The document analyzes metal pollutant concentration levels in River Kubanni in Zaria, Nigeria. Sediment samples were collected from four locations along the river and analyzed using Instrumental Neutron Activation Analysis. 29 metal pollutants were identified, including magnesium, aluminum, calcium, titanium, vanadium, manganese, and more. Concentration levels varied along the river's course and between pollutants. Most metal contaminants originated from anthropogenic activities in the catchment area, while some were from geological formations. The presence of many metals could negatively impact human health due to carcinogenic and bioaccumulative properties. Control of polluting activities in the catchment area was recommended.
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
IOSR Journal of Applied Chemistry (IOSR-JAC) is an open access international journal that provides rapid publication (within a month) of articles in all areas of applied chemistry and its applications. The journal welcomes publications of high quality papers on theoretical developments and practical applications in Chemical Science. Original research papers, state-of-the-art reviews, and high quality technical notes are invited for publications.
International Journal of Engineering and Science Invention (IJESI) is an international journal intended for professionals and researchers in all fields of computer science and electronics. IJESI publishes research articles and reviews within the whole field Engineering Science and Technology, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
IOSR Journal of Applied Chemistry (IOSR-JAC) is an open access international journal that provides rapid publication (within a month) of articles in all areas of applied chemistry and its applications. The journal welcomes publications of high quality papers on theoretical developments and practical applications in Chemical Science. Original research papers, state-of-the-art reviews, and high quality technical notes are invited for publications.
International Journal of Engineering and Science Invention (IJESI) is an international journal intended for professionals and researchers in all fields of computer science and electronics. IJESI publishes research articles and reviews within the whole field Engineering Science and Technology, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
International Journal of Engineering and Science Invention (IJESI) is an international journal intended for professionals and researchers in all fields of computer science and electronics. IJESI publishes research articles and reviews within the whole field Engineering Science and Technology, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
An Analysis and Study in Light of Phytoremediation of Heavy Metal Contaminate...ijtsrd
"The modern movement quickens contamination of the
biosphere, particularly the soil. These days soil
contamination is getting impressive open
consideration since the size of this issue is developing
quickly. Heavy metals are the most hazardous
substances in the earth because of their abnormal state
of toughness and harmfulness to the biota. Various
examinations have been led around there went for
building up an effective and prudent approach to
remediate the soil contaminated with heavy metals.
Regular remediation techniques, for example,
physical, warm and concoction medications are
exceptionally costly. Phytoremediation is a creating
innovation which utilizes plants and their related
organisms for the remediation of soil defilement. This
procedure is practical without making unsettling
influence to the scene. This paper resembles a point of
reference or resource in distinguishing the issues
related with heavy metal contaminated soil and other
term known as Phytoremediation."
International Journal of Computational Engineering Research(IJCER) is an intentional online Journal in English monthly publishing journal. This Journal publish original research work that contributes significantly to further the scientific knowledge in engineering and Technology.
HEAVY METAL POLLUTION AND REMEDIATION IN URBAN AND PERI-URBAN AGRICULTURE SOILSchikslarry
Throughout the world, there is a long tradition of farming intensively within and at the edge of cities (Smit et al., 1996). However, most of these peri-urban lands are contaminated with pollutants including heavy metals, such as Cu, Zn, Pb, Cd, Ni, and Hg. The major sources of heavy metal contamination in agricultural soils are discharge of effluents from domestic sources, coal-burning power plants, non-ferrous metal smelters, iron and steel plants, dumping of sewage sludge and metal chelates from different industries. Once the heavy metals are released into soils, plants can absorb and bio-accumulate these heavy metals and thereby affect humans and animals’ health upon consumption (Seghal et al., 2014). Hence, there is a great need to develop effective technologies for sustainable management and remediation of the contaminated soils. There are conventionally physicochemical soil remediation engineering techniques, such as soil washing, incineration, solidification, vapour extraction, thermal desorption, but they destroy the plant productive properties of soils. Moreover, they are usually extremely expensive, limiting their extensive application, particularly in developing countries and for remediation of agricultural soils (Kokyo et al., 2014). Phytoremediation has been increasingly receiving attentions over the recent decades, as an emerging, affordable and eco-friendly approach that utilizes the natural properties of plants to remediate contaminated soils (Wang et al., 2003). Phytoremediation includes phytovolatilization, phytostabilization, and phytoextraction using hyper-accumulator species or a chelate-enhancement strategy. The future of this technique is still mainly in the research phase, and many different Hyperaccumulators and crops that can be cultivated in heavy metal contaminated are still being tested.
International Journal of Engineering and Science Invention (IJESI) is an international journal intended for professionals and researchers in all fields of computer science and electronics. IJESI publishes research articles and reviews within the whole field Engineering Science and Technology, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
An Analysis and Study in Light of Phytoremediation of Heavy Metal Contaminate...ijtsrd
"The modern movement quickens contamination of the
biosphere, particularly the soil. These days soil
contamination is getting impressive open
consideration since the size of this issue is developing
quickly. Heavy metals are the most hazardous
substances in the earth because of their abnormal state
of toughness and harmfulness to the biota. Various
examinations have been led around there went for
building up an effective and prudent approach to
remediate the soil contaminated with heavy metals.
