throughout the distribution chain.
Therefore, early intervention measures during crop development and harvesting
through the use of good agricultural practice (GAP) will produce dramatic
reduction in the yield loss due to deterioration at all subsequent steps in the
food (Barth et al, 2009).
1.2 Aims
and Objectives
The
aim of this study is to isolate, characterize and identify the fungal pathogens
of postharvest spoilage of pineapple fruit.
1. To
isolate the fungal pathogens associated with the spoilage of pre harvest of
pineapple fruits.
2. To
isolate the fungal pathogens associated with the spoilage of post-harvest of
pineapple fruits.
3. To
identify and characterize the isolated microorganisms.
4. To
determine the pathogenicity of the isolate microorganisms for pineapple fruits.
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