ABSTRACT
A total of five (5) brands of sachets and one (1) brand of bottle water samples were collected from different locations in Umuahia Metropolis and were analyzed microbiologically. The total count of most of the sachet water samples ranges between 1.0 x 102 and 3.0 x 102 cfu/ml, exceeding the limit of 1.0 x 102 CFU/ml. The MPN of coliform counts ranged from 1 to 5 cfu /102 ml of sample. The dominant bacteria isolates were Escherichia coli, Streptococcus faecalis, and Klebsiella Species. The bottle water sample analyzed showed no bacterial growth. Bacteriological analysis showed that 100/100 (100%) of the samples of sachet water tested showed positive coliform counts. However, the number of coliform present were within the range of approved coliform level in sachet water using the Mac-Crady's Probability Table. The multiple tube technique was used for the analysis with the use of the MacConkey broth. Escherichia coli was confirmed using Eijkman’s test as the confirmatory test. These contaminants could be as a result of improper sterilization of the water before packaging or contamination due to poor handling during production, transportation or sales of such products.
TABLE
OF CONTENTS
Title
page
i
Certification
ii
Dedication
iii
Acknowledgement
iv
Table
of contents
v
List
of tables vi
Abstract
vii
CHAPTER ONE
1.1
Introduction
1
1.2 Aim and objective
4
CHAPTER TWO
2.0
Literature review
6
2.1 Overview of water
7
2.1.2
Main sources of domestic water
8
2.2 Sources of water pollution 9
2.3 Water related health risk
9
2.4 Water-washed disease
9
2.5 Water borne diseases
10
2.6 Problems due to chemically contaminated
water 11
2.7 Problems due to microbiologically
contaminated water 11
2.8 Assessment of water quality
12
2.8.1
Biological analysis
12
2.9 Nigerian standard for drinking water
13
2.9.1
Drinking water quality standard used in Nigeria 13
2.9.2 Packaged waters in the market
14
2.9.3
The role of “pure water” producers towards national development 16
CHAPTER THREE
3.0
Materials and methods
18
3.1
Study area and sampling of water 18
3.2
Methodology
18
3.3
Method
19
3.4
Identification of isolates
20
3.5
Total bacteria count
21
3.6
Presumptive coliform test 21
3.7
Confirmatory E.coli test
22
CHAPTER FOUR
4.0
Results
23
4.1
Interpretation of Result
28
CHAPTER FIVE
5.1
Discussion
30
5.2
Conclusion
30
5.3
Recommendation
31
References 33
Appendix
37
LIST OF
TABLES
Table
1: Shows the result of St.nick sachet water 24
Table
2: Shows the result of God’s hand sachet water 24
Table
3: Shows the result of Udal sachet water 25
Table
4: Shows the result of Charisam sachet water 25
Table
5: Shows the result of MOUAU sachet water 26
Table
6: Shows the result of Eva bottle water
26
Table
7: Shows the result of Eijkman’s test
27
Table
8: Shows other isolates found and their viable number per ml 29
CHAPTER
ONE
1.1
INTRODUCTION
Safe
and potable water supplies in urban centers in Nigeria are still inadequate in
spite of over five decades of independence and several efforts from various
governments.
In
many developing countries, availability of water has become a critical and
urgent problem and it is a matter of great concern to families and communities
depending on Non-public water supply system (Okonko et al, 2008). Increase in
human population has exerted an enormous pressure on the provision of safe
drinking water in developing countries (Umeh et al, 2005). Towards the
Millennium
Development Goals – Action for Water and Environmental Sanitation is timely in
the light of the problem of poor availability and access to good drinking water
in many countries of the world including Nigeria. “About one – fifth of the
world’s population lack access to safe drinking water, and about half lack
adequate sanitation. About 40 percent of the world’s population lives in countries
with moderate to high water stress.
By
2025, this figure could rise to 50 percent. Yet, with the help of policy and
legal reform, international cooperation, community and private sector
participation, technical innovation – there are encouraging signs that the
crisis could be averted. The connectivity between poverty, hunger, availability,
affordability and access to drinking water to sustainable development is
succinctly described by the goals of the millennium declaration. “The links between
water, health and poverty are numerous and complex.
Access
to safe water affects adequate sanitation which in turn drives the risk of
water borne diseases especially in poor urban communities. The urban poor often
spend up to 10 - 20 times more on water from vendors than piped water.
The
inability of Government to consistently provide adequate water contributed to
the proliferation of the so-called ‘pure water’ manufacture in Nigeria. The
provision of drinking water that is not only safe, but tasteless, odorless and
clean in appearance is top priority in any country that cares for good health,
and poverty alleviation towards sustainable development. Consumers cannot by
themselves ascertain the quality of drinking water.
