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PUBLIC HEALTH IMPLICATIONS OF WATER QUALITY OF THE KIRI RESERVOIR, ADAMAWA STATE, NORTHEASTERN NIGERIA

Dept: ENVIRONMENTAL SCIENCE File: Word(doc) Chapters: 1-5 Views:

Abstract

Both water pollution and water scarcity are increasing global problems and particularly serious challenges for Africa. According to the World Health Organization, more people lack access to safe water in Africa than anywhere else in the world. To meet the growing demand for water worldwide, dams and irrigation systems are often built, particularly to provide water for agricultural needs. However, dams, especially large dams, may promote the spread of water-associated diseases. Completed in 1982, the Kiri Dam reservoir in Adamawa State, northeastern Nigeria, supports the water needs, which at times includes drinking, for many people living around the reservoir. To assess overall water quality and presence of disease indicators in the Kiri reservoir, and to establish baseline data for future monitoring, I collected water samples (near-shore and open-water sites) in October 2016. I evaluated the samples for physico-chemical and biological characteristics and compared some val
INTRODUCTION

Essential for all life on Earth, water is under threat globally. Both the quantity and

quality of water are of serious concern to global leaders, government officials, urban

planners, and rural communities, among others. Water is a topic of special concern to

public health professionals, who observe, study, and attempt to resolve water quality

and scarcity issues affecting millions of people on the planet. Water quality and

scarcity present an increasingly complex challenge given the effects of climate

change. For example, in the future some regions may experience increased or

decreased precipitation and higher temperatures – leading to increased flooding or

droughts. These conditions can further degrade water quality and worsen water

pollution (Bates et al., 2008).

In Africa, as human populations rapidly expand, the demand for water increases;

however, water sources are becoming scarcer. Approximately 40% of Africans live

in dry sub-humid, semi-arid, and arid regions. The amount of water accessible per

individual in Africa is far beneath the global average and is declining; annual percapital availability of water is 4,000 cubic meters compared to a global average of

6,500 cubic meters (UNEP, 2010).

One example is the near-disappearance of Lake Chad, which borders four countries:

Nigeria, Niger, Cameroon, and Chad. Lake Chad is the biggest lake in the Chad

Basin and one of the giant water bodies in Africa. Due to high demand for water for

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agriculture, demand from growing human populations, and the effects of climate

change, the lake has contracted dramatically. Between 1963 and 2001, the surface

area of Lake Chad declined from 25,000 km2

to less than 1,350km2

(Coe & Foley,

2001) (Fig. 1).

In addition to increasing water scarcity in Africa and globally, water quality is a

growing public health and environmental problem, especially given the role of water

in human health, agriculture, industry, etc. Impacts of water quality are most

significant in low- to middle-income countries. Many people live in countries that

are ill equipped to cope with public health and environmental crises related to water.

A large number (35%) of health-care facilities in low- and middle-income countries

have no water supply or soap for hand washing, and only 19% of these facilities have

improved sanitation (WHO, 2015).

Fig. 1. Decline in volume of Lake Chad from 1963 to 2007.

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Diarrhea remains a major contributor to childhood mortality and morbidity,

especially in sub-Saharan Africa (Bates et al., 2008). According to the World Health

Organization (WHO, 2015), diarrhea caused by lack of access to safe drinking water,

poor sanitation, or poor hygiene habits kills more than 840,000 people annually. This

does not account for deaths due to such water-borne diseases as cholera, dysentery,

and typhoid. Additionally, fecal matter contaminates water sources on which at least

1.8 billion people rely for drinking (WHO, 2015).

Regarding access to clean water, there has been progress, however. In 2010, the

Millennium Development Goal related to drinking water (MDG 7) was achieved –

the proportion of people globally without sustainable access to safe water was cut in

half (WHO, 2015). Nevertheless, many African populations still lack access to

improved water sources (Fig. 2A), and millions of people around the world have

access only to severely polluted or contaminated drinking water sources. This

problem is especially potent in Africa, where more than 50% of the total population

in many countries lacks access to sanitation (Fig. 2B).

In Africa, even where boreholes and water sanitation facilities are available, they

may not be properly maintained or managed. Due to the high demand for water,

these water sources may become polluted and may not be tested as often as

necessary. Poverty and lack of alternative water sources often force people to use or

drink water even when it is contaminated. When water is scarce, people tend to use

whatever source is available, even if the quality is poor. For example, Okoro et al.

(2015) reported that residents from a town in the semi-arid region of northeastern

Nigeria buy water from water vendors, collect water from unsafe/unimproved