ABSTRACT
The present study was conducted to assess the microbial quality of powdered soymilk samples sold in Aba, Abia state. A total of 10 samples were randomly purchased from local markets within the metropolis. The study samples were differentiated into two categories, branded and unbranded powdered soymilk samples. The branded soymilk samples were labeled TE, BC, and UCD to reflect their brand names while the unbranded samples were labeled N1 to N4 .The total viable count of the soymilk samples ranged from 2.0×105-8.7×105 (cfu/g) with a branded powdered soymilk sample (TE2) giving the lowest count, while the highest count was recorded in an unbranded sample (N2). The Total coliform count ranged from 4.5×104-9.0×104 (cfu/g), with a branded sample (UCD2) giving the lowest count while the highest count was recorded in an unbranded powdered soymilk (N2). The total fungal count ranged from 1.1×104 in a branded sample (TE1) to 3.3×104 (cfu/g) in an unbranded sample (N1). The isolates were four (4) bacteria (Staphylococcus aureus, Bacillus spp., Streptococcus spp., and E. coli) and two moulds (Aspergillus spp. and Penicillium spp.). Bacillus spp. recorded the highest incidence (8) and percentage occurrence (80%) while Aspergillus spp. and E. coli recorded the least incidence (4) and percentage occurrence (40%). Comparing the general counts, the study suggested the need for implementing regulatory measures like good manufacturing and management practices, hygienic distribution and retail storage practices for ensuring microbiological safety of powdered soymilk offered for public consumption in Aba, since both the branded and unbranded powdered soy milk samples gave results above the acceptable limits.
TABLE
OF CONTENTS
Title
page i
Certification
ii
Dedication iii
Acknowledgement
iv
Table
of Contents v
List
of Tables x
List
of Figures xi
Abstract
xii
CHAPTER ONE
INTRODUCTION
1.1 INTRODUCTION 1
1.2 AIMS AND OBJECTIVES 3
CHAPTER TWO
LITERATURE REVIEW
2.1 SOYBEAN 4
2.1.1 ORIGIN OF SOYMILK 4
2.1.2 AGRONOMIC CHARACTERISTICS 4
2.1.3 COMPOSITION OF SOYBEAN 5
2.2 SOYMILK 7
2.2.1 DEFINITION
OF SOYMILK 7
2.2.2 HISTORY
OF SOYMILK 8
2.2.3 COMPOSITION
OF SOY MILK 8
2.2.3.1 CHEMICAL
COMPOSITION OF SOY MILK 8
2.2.3.2 PHYTOCHEMICALS
IN SOY MILK 10
2.2.4 CLASSIFICATION
OF SOY MILK 12
2.2.5 SOYMILK
PREPARATION METHODS 12
2.2.6 NUTRIONAL
VALUES OF SOY MILK 18
2.2.6.1 SOYMILK
INTAKE AND HEART DISEASE 18
2.2.6.2 SOYMILK
AND MENOPAUSE 19
2.2.6.3 SOYMILK
INTAKE AND BONE HEALTH 20
2.2.6.4 SOYMILK
INTAKE AND BREAST HEALTH 21
2.2.7 MAJOR
CONCERNS ABOUT SOY SUPPLEMENTS 22 AND HEALTH PRODUCTS
2.2.8 MICROORGANISMS
ASSOCIATED WITH SPOILAGE OF MILK 22 AND MILK PRODUCTS
2.2.8.1 PSYCHROTROPHS 22
2.2.8.2 COLIFORMS 23
2.2.8.3 LACTIC
ACID BACTERIA 23
2.2.8.4 FUNGI 24
2.2.8.5 SPORE-FORMING
BACTERIA 25
2.2.8.6
OTHER MICROOGANISMS 26
2.2.9 PRESERVATION
AND STORAGE OF MILK AND PRODUCTS 26
CHAPTER THREE
MATERIALS AND METHODS
3.1 SOYMILK
SAMPLES
28
3.2 STERILIZATION
OF MATERIALS 28
3.3 MEDIA
USED AND THEIR PREPARATION 28
3.4 MICROBIOLOGICALANALYSIS
OF SAMPLES 29
3.4.1 SERIAL
DILUTION 29
3.4.2 ISOLATION
AND ENUMERATION 29
3.5 CHARACTERIZATION
AND IDENTIFICATION OF
THE BACTERIAL ISOLATES 30
3.5.1 PURIFICATION
AND STORAGE OF THE ISOLATES 30
3.5.2 COLONIAL
MORPHOLOGY 30
3.5.3 GRAM
STAINING 30
3.5.4 BIOCHEMICAL
TESTS 31
3.5.4.1 CATALASE
TEST 31
3.5.4.2 COAGULASE
TEST 32
3.5.4.3 INDOLE TEST 32
3.5.4.4 METHYL
RED TEST 32
3.5.4.5 VOGES
PROSKAUER TEST 33
3.5.4.6 CITRATE
UTILIZATION TEST 33
3.5.4.7 OXIDASE
TEST 34
3.5.4.8 SUGAR
FERMENTATION TEST 34
3.6 IDENTIFICATION
AND CHARACTERIZATION OF THE
FUNGAL ISOLATES 34
CHAPTER FOUR
RESULTS 36
4.1 RESULTS 36
CHAPTER FIVE
DISCUSSION,
CONCLUSION AND RECOMMENDATIONS
5.1 DISCUSSION
42
5.2 CONCLUSION 45
5.3 RECOMMENDATIONS 45
REFERENCE 47
LIST
OF TABLES
Table Title
Page
2.1 Average
chemical composition of soybean seed (dry weight basis) 6
2.2
Composition of soymilk,
cow’s milk and human breast milk 9
2.3 Processes
used for the extension of the shelflife of soymilk 16
4.1 Total viable count and total
coliform count of the powdered soymilk
samples 37
4.2 Cultural, morphological and
biochemical characteristics of the 38 bacterial
isolates
4.3
Total fungal count of the powdered soy milk samples 39
4.4 Cultural
and morphological characteristics of the fungal isolates 40
4.5 Ice cream
samples, microorganisms isolated, Total incidence and percentage
occurrence of the isolates 41
LIST
OF FIGURES
Figure
Title
Page
2.1 Methods
of soymilk production
15
CHAPTER
ONE
INTRODUCTION
1.1 INTRODUCTION
Soybean (Glycinemax(L)Merrill)
