Home Project-material EVALUATION OF THE EFFECTS OF HEAVY METALS IN ANAMBRA RIVER

EVALUATION OF THE EFFECTS OF HEAVY METALS IN ANAMBRA RIVER

Dept: ENVIRONMENTAL SCIENCE File: Word(doc) Chapters: 1-5 Views: 3

Abstract

The distribution and occurrence of heavy metals in water column of the Anambra River were investigated in the dry season adopting standard chemical methods. Following the establishment of the presence and appreciable concentration of heavy metals in various stations (P<0.05) in the water column, biological effects of two heavy metals (copper and zinc) were investigated in laboratory bioassays against prevalent fish species of the river (Oreochromis niloticus and Clarias gariepinus) based on the toxicity scale of 96hLC50 to evaluate possible risk effect of the metals on the aquatic species and human population depending on the river. Toxicity ranking for zinc and copper in the water revealed copper to be consistently more toxic to the test species with Oreochromis niloticus being more sensitive. The binary mixtures in predetermined ratios (1:1 and 1:2) of zinc and copper acting against the test animals showed significant departures when compared to levels of toxicity attai
INTRODUCTION

1.1 Background of the Study

Amongst the several heavy metals that pose some risk to our

environment, thirty- five of them have been listed or known to have

significant occupational problems in man.

Interestingly, small amounts of these elements are common in our

environment and diet. Moreover these elements are actually necessary for

good health but large amounts of any of them may cause acute or chronic

toxicity (Glanze, 1996).

Heavy metal toxicity can result in damaged or reduced mental and

nervous functions, ATP depletion and damage to blood composition,

lungs, kidneys, liver and other vital organs (Wright, Welbourn and

Martin, 1991). Long term exposure may result in slowly progressing

physical, muscular, and neurological degenerative processes that mimic

Alzheimer’s disease, Parkinson’s disease, muscular dystrophy and

multiple sclerosis (Wright et al., 1991). Repeated long term contact with

some metals or their compounds may even cause cancer (International

Occupational Safety and Health Information Centre, 1999).

For some heavy metals, toxic levels can be just above the

background concentrations naturally found in nature (Dupler, 2001).

Therefore, it is important for us to inform ourselves about these metals

and to take protective measures against excessive exposure. Based on the

above background, most widely used/encountered heavy metals are the

focus of this work and these are mercury, arsenic, cadmium, iron,

manganese, chromium, zinc, copper, lead, sodium and potassium. In

most parts of the world, heavy metal toxicity is an uncommon medical

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condition (International Safety and Health Information Centre, 1999).

When these metals are found in our immediate environmental media

unrecognized or inappropriately treated, toxicity can result in significant

illness and reduced quality of life (Ferner, 2001).

Industrial activities worldwide are characterized by the production

of a wide variety of end products that are useful to mankind; however all

production pathways are accompanied by emission of waste products that

enter the environment (Adetoro, 2004). Industrial wastes have been

shown to be a complex admixture of several classes of pollutants such as

synthetic chemicals of various types, hydrocarbons and heavy metals

(Oyewo, 1998; Otitoloju, 2003). Among the pollutants which find their

way into the Anambra River, heavy metals are important (Igwilo, Afonne,

Maduabuchi, and Orisakwe, 2006). Also important to mention is that they

are non-biodegradable and remain in the environment long after the

elimination of source (Otitoloju, 2002). Although most of these metal

pollutions are anthropogenic, there are a few examples of localized ones

resulting from natural weathering of ore bodies (Hager and Abrahamsen,

1990) mining and smelting (Walker, Hopkin, Sibly and Peakau, 2001).

They are considered priority pollutants because they easily bioaccumulate

in the food chain (Chukwu, 1991). Heavy metals, although usually

considered pollutants, are natural substances with the exceptions of

radioisotopes produced in man-made nuclear reactions (Walker et al.,

2001). Heavy metal contents of Anambra River have been earlier reported

by Igwilo et al. (2006) and Obodo (2004) attributing the loading to

various anthropogenic activities in and around the river.

