NUTRIENT AND SENSORY EVALUATION OF JAM PRODUCED FROM BLENDS OF PAWPAW (CARICA PAPAYA) AND PINEAPPLE (ANANAS COMUSUS) PULP

ABSTRACT

Jam is a product made from whole fruit cut into pieces or crushed which varies in their nutritional and sensory properties due to different process technology and types of fruit used. Jam is an effective method of product conversion as it retains health and nutritional benefits of the raw material, especially of seasonal products. The aim of this study was to prepare an acceptable jam, to evaluate the nutrient and sensory properties of jam produced from blends of pineapple and pawpaw pulp. Ripened pineapple and pawpaw fruits were purchased from Ubani and Ahiaeke markets Umuahia, Abia State.  The proximate, mineral and vitamin composition of the jam samples were determined using standard laboratory procedures. Jams were produced from a blend of pineapple and pawpaw in the ratio 100:0:0, 0:100, 60:40, 40:60 and 50:50 respectively. The sensory properties of the jam were determined on the basis of 9 point Hedonic scale by 20 panellists. All tests were carried out in triplicates; means and standard deviation obtained from chemical analyses were calculated. The proximate composition result of the jam produced indicated energy value between 228.90kcal-273.64kcal, moisture content of  30.43%-40.47%, crude protein content of 0.26-1.29%, fat content of 0.12-0.28%, crude fibre content of 0.44%-2.14%, ash content of 0.27-0.63%, and carbohydrate content of 56.65-67.81%.Ca(89.55mg/100g), Mg(141.77mg/100g), P(190.08mg/100g) and  K(60.41mg/100g) were significantly higher in sample PWJ (100% pawpaw jam) while Fe(3.25mg/100g) was significantly higher in sample control SBJ (strawberry commercial jam). Vitamin A (201.54mg/100g) was significantly higher in sample PWJ (100% pawpaw jam) while Vitamin C (125.22mg/100g) was significantly higher in sample PIJ (100% pineapple jam). Sample blends show the proportion of raw materials influences the nutritional value of the final product. The sensory properties of the jam showed that there is no significant (P>0.05) difference in the appearances of the samples except sample SBJ which is the control. The result showed that sample PWJ (100% pawpaw) taste was highly accepted with the mean score of (7.25) following sample SBJ which is the control. The result showed that there is no significant (P>0.05) difference between the general acceptability of sample PWJ, PIJ, PWPI, PIPW1 and PIPW2, respectively. This study has revealed pawpaw and pineapple blends could be used in production of quality jam without adverse effect on the nutritional quality contents and provide essential nutritional benefits needed for good body growth and body functions.

TABLE OF CONTENTS

Title Page                                                                                                                    i

Certification                                                                                                                ii

Dedication                                                                                                                  iii

Acknowledgement                                                                                                      iv

Table of Contents                                                                                                       v

List of Table                                                                                                               viii

List of Figures                                                                                                            ix

Abstract                                                                                                                      x

CHAPTER 1

INTRODUCTION                                                                                                      1

1.1 Statement of Problem                                                                                           4

1.2 Objective of Study                                                                                                6

1.4 Significance of study                                                                                            7         

CHAPTER 2

LITERATURE REVIEW                                                                                        8

2.1 Definition of key terms                                                                                         8

2.2 Jam production                                                                                                     9

2.2.1 Formulation of jam                                                                                            10

2.2.2 Reasons for jam production                                                                               12

2.2.3 Uses of jam                                                                                                        13

2.2.4 Recipes involved in jam making                                                                       13

2.3. Nutrient Analysis                                                                                                    22

2.3.1 Determination of proximate content                                                                          22

2.3.2 Determination of mineral content                                                                              24

2.3.3 Determination of vitamins content                                                                           24

2.4 Sensory Evaluation                                                                                                      25

2.4.1 Definition of sensory evaluation                                                                              25

2.4.2. Types of sensory analysis                                                                                       26

CHAPTER 3

MATERIALS AND METHOD                                                                                          29 Experimental Design                                                                                                         29

3.2. Sample Material Collection                                                                                        29

3.3 Sample Preparation                                                                                                      29

3.4 Packaging and storage of samples                                                                        33 

3.5 Chemical Analysis                                                                                                   33

3.5.1 Proximate composition                                                                                         33

3.5.2 Mineral Analysis                                                                                                  37

3.5.3 Vitamin Analysis                                                                                                  40

3.6 Sensory Analysis                                                                                                     42

3.7. Statistical Analysis                                                                                                 42 

CHAPTER 4

RESULTS AND DISCUSSION                                                                                       4.1 Proximate Composition of Jam                                                                                43

4.2 Mineral Composition of Jam                                                                                        54

4.3 Vitamin Composition of Jam                                                                                       60

4.4 Sensory Evaluation                                                                                                      64

