ABSTRACT
The effect of chemical preservatives on the shelf life and microbial load of cocoa pulp juice was studied. Cocoa pulp juice was produced and treated with three preservatives, sodium benzoate, potassium sorbate and citric acid and then stored at room temperature alongside an untreated control. Quality parameters of the drink were monitored during the 14 day storage period. Obtained results show that the pH, Total Soluble Solids and sugar contents decreased during storage while Total Titratable Acidity (TTA) increased. The pH decreased in the control sample from 6.23 to 3.13, while the TTA increased from 0.29 to 2.33. The sugar was reduced from 8.82 to 0.00 while the total solids reduced from 21.17 to 17.47. The changes which occured in the sodium benzoate treated juice was from 6.20 to 3.50 in PH, from 0.32 to 2.02 in TTA, from 8.41 to 0.62 in sugar content. The result obtained from those treated with potassium sorbate ranges from 6.20 to 3.33 in PH, from 0.32 to 2.10 in TTA, from 21.28 to 16.99 in TS and from 8.52 to 0.52 in sugar content. The microbial load also increased with time. The fungi Load increased from 4.33cfu/ml to 8.00cfu/ml while the bacteria load increased from 66.0 cfu/ml to 191.33 cfu/ml in the control. The increase in the sodium benzoate treated juice was from 65.67 cfu/ml to 152.00 cfu/ml (bacteria) and from 3.67cfu/ml to 13.00 cfu/ml (fungi). Similar values were recorded for the potassium sorbate and citric acid preservatives. The values of the treated juice samples were lower than the control and was considered to be as a result of their potency as preservatives. Comparatively, the citric acid and the sodium benzoate preservatives performed better than the potassium sorbate preservatives.
TABLE OF CONTENTS
Title page i
Certification ii
Dedication iii
Acknowledgment iv
Table of Contents v
List of Tables vii
Abstract viii
CHAPTER ONE
1.0
INTRODUCTION 1
1.1
Aim 3
CHAPTER TWO
2.0
LITERATURE REVIEW 4
2.1
Historical Background of
Cocoa 4
2.2
Historical Exploitation
of Cocoa Industry 11
2.3
Cocoa Production in
Nigeria and Farming Method 12
2.4
Harvesting of Cocoa Pod 12
2.5
Cocoa Pulp Juice 13
2.6
Nutritional Composition
of Cocoa Pulp Juice 15
2.7
Effects of Microorganism
on Cocoa Pulp Juice 16
2.8
Microbial Spoilage of
Fruit Juice 16
2.9
Preservatives 18
2.9.1 Sodium Benzoate 19
2.9.2 Potassium Sorbate 20
2.9.3 Citric Acid 21
CHAPTER
THREE
3.0
Materials and methods 23
3.1 Source
of raw materials 23
3.2 Sample
preparation 23
3.3 Treatment
with preservatives 23
3.4 Physicochemical
Analysis 24
3.4.1 Determination
of hydrogen ion concentration (PH) 24
3.4.2 Determination
of Total Titratable Acidity 24
3.4.3 Determination
of Total Soluble Solids (Brix) 25
3.5 Microbiological
Analysis 25
3.6 Sensory
Evaluation 26
3.7 Statistical Analysis 27
CHAPTER FOUR
4.0 Result 28
CHAPTER FIVE
5.0 Discussion,
conclusion and recommendation 34
5.1 Discussion 34
5.2 Conclusion 35
5.3 Recommendation 36
References 37
LIST OF TABLES
Table 1: Bacteria
Load of test samples from day
0 to day 14 28
Table
2: Fungi load of test samples from day
0 to day 14 30
Table
3: Changes in quality parameter cocoa pulp
juice during storage 32
CHAPTER ONE
1.0 INTRODUCTION
Cocoa
(Theobroma cacao L) is a major cash
crop of tropical world, including Nigeria, belonging to the family Sterculiaceae with two main varieties; Criolla, Forastero and Trinitario;
a hybrid of the two main varieties dominating the world cocoa trade . The
cultivars exhibit differences in the appearance of pods, yields of beans,
flavour characteristics and in resistance to pests and disease (Afoakwa, 2010).