Metals and other pollutants such as sewage, sawdust, hydrocarbons

and organic wastes, when introduced into water bodies, can bring about

alteration of physicochemical characteristics of such a water body and

3

hence would affect species diversity (Akpata, 1987, Oyewo 1998, Saliu

and Ekpo 2006).

In many instances, heavy metals occur in natural bodies of water at

levels below their toxic thresholds. However due to their non-degradable

nature, such sublethal concentrations may still pose risk of damage via

uptake and subsequent bioaccumulation by organisms which cannot

effectively metabolise and excrete the absorbed metals.

The main route by which heavy metals enter the aquatic

environment is through the discharge of metal-laden municipal and

industrial effluents, directly into the water bodies or indirectly via

drainages and canals (Angino, Magnuson, Wangh, Galke, and Bredfeldt,

1970; Oyewo, 1998). The discharge of these metals into the environment

also occurs during industrial processes and incineration of waste products

containing metallic compounds.

Environmental research in any country conventionally should

concentrate among other things on the pollutants that are considered as

priority in terms of frequency and intensity of occurrence. Typically, the

Anambra River acts as a sink or reservoir that receives waste water

effluent from different parts of the locality and hinterland (Igwilo et al.,

2006).

In response to this, there have been a few investigations on the

occurrence and distribution of heavy metals in the Anambra River. Such

authors have found measurable quantities of heavy metals although they

failed to relate such levels of occurrence to biological action such as acute

toxicity and sub lethal chronic action. Anambra River is the natural

habitat of several fish species such as Clarias and Tilapia species. These

fish species particularly the pelagic species are useful in assessing water

quality in the field and laboratory because they are ubiquitous, sedentary

in nature and have long life cycles; hence they act as continuous monitors

4

of the water bodies they inhabit. Earlier works (Okonkwo and Obiakor,

2008; 2009; Odo, Didigwu, and Eyo, 2009) have provided information on

the biology and ecology of these species. What was lacking in their

report is detailed empirical data on the interaction of these locally

important species with this important pollutant heavy metal detected in

the water column of Anambra River.

1.2 Statement of the Problem

Surface water use has been of tremendous application across the globe for

various purposes: domestic, industrial, agricultural etc. But studies by

different people in both developing and developed countries of the world

show that pollutants from various sources get to the surface water and

pollute it. (Obodo 2004, Igwilo et al. 2006, Clark 1992, Matti 2001,

Oyewo 1998 and Don-Pedro 1996). Otitoloju (2002) explained that

industrial effluents released into the environment get to the surface water

and pollute it with priority heavy metals; hence the author recommended

the toxicity testing of the most sensitive species in the field to assess

possible ecological damage that could result from these toxicants.

Consequently, Igwilo et al. (2006) supported the above fact and

advocated for a means to avert possible imbalance in the fish population

structure and the residents around the river feeding on toxic metals.

In Nigeria, and indeed many other developing countries, there are

host of unplanned and unorganized uses of river for various purposes,

including solid waste dumping, effluents disposal, siting of wide scale

toilet facilities, disposal of chemical wastes and wrong and frequent

application of artificial fertilizers. These are done without putting the

water quality of the river into consideration.

A casual inspection of Anambra River shows that there are

unhealthy, unplanned and unorganized uses of the river for various

5

purposes like solid waste dumping, effluents disposal, siting of wide scale

toilet facilities, disposal of chemical wastes, use of poisonous chemicals

in fishing, and indiscriminate application of fertilizers for farming

activities around the banks of the river at various locations. These

activities have negatively affected the quality and activities of the river in

a number of ways.

Firstly, the aesthetic value of the river has long disappeared. In

addition, the river is heavily silted, especially at the lower course.

Consequently, the depth and width of the river have greatly reduced.

Moreover, some activities which greatly depend on the quality of the

river like swimming have been greatly affected. Furthermore, fishing in

the river which used to be one of the means of sustaining livelihood for

the inhabitants of the area has drastically reduced.