Regular remediation techniques, for example,
physical, warm and concoction medications are
exceptionally costly. Phytoremediation is a creating
innovation which utilizes plants and their related
organisms for the remediation of soil defilement. This
procedure is practical without making unsettling
influence to the scene. This paper resembles a point of
reference or resource in distinguishing the issues
related with heavy metal contaminated soil and other
term known as Phytoremediation."
International Journal of Computational Engineering Research(IJCER) is an intentional online Journal in English monthly publishing journal. This Journal publish original research work that contributes significantly to further the scientific knowledge in engineering and Technology.
HEAVY METAL POLLUTION AND REMEDIATION IN URBAN AND PERI-URBAN AGRICULTURE SOILSchikslarry
Throughout the world, there is a long tradition of farming intensively within and at the edge of cities (Smit et al., 1996). However, most of these peri-urban lands are contaminated with pollutants including heavy metals, such as Cu, Zn, Pb, Cd, Ni, and Hg. The major sources of heavy metal contamination in agricultural soils are discharge of effluents from domestic sources, coal-burning power plants, non-ferrous metal smelters, iron and steel plants, dumping of sewage sludge and metal chelates from different industries. Once the heavy metals are released into soils, plants can absorb and bio-accumulate these heavy metals and thereby affect humans and animals’ health upon consumption (Seghal et al., 2014). Hence, there is a great need to develop effective technologies for sustainable management and remediation of the contaminated soils. There are conventionally physicochemical soil remediation engineering techniques, such as soil washing, incineration, solidification, vapour extraction, thermal desorption, but they destroy the plant productive properties of soils. Moreover, they are usually extremely expensive, limiting their extensive application, particularly in developing countries and for remediation of agricultural soils (Kokyo et al., 2014). Phytoremediation has been increasingly receiving attentions over the recent decades, as an emerging, affordable and eco-friendly approach that utilizes the natural properties of plants to remediate contaminated soils (Wang et al., 2003). Phytoremediation includes phytovolatilization, phytostabilization, and phytoextraction using hyper-accumulator species or a chelate-enhancement strategy. The future of this technique is still mainly in the research phase, and many different Hyperaccumulators and crops that can be cultivated in heavy metal contaminated are still being tested.
SCHOOL OF ARCHITECTURE, BUILDING & DESIGN
Modern Architecture Studies in Southeast Asia (MASSA) Research Unit Bachelor of Science (Honours) in Architecture
Building Construction BLD60303
Assignment 1: Experiencing Construction:
Experiencing, documenting and analysing the CONSTRUCTION PROCESS
To identify different types of building elements and its construction process, details and materials. You are to study and record construction of different building elements, which you have learnt in this module. Specifically, you should be able to show and apply your knowledge in the details of the building construction drawing that you are to compile, thereby reflecting your understanding of the construction itself.
Document (Visual images, Annotated Sketches and Drawings)
Construction process, methods, materials, site context.
Documentation should be in the form of photos, pictures, sketches, drawings and annotations.
Analyse and Explain
Specifications of materials used in construction
Dimensions and sizes of components
Standards of descriptions
Procedures in constructing the components
Construction response to site context (environmental issues related to sustainable development)
Trace Metals Concentration in Shallow Well Water in Enugu Metropolispaperpublications3
Abstract: This work assesses the concentration of heavy metals in Enugu Municipal well-water considering the fact that some Enugu inhabitants depend on well-water as their major source of water supply. Water from twenty four (24) different hand dug wells from six locations were investigated for Zn, Cu, Pb, Mn, Cd, and Fe using Atomic Absorption Spectroscopy (AAS). The result of the study expressed as the means and standard deviations were compared to WHO and EU standards for drinking water, and it was found that well waters from Iva-Valley and Uwani areas suffer from Cd and Mn pollution. The remaining four locations (Emene, Asata, Abakpa Nike and Achara Layout) were all free from Cd and Mn pollution. Cu, Zn, Fe and Pb concentrations were either completely absent or below world threshold limits at all the locations.
HOW PHYSICOCHEMICAL PARAMETERS OF WATER CHANGE WITH DISTANCE IN A LAKE: CASE ...ijac123
Pollution resulting from unsustainable agricultural and urbanization activities in the Ruhezamyenda and Bunyonyi catchments are threatening lake Bunyonyi. These have led to high chemical oxygen demand (COD), electrical conductivity, turbidity, pH, iron (II) concentration and low dissolved oxygen (DO5). In this study we have investigated the how COD, turbidity, pH, concentration of iron, total suspended solids, total nutrients and DO5 of water changed with distance in lake. Water sampled from different distances in the lake filtered using Whatman paper at ambient temperatures was tested for COD, electrical conductivity, turbidity, total nutrients, iron, hardness and DO5. COD was 20.8±.0.03mg/L to 16 ± 0.03mg/L; total hardness was 16.5±0.2 mg/L to 18.6 ± 0.3 mg/L total nitrate was 103.5± 2 mg/L to 88 ± 3 mg/L; total phosphate was 100.8 ±.2.5 to 87± 3 mg/L; high TSS values from 3.4 ± 0.1 mg/L to 2.5 ± 0.1 mg/L showed contamination of water. As pH decreased from 8.3 ± 0.03 to 7.6 ± 0.04 revealed that bases were getting removed. The turbidity dropped from 25.7 ± 0.3 NTU to 20 ± 2 NTU due settling down of sediments. Iron (II) concentration ranging from 1.1± 0.1 to 0.8± 0.1 mgL-1 . Dissolved oxygen decreased from 7.9 ±0.3 mg/L to 4.8 ± 0.2 mg/L indicating surface water can uphold life of aquatic organisms. Total hardness ranged from 0.22± 0.05 to 0.19± 0.05 mg/L Electrical conductivity was high and ranged from 130± 5 to 150± 5 µS/cm indicating presence of electrolytes. Lake Bunyonyi water is not greatly polluted, but requires to be safe guarded against poor unsustainable agricultural practices, sewage draining from towns, schools and hotels in nearby settlements.
