Adverse effects of waste dumps on groundwater quality in Jos and environs
The study area is between Latitudes 080 46' - 090 00'E and Longitudes 090 48' - 10 02'N and covers an area of about 635km2. The area covers about 5 local governments: Jos North, Jos South, Jos East, Bassa and some parts of Toro Local Government in Bauchi state. \r\n\r\nThe topography of the area is virtually undulating. The undulations are due to the rocky nature of the terrain and several water paths that follow the basement structure. The area is covered with high relief older granite plutons and younger granite ring complexes.\r\n\r\nThe geology of this area can be divided into six major lithological groups: (i) the precambrian migmatites and granite gneisses of the basement complex covering an area of about 97km2 (i.e. 15%) in the Central and Northern parts of the map; (ii) the pan-African older granites comprising of coarse porphyritic biotite and biotite hornblende granite and fine grained biotite granite occupying an area of about 83km2 (i.e. 13%) in the Western margin and Central part of the map; (iii) the Jurassic younger granite series comprising of granite and porphyries occupying an area of about 349km2 (i.e. 55%) in the Central, South East, North West and North Eastern parts of the map; (iv) the late cretaceous older basalts occupying an area of about 25km2 (i.e. 4%) in the South-Western and North Western parts of the map (v) the late tertiary/quartenary newer basalts occupying an area of about 36km2 (i.e. 10%) in the Central part of the map; and (vi) the Neogene sediments (Alluvium) occupying an area of about 25km2 (i.e. 4%) along the rivers in the entire area.\r\n\r\nStreams, rivers, springs and mining ponds provide the surface water resources of the area. The major Rivers in the area are River Bauna, River Dilimi, River Tilden Fulani, River Rukuba, River Gell and Shen River. The drainage pattern of all the rivers and streams in the area is controlled by chains of mountains and hills of high relief on the Jos Plateau. \r\n \r\nGroundwater in this area occurs in 4 different aquifer types: (i) the weathered or overburden or regolith aquifer (ii) the fractured basement rock aquifer (iii) the alluvium aquifer and (iv) the fluvio-volcanic aquifer. The overburden or regolith aquifer is the main aquifer in the study area which provides water to about 95% of the population via hand-dug wells. The aquifer is unconfined. It is discontinuous due to the rocky nature of the area. It is generally clayey. It is porous but not very permeable. The water table ranges from less than 3m in the rainy season to a maximum of 10m in the dry season. The younger granite in the study area is characterized by a pronounced set of open joints which show a persistent northerly trend and contain a lot of water. As a result shallow ground water occurs almost every where in the decomposed zone (regolith aquifer) overlying the fresh rock. This is extremely developed for domestic purposes by means of numerous hand-dug wells.\r\n\r\nThe electrical resistivity survey carried out at 16 locations in the area shows that the basement rocks of Jos appear to be highly weathered and fractured hence, the area has high water potential. The survey also shows that the depth to the probable aquiferous layer varies between 9.4m and 42. 5m. Since the basement in the study area is shallow and in most cases fractured, contaminants/leachates could easily find their way to pollute the ground water. \r\n\r\nThe waters in the wells and streams of Jos town and its surroundings villages are dominantly calcium bicarbonate (Ca-HCO3) and sodium chloride bicarbonate (Na-Cl-HCO3) waters. This is because of the dominance of Ca++, Cl-, Na+ and HCO3- ions in the waters. \r\n\r\nThe regolith aquifers in the surrounding villages and some parts of Jos town (like the G. R. A and millionaires quarters) show relatively low mineral content (TDS of 4.83 to 169 ppm) while concentrations in excess of 958 ppm occur within the congested parts of Jos town where land surface derived wastes contribute to the excess. \r\n\r\n94% of the water samples are slightly acidic with the pH range of 5.1 - 6.9 while 6% of samples are slightly alkaline with the pH range of 7.1 - 8.8. The moderately low pH values (i.e. 5.1 - 6.9) or the slightly