CHAPTER 5

CONCLUSION AND RECOMMENDATIONS                                       

5.1 Conclusion                                                                                                            69

5.2 Recommendations                                                                                                71

REFERENCES                                                                                                         72

APPENDIX I                                                                                                             80

APPENDIX II                                                                                                           81

LIST OF TABLES

Table 2.1 The nutritive value of pawpaw and pineapple fruit                                   17

Table 2.2 The nutritive value of strawberry fruit                                                       18

Table 3.1 Formulation of Fruits for Jam Production                                                  32

Table 3.2 Recipe for Production of Jam                                                                     32

Table 4.1 Proximate composition of jam produced from pawpaw and pineapple         53

Table 4.2 Mineral composition of jam produced pawpaw and pineapple pulp                59

Table 4.3 Vitamin composition of jam produced from pawpaw and pineapple

     pulp                                                                                                            63                                     

Table 4.4 Sensory evaluation of jam produced from pawpaw and pineapple

                 pulp                                                                                                            68

LIST OF FIGURES

Figure 3.1 Flow Chart for Jam Production                                                                    31

    CHAPTER 1

INTRODUCTION

Nowadays, fruits and vegetables are increasingly vital for healthy food consumption. Not only are they highly recommended aspects of health-promoting diets, but they also contain minerals and vitamins (Babajide et al., 2013; Hoejskov, 2014; Timothy et al., 2019). Public awareness of the beneficial properties of fruits and vegetables continues to increase due to recommendations of dieticians and physicians, educational programmed media (Timothy et al., 2019; Silva et al., 2017).

Food security is a global issue that has been lingering till date. There has been great clamouring for adequate agricultural food production and utilization to sustain the world’s estimated 7.6 billion people (as of June 2017 United Nations estimation). However, the problem of getting enough food at all times is not limited to agricultural production only, Khatoon et al. (2015), as a lot of foods still get lost along the food value chain (Usman, 2017), despite the overwhelming degree of hunger that bedevils a great number of poverty-stricken population of poor nations. This loss of food is either due to deliberate action of food wastage by affluent people, evitable handling/processing operation losses, Jedermann et al. (2014), or losses incurred as a result of the perish ability, Khatoon et al. (2015) of many agricultural foods. Fresh fruits and vegetables top the list of most perishable agricultural food commodities as a result of their high moisture content in conjunction with various readily available nutrients/growth factors (Singh, 2007; Arah et al., 2016). Timothy et al. (2019) reported that poor availability and considerable post-harvest losses challenge both consumption and processing of fruits and vegetables. Fruits and vegetables are not always accessible at the same time due to peculiarities of location and seasonality.

Fruits are the fleshy seed-associated composition of a plant which has either sweet or sour taste and are edible in the raw state. The most cultivated ones include; pineapple, pawpaw, apple, cashew, orange, grape, strawberry, banana, mango and lemon. Vitamins, minerals and fibre, Pomper and Layne, (2005) are common beneficial uses when fruits are consumed.

Pineapple fruit is a great source of fibre and is mostly consumed in countries including India, Philippines and Taiwan (Usman, 2009). The fruit has an internal juicy flesh with a mix of sweet and tart taste. The area closer to the base of the fruit has more sugar content and therefore a sweeter taste and more tender texture. The pineapple fruit contains some amount of sugar, pectin and acid. However, the amount and proportion present is not sufficient for a successful gel formation (Afoakwa et al., 2006).

Pawpaw, Carica papaya plant bears the fruit papaya with other known names as papaw in other countries. It is indigenous to the tropics of the Americas, possibly from southern Mexico and bordering Central America. Pawpaw plant grows in three sexes; male (does not bear fruit), female (bears inedible fruits) and hermaphrodite/ dioecious (bears edible fruits) (Timothy et al., 2019). The hermaphrodites are widely grown for commercial purposes. Pawpaw fruit may be classified as ripe when it is soft when felt and the skin colour changes to amber and it has best qualities when it ripens on the tree. There are numerous kinds of fruits which all have their unique benefits and uses including being used in preparation of or as food products (Timothy et al., 2019).

For long-term consumer benefits, robust harvesting of fruits and vegetables requires effective and efficient storage facilities and techniques. To preserve their freshness for a long period of time, they have to be transformed into a more stable product able to retain the initial nutritional and mineral contents (Timothy et al., 2019).