International Journal of Engineering Research and Development (IJERD)IJERD Editor
journal publishing, how to publish research paper, Call For research paper, international journal, publishing a paper, IJERD, journal of science and technology, how to get a research paper published, publishing a paper, publishing of journal, publishing of research paper, reserach and review articles, IJERD Journal, How to publish your research paper, publish research paper, open access engineering journal, Engineering journal, Mathemetics journal, Physics journal, Chemistry journal, Computer Engineering, Computer Science journal, how to submit your paper, peer reviw journal, indexed journal, reserach and review articles, engineering journal, www.ijerd.com, research journals,
yahoo journals, bing journals, International Journal of Engineering Research and Development, google journals, hard copy of journal
The metals, which are required in a very minute amount and are considered toxic, are
termed as heavy metals. Researchers have widely investigated and studied these metals
due to their dangerous and harmful influence on health and the environment. Due to their
ability to accumulate and toxic nature these are addressed to be a vital source of environmental
contamination. Heavy metals have critically polluted the environment and its components.
This has severely damaged its abilities to promote life and provide its intrinsic
values. These are naturally available compounds and because of their anthropogenic origin
they are commonly found in various environmental domain. This results in deterioration of
the environment competence to support life and health of human, animals and plants
becomes threatened. This takes place because of bioaccumulation of these heavy metals in
the food chain which is a direct consequence of nondegradable state of the heavy metals.
The surroundings within which the human life exists is referred as the environment. It basically
comprises of the water, land, microorganisms, animal and plant life and the atmosphere
of the earth.
Gold mines and impact of heavy metals on the environmentIAEME Publication
This research report puts light on the research and the study of gold mining plant in Oman and its assessment and its contribution of gold mining into various other environmental media on the
basis of heavy metals. In this research study, various samples were collected from crop plants,stream waters and soil of the plant area of gold mining.
Assessment Of Heavy Metal In Sediment Of Orogodo River, Agbor, Delta State.docxResearchWap
This study was carried out to examine heavy metals concentration in sediment of upstream and downstream of the entry of the sewage to the Orogodo River, Agbor, Delta state Nigeria . Samples were collected from upstream and downstream and were analyzed for Heavy metals (Cd, Cr, Cu, Fe, Pb, Ni, Ca, Mg, Co, Mn and Zn) by atomic absorption spectrophotometer. It shows the concentration of iron, cadmium, manganese, cobalt, chromium, zinc, magnesium, calcium, nickel, lead and copper in mg/kg in sediments sampled.Some specific physico-chemical characteristics, such as TDS, pH, Temperature and conductivity which are known to influence the interactions and dynamics of metals within the sediment. The mean value of the metals listed above in all the six locations gave 126.09mg/kg, 0.000mg/kg, 0.538mg/kg, 0.000mg/kg, 0.141mg/kg, 1.789mg/kg, 1.258mg/kg, 9.49mg/kg, 0.000mg/kg, 0.112mg/kg and 0.0827mg/kg respectively.. The result of the analysis It shown that the concentrations of heavy metal like Zn, Pb, Cr, Ca, Cu, Co, Mg, Mn, Cd and Ni in the sediment are low, but require monitoring to prevent an increase. Hence the concentration of Fe is higher when compared with the WHO and FEPA standard for sediment which may constitute risk to the environment. The concentration of heavy metals varies for the different locations. Based on the result of the analysis, recommendations were offered to reduce the concentration of heavy metal of the river.