acidic nature of the samples may be due to the clay rich nature of the overburden weathered sediments of the basement rocks. The pH values of water samples in the study area (i.e. 5.1 - 7.88) have nearly fallen within the permissible range for drinking water recommended by WHO, NAFDAC and NPDWR (USA) which are 7.0 - 8.5, 6.5 - 8.5 and 6.5 - 8.5 respectively. Therefore, in terms of pH, the waters in the regolith aquifers in the study area are good for drinking, washing and cooking. \r\n\r\nThe amount of all the cations and anions present in the waters of all the hand-dug wells and streams studied cannot pose any problem, as regards drinking washing, bathing and other domestic uses when compared with the WHO, NAFDAC and NPDWR (USA) standards for drinking water. The waters are also free from deleterious metals like copper and arsenic. The waters that contain high total dissolved solids in the study area were found to contain a lot chloride and nitrate. The chloride is in excess of 172 mg/liter at location 282 (Dodo Street) and the Nitrate is in excess of 43 mg/liter at location 289 (Abba Na Shehu Street). This is due to the leachates from the numerous waste dumps around as confirmed by the medium permeability of the 4 soil samples collected from the bottoms of 4 refuse dumps in this area. The presence of nitrates in all the samples is a sign of pollution from inorganic wastes and fertilizers used in the farms.\r\n\r\nGenerally, the levels of faecal pollution in the well waters of Jos town and the surrounding villages are high. This could be connected to the (i) siting of wells near pit latrines or septic tanks or refuse damps; (ii) using contaminated containers to fetch water; (iii) throwing of containers used for fetching water on the ground near the wells when not in use; (iv) washing dishes near the wells (v) leaving the wells open when not in use; (v) presence of animals and chickens near the well.\r\nThe study area is between Latitudes 080 46' - 090 00'E and Longitudes 090 48' - 10 02'N and covers an area of about 635km2. The area covers about 5 local governments: Jos North, Jos South, Jos East, Bassa and some parts of Toro Local Government in Bauchi state. \r\n\r\nThe topography of the area is virtually undulating. The undulations are due to the rocky nature of the terrain and several water paths that follow the basement structure. The area is covered with high relief older granite plutons and younger granite ring complexes.\r\n\r\nThe geology of this area can be divided into six major lithological groups: (i) the precambrian migmatites and granite gneisses of the basement complex covering an area of about 97km2 (i.e. 15%) in the Central and Northern parts of the map; (ii) the pan-African older granites comprising of coarse porphyritic biotite and biotite hornblende granite and fine grained biotite granite occupying an area of about 83km2 (i.e. 13%) in the Western margin and Central part of the map; (iii) the Jurassic younger granite series comprising of granite and porphyries occupying an area of about 349km2 (i.e. 55%) in the Central, South East, North West and North Eastern parts of the map; (iv) the late cretaceous older basalts occupying an area of about 25km2 (i.e. 4%) in the South-Western and North Western parts of the map (v) the late tertiary/quartenary newer basalts occupying an area of about 36km2 (i.e. 10%) in the Central part of the map; and (vi) the Neogene sediments (Alluvium) occupying an area of about 25km2 (i.e. 4%) along the rivers in the entire area.\r\n\r\nStreams, rivers, springs and mining ponds provide the surface water resources of the area. The major Rivers in the area are River Bauna, River Dilimi, River Tilden Fulani, River Rukuba, River Gell and Shen River. The drainage pattern of all the rivers and streams in the area is controlled by chains of mountains and hills of high relief on the Jos Plateau. \r\n \r\nGroundwater in this area occurs in 4 different aquifer types: (i) the weathered or overburden or regolith aquifer (ii) the fractured basement rock aquifer (iii) the alluvium aquifer and (iv) the fluvio-volcanic aquifer. The overburden or regolith aquifer is the main aquifer in the study area which provides water to about 95% of the population via hand-dug wells. The aquifer is unconfined. It is discontinuous due to the rocky nature of the area. It is generally clayey. It is porous but not very permeable. The water table ranges from less than 3m in the rainy season to a maximum of 10m in the dry season. The younger granite in the study area is characterized by a pronounced set of open joints which show a persistent northerly trend and contain a lot of water. As a result shallow ground water occurs almost every where in the decomposed zone (regolith aquifer) overlying the fresh rock. This is extremely developed for domestic purposes by means of numerous hand-dug wells.