A preliminary survey conducted prior to the main eco-survey

showed that various wastes are discharged into the river. Sewage

dislodgers and various industries were seen discharging their wastewater/

effluents into the river.

1.3 Research Questions

1. What are the levels of physicochemical parameters detected in

Anambra River?

2. What are the levels of occurrence and distribution of heavy metals

in Anambra River?

3. What is the acute toxicity (LC50) of heavy metals found to be the

most abundant in the Anambra River acting singly against selected

fish species?

4. What is the joint toxicity of mixtures of priority heavy metals

recorded in the river?

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5. What are the prevalent heavy metal health related effects among

the resident population using the river?

6. How do the parameters detected comply with the recommended

standard of compliance?

7. What are the environmental implications and recommendations on

the findings?

1.4 Aim and Objectives

The aim of this work is to evaluate the possible risk effects of

heavy metals in Anambra River.

The following objectives were used to achieve the above aim.

(1) to investigate the physicochemical parameters of the river, that

enhances the availability and mobility of heavy metals,

(2) to identify the levels of occurrence and distribution of heavy metals

in Anambra River.

(3) to investigate the differential toxicity (LC50) of selected heavy

metals found to be most abundant in the Anambra River acting

singly against selected fish species, Oreochromis nuloticus and

Clarias gariepinus, which are prevalent as reported by Odo et al.

(2009) and confirmed in field survey.

(4) to investigate the joint action toxicity of the simple binary mixtures

of priority heavy metal pollutants recorded in the Anambra River

against the test animals mentioned above.

(5) to investigate the prevalent heavy metal related health effects

among the susceptible human population using the river.

(6) to compare the levels of parameters detected against recommended

standard of compliance and

(7) to examine the environmental implications and make relevant

recommendations based on the findings.

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1.5 Research Hypotheses

The study tested the following hypotheses;

Research Hypothesis One

H0- there is no significant difference between the heavy metal

concentrations in the Anambra River water and WHO Effluent Standards.

Research Hypothesis Two

H0- the mean concentration of the different metals and samples

obtained from the stations of the Anambra River are not equal.

1.6 Justification of the Work

This present work is not just due but of great importance

considering that;

(1) When the concentration of effect of these heavy metals through

simulation study of acute toxicity (LC50) that can lead to 50%

mortality of fish population is established, it will help the

regulatory bodies to establish criteria for a workable environmental

safe limit for these metals in Anambra River and other similar

water bodies in the sub-region.

(2) It will aid in maintaining and sustaining the fish population

structure of Anambra River.

(3) The choice to study heavy metals and the physicochemical

parameters in this present study is because according to Chukwu

(1991) these metals are considered priority pollutant because they

easily bio-accumulate in the food chain and Otitoloju (2002) stated

that they are non-biodegradable and remain in the environment

long after elimination of source. The mobility and availability of

these metals in the aquatic environment are enhanced by these

physicochemical parameters studied.

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(4) The choice of dry season for this study is because during the dry

season as the water level decreases due to high evapo-transpiration,

there is high concentration of these metals (Ezeonyejiaku, 2009).

(5) The toxicity data that will be obtained by the testing procedures

described in this study are eventually going to be used to make

assessments of hazard and risk. Where hazard is the potential to

cause harm and risk is the probability that harm will be caused.

Risk assessments depends on making a comparison between two

things:

(a) The toxicity of a compound expressed as a concentration LC50.

(b)The anticipated exposure of an organism to the same chemical,

expressed in the same unit as one (a concentration in water to

which the organism is exposed). In hazard assessment, a toxicity

test can give a plot which relates the frequency of a toxic effect

(e.g. mortality) to the dose that is given. From this, an LC50 can be

estimated. This can be compared with a putative high

environmental concentration to decide whether a hazard exists. A

ranking of compounds according to their toxicity is important at

this stage. If toxicity is very low, then a compound is not regarded

as being hazardous and vice versa.

This is to say that work on physicochemical characteristics and

heavy metal evaluations of any surface water gives credence (and is of

great importance) in the management of the surface water which is an

indispensable aspect of the environment of that place.