Bioaccumulation of Lead (Pb) content in three species bivalves in Jakarta Bay...Open Access Research Paper
Environmental pollution by heavy metals has become a serious problem in Jakarta Bay. Mobilization of heavy metals as a result of anthropogenic activities has caused the release of heavy metals into the environment, one of which is Pb. Several methods already used to clean up the environment from these kinds of contaminants, but most of them are costly and difficult to get optimum results. In addition heavy metal pollutans in the waters are very stable and tend to be persistent. Recently, bioaccumators is an effective and affordable technological solution used to extract or remove inactive metals and metal pollutants from contaminated soil and water. This technology is environmental friendly and potentially cost effective using bivalves. These study objectives to analyzed the Pb content of three species of Jakarta Bay bivalves. The results showed that Pb content in the Eastern and Western Season bivalve tissue was significantly lowest in P. viridis (0,166 ± 0,016μg/g dan 0,161 ± 0,155μg/g) compared the Pb concentration in A. antiquata (0,264 ± 0,015μg/g dan 0,247±0,044μg/g), and M. meretrix (0,270 ± 0,016μg/g dan 0,240 ± 0,053μg/g). In this study also showed that the concentration of heavy metal Pb in the bivalve shell of P. viridis was significantly lower than that of two species (A. antiquata and M. meretrix). Pb content in the Eastern Season bivalves did not significantly different from that in the Westerrn Season. This is caused by a weather anomaly where the rainy season occurs almos throughout year of 2020. The Pb content in the bivalves shell was significantly higher than in the body tissues. It is because Pb can replace calcium ions in the formation of animal bones or bivalve shells.
Bioaccumulation of Lead (Pb) content in three species bivalves in Jakarta Ba...Innspub Net
Environmental pollution by heavy metals has become a serious problem in Jakarta Bay. Mobilization of heavy metals as a result of anthropogenic activities has caused the release of heavy metals into the environment, one of which is Pb. Several methods already used to clean up the environment from these kinds of contaminants, but most of them are costly and difficult to get optimum results. In addition heavy metal pollutans in the waters are very stable and tend to be persistent. Recently, bioaccumators is an effective and affordable technological solution used to extract or remove inactive metals and metal pollutants from contaminated soil and water. This technology is environmental friendly and potentially cost effective using bivalves. These study objectives to analyzed the Pb content of three species of Jakarta Bay bivalves. The results showed that Pb content in the Eastern and Western Season bivalve tissue was significantly lowest in P. viridis (0,166 ± 0,016μg/g dan 0,161 ± 0,155μg/g) compared the Pb concentration in A. antiquata (0,264 ± 0,015μg/g dan 0,247±0,044μg/g), and M. meretrix (0,270 ± 0,016μg/g dan 0,240 ± 0,053μg/g). In this study also showed that the concentration of heavy metal Pb in the bivalve shell of P. viridis was significantly lower than that of two species (A. antiquata and M. meretrix). Pb content in the Eastern Season bivalves did not significantly different from that in the Westerrn Season. This is caused by a weather anomaly where the rainy season occurs almos throughout year of 2020. The Pb content in the bivalves shell was significantly higher than in the body tissues. It is because Pb can replace calcium ions in the formation of animal bones or bivalve shells.
Determination of Heavy Metals in Boreholes, Hand Dug Wells and Surface Water ...Premier Publishers
Drinking water Quality is one of the most important concerns. The heavy metals level up to ppb levels in drinking water quality may cause severe health problems. In this study attempt was made to determine the concentrations of eight heavy metals in water samples taken in August 2016 from boreholes, hand dug wells and streams in some selected areas of Mubi North local government Adamawa state. These samples were subjected to analysis for eight elements (Zn, Fe, Ca, Na, Mg, Mn, Pb and Cd using Atomic Absorption Spectrophotometer (AAS). The concentrations of these metals in the study areas were compared with drinking water quality limits given by the World Health Organization (WHO). Na, Mg, Fe, Mn, Zn and Ca concentrations were found to range from 4.80-5.0, 0.06-2.6, 0.03-3.05, 0.04-0.80, 0.02-0.17, 20.49-35.6Mg/L respectively. The concentrations of Na, Mg, Ca, and Zn found in this study were lower than the permissible limit of WHO. While that of Fe in water sample from stream were found to be higher as compared with the WHO standard. Similarly the concentration of Mn in stream and borehole water samples were also higher.Cd and Pb were not detected in all the samples.
IOSR Journal of Applied Chemistry (IOSR-JAC) is an open access international journal that provides rapid publication (within a month) of articles in all areas of applied chemistry and its applications. The journal welcomes publications of high quality papers on theoretical developments and practical applications in Chemical Science. Original research papers, state-of-the-art reviews, and high quality technical notes are invited for publications.
Concentration of metal pollutants in river kubanni, zaria, nigeria.
1. Journal of Natural Sciences Research www.iiste.org
ISSN 2224-3186 (Paper) ISSN 2225-0921 (Online)
Vol.3, No.2, 2013
Concentration of Metal Pollutants in River Kubanni, Zaria, Nigeria.
Ali Williams Butu
Department of Geography Ahmadu Bello University
Zaria, Nigeria.
E-mail: alibutu@yahoo.com
Abstract
The study focused on concentration of metal pollutants in River Kubanni Zaria, Nigeria. The main sources of data
for the study were sediments from four different sampling locations along the long profile of the river. The samples
were prepared in the laboratory according to standard method and Instrumental Neutron Activation Analysis (INAA)
was adopted in the analysis of the data using Nigeria Research Reactor – 1 (NIRR -1). 29 metal pollutants; Mg, Al,
Ca,Ti, V, Mn, Dy,Na, K,As, Br, La, Sm, Yb, U, Sc, Cr, Zn, Fe, Co, Rb, Cs, Ba, Eu, Lu, Hf, Ta, Sb and Th were
indentified in the river at various levels of concentration. The result of the analysis showed that most of the metal
contaminants in the river are routed to anthropogenic activities from the four different sections of the river, while few
are routed to geologic formation in the catchment area. The presence of most of these metal pollutants in water may
have severe health implication on the consumers because most metals are known to be carcinogenic to humans;
therefore the study recommended that anthropogenic practices that produce these chemical elements in the catchment
area be controlled.