is a member of the family Leguminosae, sub-family
Pailionacae(Hermann, 1962). It is an annual plant of varying heights. The
number of pods and seeds are strongly influenced by environmental factors
(Smith, 1972). It is prone to fungal infection on farm and after harvest. Nasir
(2003) observed that fungicides reduced in vitro growth of fungi isolated from
soybean seeds. The oldest written reference to soymilk surfaced from China in a
poem titled “Ode to Tofu” by Su Ping at about A.D. 1500 (William and Akiko,
2000).
Soymilk was first referred to in the United States by
Trimble in 1896 and the first commercial soymilk in the U.S was produced by J.A
Chard soy products in the New York (Gavin and Wettstein, 1990).
Soymilk which is a liquid extract of whole soybean, is
rich in water soluble proteins, carbohydrates and oils. So, its benefits when
compared to cow milk include cost effectiveness and larger quantity production.
Soymilk can be produced by traditional method, whole bean method, defatted
method or extruder method (Harrigan and McCane, 1976). It is lactose-free
unlike dairy milk and can be taken by lactose intolerant people (Poskitt, 1993;
Samona, 1993; Nsofor et al., 1997). It is also non-allergic and can be
easily produced with low level technology and serve as good nutrient for
vegetarian diet (Samona, 1993; Varnam and Sutherland, 1994). Soybeans have been
included in diverse food sauce like Koji (Nester et al., 2004). That is also why it was referred to as the nature’s
perfect food as cow milk and human milk (Kon, 1972;Mita and Stemkrain, 1975;
ITTA, 1989).
Despite these arrays of benefits derivable from
soymilk it can easily be a route for transmitting food borne bacterial
pathogens identified with food poisoning, gastroenteritis and enteric fever.
These pathogens can be harbored in unhygienically prepared soymilk. Some potential
pathogenic contaminants in dairy food cause mycetoma in humans (Cheesbrough,
2000). Aspergillus flavus is involved
in allergic aspergillosis (Pulmonary
aspergillosis) and also produces aflatoxin that is highly carcinogenic
(Prescott et al., 2005).
The basic cause of malnutrition (protein-energy
malnutrition and micronutrient malnutrition) is poverty. The poor strata in
developing countries such as Nigeria have a lack of purchasing power and spend
a large percentage of their income on staple food. Animal products and fruits
that are important source of micronutrients are often more expensive and
unaffordable; therefore it can be expected that singular deficiencies to be
common in these settings (Richard and Martins, 2008). Although reduced energy
intake remains a problem in many settings, suboptimal intakes of several
micronutrients are more widespread and may be present even when energy needs
are met.
Recently, the composition of soymilk has greatly
increased for reasons which include poverty alleviation and because it is
recommended for people that cannot tolerate lactose since it does not contain
lactose. It is continuously being used as a substitute to cow milk in most
remote areas in Nigeria and indeed Africa. This may also be because it has some
other known advantages over cow milk for example it has a beneficial effect in the
prevention of protein malnutrition in infants and growing young children as
well as in the prevention of Osteoporosis and kidney diseases (Messina, 1995).
The nutritious nature of soymilk however, makes it
pronetomicrobial attack if not properly processed and storedasthe nutrients it
contains are also required for thegrowthof most spoilage organisms. A large
number ofmicroorganismssuch as mesophilic aerobic bacteria,coliforms,yeasts and
moulds are known to beresponsiblefor the spoilage of soymilk, producing
undesirable changes in the milk (Osuntongun andAboaba,2004). In Nigeria and
most West Africancountries, powdered soymilk is produced mostly at home under
notveryhygienic conditions and is thus prone tocontaminationand spoilage by the
microflora of the rawmaterialsand utensils. The metabolic products of
theseorganismsas well as their presence in soy milk, posehealth hazards to the
consumers, hence the necessity of this present study.
1.1 AIMS AND OBJECTIVES OF THE STUDY
i.
To isolate, characterize and identify the
microorganisms constituting the microbial load of different powdered soymilk
samples sold in Aba.
ii.
To evaluate the microbial quality of
powdered soymilk sold in Abaand its potential to pose risk to public health.
iii.
To compare the microbial load between
branded and unbranded powdered soymilk samples.
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