\r\n\r\nThe electrical resistivity survey carried out at 16 locations in the area shows that the basement rocks of Jos appear to be highly weathered and fractured hence, the area has high water potential. The survey also shows that the depth to the probable aquiferous layer varies between 9.4m and 42. 5m. Since the basement in the study area is shallow and in most cases fractured, contaminants/leachates could easily find their way to pollute the ground water. \r\n\r\nThe waters in the wells and streams of Jos town and its surroundings villages are dominantly calcium bicarbonate (Ca-HCO3) and sodium chloride bicarbonate (Na-Cl-HCO3) waters. This is because of the dominance of Ca++, Cl-, Na+ and HCO3- ions in the waters. \r\n\r\nThe regolith aquifers in the surrounding villages and some parts of Jos town (like the G. R. A and millionaires quarters) show relatively low mineral content (TDS of 4.83 to 169 ppm) while concentrations in excess of 958 ppm occur within the congested parts of Jos town where land surface derived wastes contribute to the excess. \r\n\r\n94% of the water samples are slightly acidic with the pH range of 5.1 - 6.9 while 6% of samples are slightly alkaline with the pH range of 7.1 - 8.8. The moderately low pH values (i.e. 5.1 - 6.9) or the slightly acidic nature of the samples may be due to the clay rich nature of the overburden weathered sediments of the basement rocks. The pH values of water samples in the study area (i.e. 5.1 - 7.88) have nearly fallen within the permissible range for drinking water recommended by WHO, NAFDAC and NPDWR (USA) which are 7.0 - 8.5, 6.5 - 8.5 and 6.5 - 8.5 respectively. Therefore, in terms of pH, the waters in the regolith aquifers in the study area are good for drinking, washing and cooking. \r\n\r\nThe amount of all the cations and anions present in the waters of all the hand-dug wells and streams studied cannot pose any problem, as regards drinking washing, bathing and other domestic uses when compared with the WHO, NAFDAC and NPDWR (USA) standards for drinking water. The waters are also free from deleterious metals like copper and arsenic. The waters that contain high total dissolved solids in the study area were found to contain a lot chloride and nitrate. The chloride is in excess of 172 mg/liter at location 282 (Dodo Street) and the Nitrate is in excess of 43 mg/liter at location 289 (Abba Na Shehu Street). This is due to the leachates from the numerous waste dumps around as confirmed by the medium permeability of the 4 soil samples collected from the bottoms of 4 refuse dumps in this area. The presence of nitrates in all the samples is a sign of pollution from inorganic wastes and fertilizers used in the farms.\r\n\r\nGenerally, the levels of faecal pollution in the well waters of Jos town and the surrounding villages are high. This could be connected to the (i) siting of wells near pit latrines or septic tanks or refuse damps; (ii) using contaminated containers to fetch water; (iii) throwing of containers used for fetching water on the ground near the wells when not in use; (iv) washing dishes near the wells (v) leaving the wells open when not in use; (v) presence of animals and chickens near the well.\r\nThe study area is between Latitudes 080 46' - 090 00'E and Longitudes 090 48' - 10 02'N and covers an area of about 635km2. The area covers about 5 local governments: Jos North, Jos South, Jos East, Bassa and some parts of Toro Local Government in Bauchi state. \r\n\r\nThe topography of the area is virtually undulating. The undulations are due to the rocky nature of the terrain and several water paths that follow the basement structure. The area is covered with high relief older granite plutons and younger granite ring complexes.