Keywords: Anthropogenic activities, chemical elements, carcinogenic, geologic formation, Kubanni River, level of
concentration, metals, pollutants.
1. Introduction
Metals are chemical elements that are solid at ordinary temperatures, opaque, except in extremely thin films good
electrical and thermal conductors, illustrious when polished and have a crystalline structure in the solid state (Gaus,
2009). The common metallic elements are aluminum, tarium, beryllium, bismut, calcium, cerium, chromium, cobalt,
copper, gold, iridium, iron, lead, lithium, manganese, mangnesium, mercury, molybdenum, nickel, osmium,
palladium, platinium, potassium, radium, rubidium, silver, sodium, tantalum, thallium, thorium, tin, titanium,
tungsten, uranium, vanadium, and zinc. Metallic elements can combine with one another and with other elements
either as compounds or solutions or as intimate mixtures. Metals have positive valences in most of their compounds,
which means that they tend to donate electrons to atoms which they bond, they form basic oxides. Metals can form
salts like chlorides, carbonates and sulphides by serving as reducing agents or electron donors. (Gaus, 2009).
Naturally occurring metals such as thallium, copper, cobalt, vanadium, cadium, nickel, uranium, chromium, zinc,
mecury, lead and iron are deposited in aquatic environment either in soluble or insoluble form along the river course.
Chemical elements are easily introduced into aquatic system as a result of chemical weathering of soil and rocks
from volcanic eruptions and from a variety of human activities involving processing or using of metals and
substances that contained metals. There are two different types of sources of these metal pollutants in our water
bodies. Point source is a localized pollution where pollutants come from single identifiable sources. The second type
of pollution sources are non-point sources (diffuse pollution), where pollutants come from dispersed sources and
often difficult to identify sources (Lentech, 2006). Gamboa-Rodriguez et al.,(2012) observed that the presence of Pb
and Zn in Tabasco Lagoon, Mexico was as a result of pluvial discharges from the city around the lagoon that washed
rusted metal roofs and carry domestic discharges, paints and roof of insulation debris from building as well as oil and
combustion particles from automobile combustion, this is a good example of diffuse pollution. The greater
challenges facing the water supply profession today are the control and removal of poisonous metal contaminants.
Water pollution occurs in various forms and is caused by different factors.
The major causes of water pollution in most countries of the tropics can be linked to human activities such as
sewage and refuse disposal, industrial effluents, agricultural activities, mining and quarrying activities. The most
common source of water pollution in developing nations is domestic sewage and refuse. Iguisi et al., (2012) is of the
opinion, that several chemical elements have their origin in the composing high refuse dumps that dot the landscape
of the built up section of the catchment area of Kubanni (ABU) dam. Several other studies have also shown that a
considerable number of chemical elements are leached from refuse dumps during raining season into ground water
19
2. Journal of Natural Sciences Research www.iiste.org
ISSN 2224-3186 (Paper) ISSN 2225-0921 (Online)
Vol.3, No.2, 2013
and streams (Olofin, 1991). Mechanic workshops where used engine oil and petrol are continually discarded are also
available sources of lead contaminant. Industrialization is another major source of chemical pollution; industrial
effluents are discharged into water sources without treatment (Farouk, 1998). The discharge of domestic sewage into
the Creek system was observed to be responsible for the contamination of Ebute Meta creek ( Etim, 2012). Etim and
Adie (2012) also observed that available sources of Potable water for drinking and industrial chores in Nigeria are
dwindling because of concomitant increase in population, urbanization and industrial activities.
Modern agriculture is now becoming a nuisance to mankind. The insecticides, pesticides, chemical fertilizers
especially nitrate and phosphate are used annually to boost agricultural production and these chemicals are washed
down the soil by rain and eventually end up to contaminate the ground water and stream waterways and River
Kubanni is equally surrounded by these types of activities which are likely to pollute the waterway. Several soil
mining and quarrying activities are common in the Kubanni catchment area which may have similar effects on the
aquatic lives. Most metals are known to be carcinogenic and fatal, they are generally dangerous to living organism
especially man because of their bioaccumulation nature, they accumulate in living tissues anytime they are taken up
and stored faster than they are metabolized or excreted (Leutech, 2006). Increased technology has lead to rapid
industrialization and by implication increased pollutants in the environment and therefore exposes man to
environmental risk. Environmental pollution is a big problem in modern society; out of the various kinds of
pollution, the high contamination of aquatic systems with toxic heavy metals is of major concern since metals are no
biodegradable and their elevated uptake by crops may affect food quality and safety (Barakat et al.,(2012). The
Kabanni River is prone to metal pollution by the intense anthropologenic activities within the catchment area.
Therefore the aim of this study is to examine the levels of concentration of these metal pollutants in the entire
Kubanni waterway and make necessary recommendations for abatement of further loading of these toxic chemicals
into the water body and other water sources.