Jam is an effective method of product conversion as it retains health and nutritional benefits of the raw material, especially of seasonal products (Timothy et al., 2019). Jams exist in diverse forms, e.g. chutney, fruit butter, jelly, marmalade, fruit spread, etc. (Shen et al., 2012). Jam is a product made from whole fruit, cut into pieces or crushed.  Fruit extract, sugar, pectin and acid are the four ingredients that are needed in their right proportions for a successful fruit jam. Sugar imparts sweetness, activates pectin and has the ability to prolong the shelf life of the jam while pectin is used as a thickening agent and citric acid used to balance the sweetness of the sugar as well as bring the pH to optimum level to ensure jell formation. They ensure a good gel formation, which is an important quality characteristic of a good jam (Afoakwa et al., 2006). Jam varies in their nutritional and organoleptic properties as a result of different process technology and types of fruit and vegetable used (Usman, 2009). Jam making includes the following major steps: cutting, crushing/grounding to required consistency, thermal processing, adding sugar for pectin activation, mix formation, and packaging. Pectin helps to preserve the raw material as it substantiates the gelling agent, sugar or honey (Afoakwa et al., 2016).

Each ingredient imparts different types of sensory attributes including taste, texture, odour and appearance (Pomper and Layne, 2005). The difference in the sensory quality affects the level of demand and the market value. Sensory evaluation deals with the use of the five senses of sight, smell, taste, touch and hearing to bring to mind, assess, evaluate and infer responses to the characteristics of foods and materials as they are perceived. It is used in food industries to aid in understanding consumers’ behaviour and exploiting new markets (Martínez, 2007). It has three main testing or techniques for assessment namely descriptive, discriminative and affective testing (Carpenter et al., 2012). Descriptive testing deals with perceiving the characteristics of the product, discriminative testing also deals with determining if there are differences among the products and affective testing deals with knowing how well a product is accepted or preferred.

1.1. STATEMENT OF THE PROBLEM

Fruits are widely grown and consumed, especially freshly, in the raw state by most people. Fresh fruits and vegetables top the list of most perishable agricultural food commodities as a result of their high moisture content in conjunction with various readily available nutrients/growth factors (Singh, 2007; Arah et al., 2016). The challenge with fruit is its easy perishable nature and it being a seasonal crop or plant. Due to this reason fruits are not available throughout the year and for one to consume fruit, one must wait for another seasonal time. Nigeria today is faced with the challenge of meeting the needs of its population also, the problem of ignorance arising from the exclusion of fruits and vegetable to diets which could result to a wide range of disease and micronutrient deficiency (United Nations Children Emergency Fund, UNICEF, 2004). Different fruits which are grown in Nigeria fail to reach market due to spoilage, over ripening and mechanical damages which occur to the harvested fruits. Thus, the necessity for its proper utilization so as to make it available always even during off seasons by processing them into food products. Also, the less awareness of the nutritional value of most fruits leading to its utilization in the production of products like jam, jellies which has resulted to its wastage (Arah et al., 2016).

With this challenge in the mind of food processors, there is an increase in the development of food products to serve as preserves for these fruits in order to have them available throughout the year. Some of these fruit products are jams, jellies, marmalades, juices, fruit powders and others alike (Khatoon et al., 2015). 

Jam preparation is considered for this study, to promote long-term consumers benefits, as robust harvesting of fruits and vegetables requires effective and efficient storage facilities and techniques to preserve their freshness for a long period of time, transformed into a more stable product able to retain the initial nutritional and mineral content (Timothy et al., 2019). Jam is an effective method of product conversion as it retains health and nutritional benefits of the raw material, especially of seasonal products.

Jam processors have different methods which they use to prepare their jam as well as having different ingredients composition, resulting to different results.  As poorly formulated fruit products particularly jams, could easily be rejected by consumers (Usman, 2009). In view of this, jam should be properly prepared in a manner acceptable by consumers thereby reducing great loss in food industry and country. Jam production will help to curtail post harvest losses, scarcity of fruits throughout the year and cost in industries and reduce micronutrient deficiencies in individuals (Khatoon et al., 2015).

1.2 OBJECTIVES OF THE STUDY

The general objective of this study is to evaluate the nutrient and sensory properties of jam produced from blends of pawpaw and pineapple pulp.

 The specific objectives include:

1. To produce jam from blending Pawpaw and pineapple

2. To determine the proximate content of the jam.

3. To determine the mineral content of the jam.

4. To evaluate the vitamin content of the jam.

5. To assess sensory attributes of the jam.

1.3. SIGNIFICANCE OF STUDY

Jam production from blends of pineapple and pawpaw and several fruits will reduce post-harvest losses due to spoilage, wastage from improper storage which will prevent reduction in their nutritive values, make them accessible and available out of season and reduce micronutrient deficiencies in individuals. In developing countries like Nigeria, it will help curb importations and encourage production for commercial and home use, which will improve food security making it available even out of season in its preserve as jam. It will also confer health benefits to the consumers and provide part of their daily micronutrients as needed. Findings of this study could be incorporated into the Nigeria food composition table which will be beneficial to the food industries, Nutritionist, Dietitians and other related health practitioners as a dietary guide in reference to standard.

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