Cocoa
beans are mostly processed into chocolate and cocoa products such as cocoa
liquor, cocoa butter, cocoa cake and raw cocoa powder. Cocoa powder is
essentially used in flavouring biscuits, cakes, ice cream, drinks and other
dairy products, in the manufacturing of coatings for confections and frozen
desserts (Afoakwa 2007).
Cocoa
pulp juice could be used in industrial processes for beverages manufacture such
as pineapple, orange and many tropical fruit juices if its production is
supported and improved in the on-going processing of cocoa. In addition, cocoa
bean juice can be used in alcohol and non-alcoholic drinks due to its high
sugar contents (Redgwel, 2003).
Cocoa pulp is reported to be rich in
fermentable sugar such as glucose, fructose and sucrose and has low pH of 3.0
to 3.5, mainly because of the presence of citric acid (Guehi, 2007) making it a
rich medium for microbial growth. This makes cocoa pulp exudates an interesting
by- product of cocoa production and has led to its utilization as a potential
raw material for development of soft drink to enhance the importance of cocoa
as a source of income for farmers (Afoakwa,2007).
The primary colonizers of cocoa are
yeasts, followed by lactic acid bacteria (LAB), acetic acid bacteria (AAB) and
Bacillus species. During the early and mid-phase of the spontaneous
fermentation of raw cocoa beans yeasts produce ethanol from carbohydrates and
assimilate citric acid under anaerobic and low pH conditions and cause
depectinization of the pulp, consequently the pulp liquefies and the juice
drain off allowing air to diffuse into the heap (Schwan, 2004). As air diffuses
into the heap, microaerophilic LAB, citrate-fermenting, acid-tolerant and
ethanol-tolerant Lactobacillus plantarum and Lactobacillus fermentum strains
dominate this phase (Afoakwa, 2000).
Different kinds of preservatives are used to prevent
bio deterioration of food products. In the food industry, sodium benzoate,
potassium sorbate and sodium nitrite are often used as preservatives (Mahindru,
2000). Sodium benzoate is a preservative that is widely used
in the food industry. European Commission limits for benzoic acid and sodium
benzoate are 0.015 to 0.5%, potassium sorbate is used to conserve cheeses,
cakes and syrups. The effective concentration is 0.2% (EC, 1995).
The inhibitory effect of preservatives varies,
depending on the concentration and type of preservative, pH of the medium and
the species of microorganism (Frazier, 2002). Inhibition of growth and activity
of microorganisms can be achieved by lowering pH of the medium or by increasing
the concentration of preservatives (Restaino, 1981). The low pH value of soft
drinks and fruit juices, pH 2.5 to 3.8 inhibits most bacteria, but leaves
yeasts unaffected.
A number of
factors have an interrelated impact on the growth of cocoa plant. This factor
ranges from weather element of rainfall, temperature, sunlight and humidity to
others such as soil nutrient status, pest and diseases, farmers planting
practices and so on. It was observed that the higher the temperature ( maximum
of 320oc ), the higher the yield, while the lower the relative
humidity, the better yield. Cocoa is known to produce well with minimal but
sustained water availability throughout the year ( Restaino, 1981). Meanwhile,
yearly variation in the yield of cocoa is affected more by rainfall than any
other climatic factors. Cocoa prefrs calm conditions and persistent moderate
wind can cause a severe damage to the yield. Being a very picky (i.e. selective
plant), cocoa reacts badly to any incidence of extreme weather (Battey, 2002)
1.1
AIMS AND
OBJECTIVES
The main aim
of this study is to determine the effect of some
chemical preservatives on the shelf life and microbial load of cocoa pulp
juice.
Specific
Objectives Includes:
·
To produce cocoa pulp
juice
·
To determine the
efficiency of citric acid, potassium sorbate and sodium benzoate as
preservatives in cocoa pulp juice
·
To evaluate the microbial
load and physicochemical analysis of the sample
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