2. The study area
The study area is the Kubanni River basin in Zaria, Kaduna State Nigeria. The Kubanni River takes its source from
the Kampagi hills in Shika near Zaria. It flows in southeast direction of Ahmadu Bello University Zaria. The
Kubanni River flows southwards in a total length of 21km into River Galma (Lat 110 04’59.77”N - 110 08’ 29.77N
and Long 07034’59.84”E - 07041’59.84E).The Kubanni catchment area belongs to the northeastern part of Kaduna
River basin which borders the Chad basin. The Kubanni River was damned by the authorities of Ahmadu Bello
University in 1973 at about 7.25km from source to provide water to the University Community (Iguisi, 2001). The
Kubanni catchment area lies within the tropical wet and dry climatic zones, characterized by strong seasonality and
temperature distribution.
The geology of the study area is composed mainly of fine grain gneisses and migmatite with some course-grained
granitic outcrops in few places. The soil of the study area is mainly sandy-clay loan with poor infiltration because of
the high clay content (Iguisi, 1997). Except for Aeolian, deposit and fadama soils, the soils of Kubanni basin are
mainly derived from the basement complex and quaternary deposits. The Kubanni basin lies in natural vegetation
zone known as the Northern Guinea Savanna and the entire vegetation and soils of the study area have been under
great anthropogenic influences which have greatly modified the entire landscape.
3. Materials and method
3.1. Materials. The main sources of data for this study were sediments from four different sampling points along the
long profile of Kubanni River channel that spanned to about 21km. The choice of the sediment for the study is
because metals are known to be more concentrated in sediments than surface water (Rognerud and Fjeld, 1993).
Sediment in aquatic environment serves as a pool that can retain and release metals to the water column by various
methods of remobilization (Caccia et al., 2003; Pekey, 2006 ; Marchand et al., 2006) The long profile of the river
was divided into the upper, middle and the lower courses and the sampling points were code named KP1 – KP4 as
shown on Figure 1.The sediment samples were obtained at each sampling point along River Kubanni using sediment
core made of polyethylene plastic with a column length of 1m.
3.2. Methodology. The sediments were acidified to suppress the growth of microorganisms. The sediments were
prepared in the laboratory and analyzed, the certified reference materials IAEA –SL-3 (sediment) was used to
determine the calibration factor for all the elements. The Instrumental Neutron Activation Analysis (INAA)
technique was adopted in the analysis of the data using Nigeria Research Reactor -1 (NIRR -1) which is a miniature
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3. Journal of Natural Sciences Research www.iiste.org
ISSN 2224-3186 (Paper) ISSN 2225-0921 (Online)
Vol.3, No.2, 2013
Neutron Source Reactor (MNSR). The NIRR-1 is a low power nuclear reactor which has proved to be the most
accurate in analyzing metal concentrations in sediments (Jonah et al., 2006).
To analyze the data, two irradiation schemes were adopted based on the half life of the product radionuclide, for
elements leading to short lived activation product the prepared samples were irradiated in an outer irradiation
channel B4, for elements leading to long lived activation products samples were irradiated for 6hr in the inner
irradiaton channel. Following the short-lived irradiation regime the first round of counting was done for 10min (i.e.
S1) after a waiting time of 2-5min. The second round of counting was carried out for 10min following the irradiation
regime (i.e. S2) after a waiting period of 3-4hr.
Figure 1: The study area showing the sampling locations (KP1 – KP4)
Source: Nigeria SAT – 1 Imagery, 2009
In long irradiation regime the first counting was done for 30min, after a waiting time of 4-5 days and the second
counting was carried out for 60min after a cooling time of 10-15 days. Finally, the identification of gamma-ray of
product radio-nuclides through their energies and quantitative analysis of the concentration of each of the elements in
the sample were obtained by using the gamma-ray spectrum analysis software, WINSPAN 2004. The results of the 8
samples that were collected in each location were summed up and their mean was taken to represent the
concentration in that particular section of the river, then the entire data generated by laboratory analysis were
summarized by simple descriptive statistics such as mean, standard deviation and coefficient of variation.
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4. Results and discussion
The results of the laboratory analysis as shown on Table 1 indicated the presence of 29 metal pollutants; Mg, Al, Ca,
Ti, V, Mn, Dy, Na, K, As, Br, La, Sm, V, U, Sc, Cr, Fe, Co, Zn, Rb, Cs, Ba, Eu, Lu, Hf, Ta, Sb and Th in River
Kubanni at different levels of concentration. The maximun concentration of Mg is 4000 ppm, minimun is 2000 ppm
and the mean concentration in the stream is 2750 ppm. Al has maximum concentration of 42000 ppm, the minimun
concentration is 35000 ppm and the mean concentration in the river is 4000 ppm. The maximun concentration of Ca
is 8000 ppm, minimun is 1000 ppm and mean concentration is 4250 ppm with 77% cofficient of variation (CV) . The
maximun concentration of Ti is 2000 ppm, minimum is 2000 ppm and the mean value is 3000 ppm.The maximum
concentration of V is 33.6 ppm, minimum is 30.5 ppm and mean value is 35.3 ppm. The mean concentration of Mn
in the river is 247.8 ppm with maximum value of 293.3 ppm and minimum concentration of 184.5 ppm.Dy has low
level of concentration in River Kubanni, the mean value is 6.3 ppm, maximum concentration is 7.3 ppm and
minimum is 4.7 ppm.