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1.7 Significance of the Study

This study has the following significance:

1) Study of this type will invariably aid in maintaining the fish

population of the river and sustain the employment status of the

local fishermen by portraying the heavy metal concentrations of the

water that could lead to the death/ reduction of biodiversity.

2) The toxicity testing will also help regulatory bodies to establish or

modify the existing effluents limitation standard and water quality

criteria for the protection of resident aquatic lives in Anambra

River and other similar bodies of water in the sub-region

3) Since heavy metal pollution has always been associated with fish

diversity decline, the control of this pollution in Anambra River

will guarantee abundant and readily available fish necessary for the

essential protein needs of the local population and beyond.

1.8 Limitations of the Study

The limitations of this study are listed below;

(1) A study of this type is supposed to cover both the rainy season, but

here only dry season was covered because conjectural explanations

from literature reports revealed the concentration of these

pollutants to increase due to evaporation.

(2) The investigator was evidently seen as a threat/Government official

working to stop some activities in and around the river and this

affected the response rate on the use of chemicals item in the

questionnaire.

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1.9 Scope of the Study

Due to the nature of the study, data were generated using two

methodologies – survey and experimental methods.

Use of chemicals in fishing and farming in the Anambra River as

well as water related health effects were obtained using well structured

questionnaire. It is obvious that there are many chemical pollutants that

exist in nature, which could be found in a river. However, this study

covered only the priority pollutants, heavy metals, which are of

environmental concern because they are important constituents of

industrial, municipal and domestic effluents and wastes. The metals

evaluated were Arsenic (As), Cadmium (Cd), Chromium (Cr), Copper

(Cu), Iron (Fe), Mercury (Hg), Potassium (K), Manganese (Mn), Lead

(Pb), Zinc (Zn) and Sodium (Na). The physicochemical parameters of the

river of which some enhance the availability and mobility of these heavy

metals were also evaluated. These parameters included; pH,

conductivity, colour, odour, turbidity, total suspended solid (TSS), total

dissolved solid (TDS), dissolved oxygen (DO), total hardness (TH),

alkalinity, chloride, nitrate, nitrite, phosphate, biological oxygen demand

(BOD), chemical oxygen demand (COD), and temperature. The study

covered only the dry season.

In response to the above, a simulation study of the acute toxicity

(LC50) of the most abundant heavy metals in the river were tested in

single and binary mixtures against prevalent fish species (Oreochromis

niloticus and Clarias gariepinus) of the river in laboratory assay to

extrapolate the heavy metal concentration of effect that can lead to 50%

mortality of the fish diversity. According to Walker et al. (2001), the

essence of toxicity testing is to assess the possible risk of ecological

damage from a given toxicant/pollutant.

11

1.10 Conceptual Framework: Dose Response Relationships

This work is conceptualized on the Dose-response relationships. Of

central importance in both toxicology and ecotoxicology is the

relationship between the quantity of chemical to which an organism is

exposed and the nature and degree of consequent harmful (toxic) effects.

Dose-response relationships provide the basis for assessment of hazards

and risks presented by environmental chemicals. This simple basic

concept immediately raises questions about the definition of poisons

because everything depends on dose. Paracelsus (1493-1541) recognized

the dilemma and stated: “All substances are poisons; there is none that is

not a poison. The right dose differentiates a poison and a remedy-or in

other words, “the dose makes the poison”.

There are many different ways by which toxicity can be measured.

Most commonly, the measure (end point) is death. Many toxicity tests

provide an estimate of the dose (or the concentration in food, or water)

which will cause a toxic response at the 50% level, e.g. the median lethal

dose is the dose that will kill 50% of a population. In lethal toxicity

testing, LC50 represents the median lethal concentration.

An environmental chemical can enter a living organism by one or

more routes of uptake. Depending on the chemical, the species and the

environmental conditions, one route of uptake may be dominant or more

than one may be significant. Both the efficiency of uptake and the degree

of toxic effect differ between these routes. When tests are performed on

aquatic organisms, direct uptake from water is predominantly water or

food, and toxicity testing usually involves continuous exposure to defined

concentrations.