Naturally,
water that appears dirty, discolored, smelly or with unpleasant taste will be
treated with grave suspicion by consumers, thus causing them to find an alternative.
However, appearance and other organoleptic properties are not all there is to
Water Quality Assurance (Akunyili, 2003).Unsafe water is a global public health
threat, placing persons at risk for a host of diarrheal and other diseases as
well as chemical intoxication (Hughes and Koplan, 2005). Unsanitary water has
particularly devastating effects on young children in the developing world.
Each
year, more than 2 million persons, mostly children less than 5 years of age,
die of diarrhea disease (Kosek et al, 2003; Parashar et al, 2003). For children
in this age group, diarrheal disease accounted for 17% of all death from 2000
to 2003(WHO, 2005), ranking third among causes of death, after neonatal causes
and acute respiratory infections. Nearly 90% of diarrheal-related deaths have been
attributed to unsafe or inadequate water supplies and sanitation (WHO, 2004)
conditions affecting a large part of the world’s population (Hughes and Koplan,
2005).
An
estimated 1.1 billion persons (one sixth of the world’s population) lack access
to clean water and 2.6 billion to adequate sanitation (WHO, 2005; Hughes and
Koplan, 2005). The principal objectives of municipal water are the production
and the distribution of safe water that is fit for human consumption
(Lamikanra, 1999; Okonko et al, 2008).
The
portable water scarcity has been a perennial problem of the local indigene. Hence,
the inhabitants mostly women and children have resorted to sourcing drinking
water from dug wells, unprotected and protected springs, brooks and harvested
rainwater throughout the seasons.(Sridhar et al, 1982;Sridhar, 1999). Recently
in Nigeria, drinking water is commercially available in easy-to-open 50-60ml
polyethylene sacks known as sachet /pure water (Umeh et al, 2005).The water
vending is a flourishing business in Abia Nigeria and many people are lured
into this business for getting easy returns. The major supply which has become
popular among the medium and low income groups are the cheap nylon sachets either
registered with the regulatory body (National Agency for Food and Drug
Administration and Control NAFDAC) or without registration. Conformation with
microbiological standard is of special interest because of the capacity of
water to spread diseases within a large population.
Although
the standards vary from place to place, the objective anywhere is to reduce the
possibility of spreading waterborne diseases in addition to being pleasant to
drink, which implies that it must be wholesome and palatable in all respects
(Edema et al, 2001; Okonko et al, 2008). A collaborative, interdisciplinary
effort to ensure global access to safe water, basic sanitation, and improved
hygiene is the foundation for ending cycle of poverty and diseases (Hughes and
Koplan, 2005). At the end of 2000 United Nations (UN) Millennium Summit, member
states adopted a set of 8 goals and related targets and indicators aimed at
helping to end human. poverty and its ramifications (Sachs and McArthur, 2005).
According to Hughes and Koplan, (2005), among these millennium. Development
Goals is a call to halve by the year 2015 the proportion of persons without
sustainable access to safe drinking water and basic sanitation. Towards the end
of March 2005, the UN launched the “International Decade for Action: Water for
Life 2005-2015” (Bartram et al, 2005).
Success
in reaching these targets will help achieve the other goals, increase work
force productivity, and substantially reduce the amount of time that women and
children spend collecting and storing water, which will free them to pursue
other productive and educational activities (Hughes and Koplan, 2005).
According
to Bartram et al, (2005), the WHO-sponsored International Network for the
Promotion of Safe Household Water Treatment and Storage, a global collaboration
of UN and bilateral agencies, non-governmental organizations, research
institutions, and the private sector, could serve as a model for improving
coordination of international efforts in this area of global safe water,
sanitation, and hygiene. Innovative approaches towards improving water, sanitation,
and hygiene must be implemented and evaluated. A number of studies conducted in
a variety of geographic settings have shown that interventions such as
point-of-use disinfection of water and educational efforts to improve personal
hygiene help reduce disease prevalence (Clasen and Cairncross, 2004). These
studies also highlighted the importance of tailoring such interventions to
local situations (Hughes and Koplan, 2005).A recent study in an area in rural
western Kenya that had turbid source of water found that household use of
flocculants disinfectant Preparation helped to reduce the prevalence of
diarrhea in children less than 2 years of age (Crump et al, 2005). Studies in
refugee camps in Africa (Peterson et al, 1998) and urban slums in Asia have
reported that hand-washing with soap reduced the prevalence of diarrhea in all
age groups and lowered the incidence of diarrhea and pneumonia in children less
than 5 years of age.
1.2
AIM AND OBJECTIVE
Aim;
The aim of this research study was to evaluate the
bacterial quality of sachet water sold in Umuahia.
Objective;
To
identify the organisms common to packaged water sold in Umuahia.
To
use the multiple tube technique to evaluate the suitability of sachet water for
drinking purposes.
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