The mean concentration of Na is 2000 ppm, maximum and minimum concentration during the sampling period is
2000 ppm. The maximum concentration of K is 21000 ppm,minimum value is 2000 ppm and the mean concentration
in the stream is 15500.0 ppm, with high standard deviation of 9110.4. The mean value of As is 1.8 ppm, maximum is
3.7ppm and minimum is 1.2 ppm and the coefficient of variation (CV) is 58.8%. The mean concentration of Br in
the river is 1.0 ppm, maximun is 2.2 ppm and minimum is 0.4ppm with CV of 85.1%.
The maximun level of concentration of La is 51.3ppm, minimum concentration is 28.5ppm and mean concentration
is 37.5 ppm. The mean concentration of Sm is 29.6 ppm, the maximum concentration is 53.00 ppm and the minimum
is 6.7 ppm while the CV is 77%. The mean concentration of Yb is 5.9 ppm and the maximum concentration is
6.7ppm. The maximum concentration of U is 5.8 ppm, minimum is 5.4 ppm and mean concentration is 5.4 ppm.
Sc mean level of concentration is 3.8 ppm, Cr is 18.4 ppm, Fe has high mean concentration of 16500 ppm, with high
maximun level of 19000 ppm and minimum level 15000 ppm during the sampling period. The mean concentration
of Co is 4.2 ppm, Zn is 103.7 ppm with a wide range of 174.6 and Cv of 72.7%. Rb mean value is 121.7 ppm, Cs is
3.7 ppm,Ba is 402 ppm with high maximum concentration of 489.6 ppm in KP1. The mean concentration of Eu is
0.8 ppm, Lu is 0.7 ppm, Hf is 19.9 ppm with highest concentration in KP2. The mean concentration of Ta is 2.1
ppm, maximum concentration is 2.3 ppm in KP2 . The mean concentration of Sb is 1.4 ppm, maximum concentration
of 2.3 ppm in KP1 and minimum concentration of 1.8 ppm in KP2 with high CV of 73.9%. Finally Th has mean
concentration of 21.4ppm with maximum concentration in KP4 (29.3 ppm) and minimum concentration in KP1 (17.4
ppm).
Table 1 The levels of concentration of metal contaminants in the entire river Kubanni (kP1-4)
ELEMENT MEAN MEAN MEA MEA MAX MIN MEA SD CV
(PPM) KP1 KP2 N KP3 N KP4 N
Magnesium Mg 4000.0 2000.0 3000.0 2000.0 4000.0 2000.0 2750.0 957.43 34.8%
Aluminium Al 42000.0 35000.0 45000. 38000. 45000. 35000. 40000. 4396.9 11.0%
Calcium Ca 8000.0 1000.0 6000.0 2000.0 8000.0 1000.0 4250.0 3304.0 77.7%
4
Titanium Ti 2000.0 3000.0 4000.0 3000.0 4000.0 2000.0 3000.0 816.50 27.2%
Vanadium V 33.6 41.1 36.1 30.5 41.1 30.5 35.3 4.49 12.7%
Manganese Mn 293.3 287.5 225.8 184.5 293.3 184.5 247.8 52.07 21.0%
Dyspiosium Dy 6.1 4.7 7.3 7.3 7.3 4.7 6.3 1.23 19.4%
Sodium Na 2000.0 2000.0 2000.0 2000.0 2000.0 2000.0 2000.0 0.00 0.0%
Potassium K 2000.0 21000.0 18000. 21000. 21000. 2000.0 15500. 9110.4 58.8%
Arsenic As 1.8 1.2 3.7 1.4 3.7 1.2 2.0 1.14 56.4%
Bromine Br 0.8 0.5 2.2 0.4 2.2 0.4 1.0 0.84 85.1%
Lanthanium La 33.4 28.5 36.8 51.3 51.3 28.5 37.5 9.83 26.2%
Samarium Sm 6.7 45.3 53.0 13.5 53.0 6.7 29.6 22.92 77.3%
Yittarbium Yb 6.7 4.5 6.0 6.3 6.7 4.5 5.9 0.98 16.8%
Uranium U 5.4 5.4 5.4 5.8 5.8 5.4 5.5 0.20 3.6%
Scadium Sc 3.8 2.5 4.2 4.1 4.2 2.5 3.6 0.78 21.5%
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Chromium Cr 18.4 21.3 29.3 28.3 29.3 18.4 24.3 5.30 21.8%
Iron Fe 16000.0 16000.0 19000. 15000. 19000. 15000. 16500. 1732.0 10.5%
Cobalt Co 4.8 3.4 4.5 4.0 4.8 3.4 4.2 0.62 15.0%
Zinc Zn 71.4 35.4 210.0 97.8 210.0 35.4 103.7 75.37 72.7%
Rubidium Rb 147.6 100.6 108.3 130.4 147.6 100.6 121.7 21.39 17.6%
Caesium Cs 6.1 2.0 3.4 3.3 6.1 2.0 3.7 1.73 46.7%
Barium Ba 489.6 373.1 342.3 403.3 489.6 342.3 402.1 63.47 15.8%
Europium Eu 1.0 0.7 0.8 0.9 1.0 0.7 0.8 0.12 14.4%
Lutetium Lu 0.8 0.5 0.6 0.7 0.8 0.5 0.7 0.12 18.1%
Hafnium Hf 15.7 15.8 19.0 25.0 25.0 15.7 19.9 4.70 23.6%
Tantanium Ta 1.8 2.3 2.2 1.9 2.3 1.8 2.1 0.25 12.2%
Antiniony Sb 2.3 0.2 2.1 0.8 2.3 0.2 1.4 1.01 73.9%
Thorium Th 17.4 17.8 21.4 29.3 29.3 17.4 21.4 5.52 25.7%
A total of 29 metal pollutants were identified in each of the sampling points in entire Kubanni River, however the
levels of concentration of each of the metal pollutants differ from one sampling point to another. This is because of
the peculiarity of the human activities in each of the four sampling points. Barakat et al., (2012) observed that higher
degree of metal pollution was at sampling stations close to Beni-Mellal city, Morocco, which confirms that the major
sources of heavy metal were from industrial and urban waste water discharge, also relatively high heavy metal