There can be very large differences between groups of organisms

and between species in their susceptibility to the toxic action of

chemicals; there can also be large differences between different strains of

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the same species. The selective toxicity ratio (SER) is expressed in terms

of the median lethal dose (MLD) in the following way:

SER = MLD (or concentration) for species A

MLD (or concentration) for species B

Thus, toxicity tests are very rarely carried out on those species

thought to be at risk in the field. When regulatory authorities take

decisions about the release of chemicals into the environment, they base

their decisions on toxicity data obtained with surrogate species, which

may be very different from field species in their susceptibility to

particular chemicals.

From the foregoing, therefore, a study involving toxicity testing

with most abundant and widespread pollutant, heavy metal against

sensitive prevalent test organism (Oreochromis niloticus and Clarias

gariepinus) will be suitable in extrapolating heavy metal concentrations

that would result to 50% mortality of fish population in a given

freshwater habitat such as Anambra River. Consequently, the overlap in

the LC50 toxicity scales of the two fish species would portray their

susceptibility difference and the best predictor of the aquatic heavy metal

pollution.

1.11 Plan of the Study

The study was organized into five chapters for the sake of clarity

and understanding.

Chapter one gives the introduction, which covers among other

things, statement of problem, the aim and objectives, the research

questions and hypotheses, the conceptual framework, the study area,

scope of study, limitations of study and significance of the study; Chapter

two shows the review of related Literatures; Chapter three conveys the

methodology that was adopted in the research; Chapter four shows the

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data presentation, analysis and discussion of findings; and finally in

Chapter five summary, conclusions and recommendations are shown.

1.12 Area of the Study

In discussing the area of study, the location of the river, climate of

the area and economic activities of the area were discussed. This was due

to the nature of the study.

Anambra River is located in Anambra State. The State is located

between latitudes 05o

401N and 07o 10N1

and longitudes 06o

351

E and 07o

201

E. It is made up of 21 local government areas and located in the

South-eastern Nigeria. Anambra River runs across Anambra East, and

Onitsha North Local Government Areas.

Two climatic seasons exist in Anambra State, namely rainy season

(March-October) and dry season (November-March). The rainy season is

characterized by heavy down pours accompanied by thunder storms,

heavy flooding, soil leaching, extensive sheet outwash, ground infiltration

and percolation (Egboka and Okpoko, 1984). The annual rainfall of the

area is over 2000m.

On the other hand, the dry season begins when the dry continental

North-Eastern Wind blows from the Mediterranean Sea across the Sahara

Desert down to Southern Nigeria. It is characterized by extensive aridity

and a lot of particulates generation. Again, there is marked lowering of

water table and intense leaf fall (Egboka and Okpoko, 1984). The dry

season is characterized by high temperatures and low humidity, while wet

months have lower temperatures and lower relative humidity. The area

lies within the zone characterized by relative warm temperatures.

Although the temperatures vary slightly, depending on the period of the

year, the dry season has high temperatures and lower humidity. The

temperature is generally between 20oC and 30oC, while the wet months

14

with higher relative humidity has lower temperatures of between 22oC

and 26oC.

Anambra River lies between Longitudes 6

o

451

and 7o

15

1

and

Latitudes 6o

0

1

and 6o

301

. It is a tributary of River Niger which is the third

largest river in Africa.

The sanitary condition of the area surrounding Anambra River is

generally poor as wastes are dumped on a daily basis at the bank of the

river and faeces discharged directly into and around the river. Fertilizer

and pesticides are normally used in agricultural activities around the river

and, these agricultural activities are carried out along the fringes of the

river. These activities: sewage disposal, waste disposal and agricultural

activities through the use of fertilizer and pesticides around the river are

washed out as run-off into the river and this increases the pollution level

of the river.

The inhabitants around the localities of Anambra River mainly

engage in fishing and farming. There is a couple of industries located

around Anambra River, for instance rice mill industries are located in

Otuocha axis of the river.

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Figure 1.1: Map showing Anambra River and sampled points

Source: Author’s field survey (2009)


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