contamination at stations close to rural areas suggested that agricultural and rural activities carried out at the wide
lands surrounding the Day River might have attributed to metal pollution in the river sediment. The presence of each
of the metal pollutants in the entire river is a reflective of the manner in which turbulence flows within the river and
indeed the effect of stream flow can thoroughly mix-up the river water to the extent of ensuring spatial uniformity in
the levels of concentration of these metal contaminants. The cause of the observed variation in the levels of
concentration of these chemical pollutants in the different zones of the river is traceable to their various source areas.
Definitely, chemical elements which are readily detached and entrained by overland flow tend to exhibit higher
levels of concentration while those that are gradually released from the soil regolith system through subsurface and
base flow show lower levels.
Metal pollutants such as Al, Mn, Ca, K, Fe, As and Sc whose sources are traceable to refuse dumps, farmlands public
gutter and effluents from research centres and institutions in the catchment area exhibited higher levels of
concentration in River Kubanni than those whose sources are restricted to weathered rocks and perhaps other sources
where they occur at very low concentration, example Ta, Rb, Yb Dy, As, Br, U, Eu and Lu). These variations are
therefore, the reflection of the relative abundance of these metal pollutants in the catchment area of River Kubanni
and the ease with which overland, surface and base flow transport them into the river.
4. Recommendations
Water is one of the most important natural resources without which life on earth will be impossible; this therefore
justifies the need for proper management and protection of available water sources from contamination by chemical
pollutants. It is therefore recommended that:
a. Indiscriminate dumping of refuse which litter the built up area of the Kubanni catchment area should be
discouraged.
b. The ugly practices such as discharging of oils petrol, used batteries, grease, training effluents and salon
effluents into public drains which finally end up into the river should be discouraged.
c. The use of toxic chemicals for farming should be controlled.
d. Our towns and cities should have a simple and effective sewage treatment. Sewage should not be
discharged into public drains or water bodies.
e. Government should provide necessary vehicles for regular evacuation of all the refuse dumps that are
commonly seen in our cities.
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6. Journal of Natural Sciences Research www.iiste.org
ISSN 2224-3186 (Paper) ISSN 2225-0921 (Online)
Vol.3, No.2, 2013
6. Conclusion
The study has established that 29 different types of metal contaminants; Mg, Al, Ca, Ti, V, Mn, Dy, Na, K, As, Br,
La, Sm, Yb, U, Sc, Cr, Fe, Co, Zn, Rb, Cs, Ba, Eu, Lu, Hg, Ta, Sb, and Th exist in River Kubanni at different levels
of concentration. It is expected that the levels of concentration of these metal pollutants will continue to increase,
since most of the metal sources are from human activities that are on daily increase in the catchment area. The
contaminations of the waterway by these metal pollutants may have direct consequences on the lives of the
consumers on the long run because metals are known to be carcinogenic to humans.
Acknowledgement
The author sincerely thanks Prof S.A. Jonah, Dr Y. A Ahmed, the entire management of Centre for Energy Research
and Training, Ahmadu Bello University Zaria, Nigeria and Mr Retin Obi for all their assistance.
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Vol.3, No.2, 2013
Marchand G, Lalliet Verges E, Baltzer F, Alberic F, Cossa D and Ballif, P (2006). Heavy Metals Distribution in
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Ali Williams Butu hails from Takum, Taraba state, northeast Nigeria. He received a B.Sc.(1990), M.Sc.(2002),
PhD(2011) Degrees in Geography from Ahmadu Bello University Zaria, Nigeria. He also holds a Postgraduate
Diploma in Education (PGDE) from the famous Tai Solarin University of Education Ijagun, Ogun state, southwest
Nigeria. His field of study is Hydrology and water resources management. He has written several articles on water
pollution by metal contaminants.
25
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