\r\n\r\nThe geology of this area can be divided into six major lithological groups: (i) the precambrian migmatites and granite gneisses of the basement complex covering an area of about 97km2 (i.e. 15%) in the Central and Northern parts of the map; (ii) the pan-African older granites comprising of coarse porphyritic biotite and biotite hornblende granite and fine grained biotite granite occupying an area of about 83km2 (i.e. 13%) in the Western margin and Central part of the map; (iii) the Jurassic younger granite series comprising of granite and porphyries occupying an area of about 349km2 (i.e. 55%) in the Central, South East, North West and North Eastern parts of the map; (iv) the late cretaceous older basalts occupying an area of about 25km2 (i.e. 4%) in the South-Western and North Western parts of the map (v) the late tertiary/quartenary newer basalts occupying an area of about 36km2 (i.e. 10%) in the Central part of the map; and (vi) the Neogene sediments (Alluvium) occupying an area of about 25km2 (i.e. 4%) along the rivers in the entire area.The Federal Government of Nigeria should formulate a stringent regulation to force the states Governments to always design, construct and monitor landfills in their states and also to force their people to take the refuse collected to the designated landfills.\r\n\r\nStreams, rivers, springs and mining ponds provide the surface water resources of the area. The major Rivers in the area are River Bauna, River Dilimi, River Tilden Fulani, River Rukuba, River Gell and Shen River. The drainage pattern of all the rivers and streams in the area is controlled by chains of mountains and hills of high relief on the Jos Plateau. \r\n \r\nGroundwater in this area occurs in 4 different aquifer types: (i) the weathered or overburden or regolith aquifer (ii) the fractured basement rock aquifer (iii) the alluvium aquifer and (iv) the fluvio-volcanic aquifer. The overburden or regolith aquifer is the main aquifer in the study area which provides water to about 95% of the population via hand-dug wells. The aquifer is unconfined. It is discontinuous due to the rocky nature of the area. It is generally clayey. It is porous but not very permeable. The water table ranges from less than 3m in the rainy season to a maximum of 10m in the dry season. The younger granite in the study area is characterized by a pronounced set of open joints which show a persistent northerly trend and contain a lot of water. As a result shallow ground water occurs almost every where in the decomposed zone (regolith aquifer) overlying the fresh rock. This is extremely developed for domestic purposes by means of numerous hand-dug wells.\r\n\r\nThe electrical resistivity survey carried out at 16 locations in the area shows that the basement rocks of Jos appear to be highly weathered and fractured hence, the area has high water potential. The survey also shows that the depth to the probable aquiferous layer varies between 9.4m and 42. 5m. Since the basement in the study area is shallow and in most cases fractured, contaminants/leachates could easily find their way to pollute the ground water. \r\n\r\nThe waters in the wells and streams of Jos town and its surroundings villages are dominantly calcium bicarbonate (Ca-HCO3) and sodium chloride bicarbonate (Na-Cl-HCO3) waters. This is because of the dominance of Ca++, Cl-, Na+ and HCO3- ions in the waters. \r\n\r\nThe regolith aquifers in the surrounding villages and some parts of Jos town (like the G. R. A and millionaires quarters) show relatively low mineral content (TDS of 4.83 to 169 ppm) while concentrations in excess of 958 ppm occur within the congested parts of Jos town where land surface derived wastes contribute to the excess. \r\n\r\n94% of the water samples are slightly acidic with the pH range of 5.1 - 6.9 while 6% of samples are slightly alkaline with the pH range of 7.1 - 8.8. The moderately low pH values (i.e. 5.1 - 6.9) or the slightly acidic nature of the samples may be due to the clay rich nature of the overburden weathered sediments of the basement rocks. The pH values of water samples in the study area (i.e. 5.1 - 7.88) have nearly fallen within the permissible range for drinking water recommended by WHO, NAFDAC and NPDWR (USA) which are 7.0 - 8.5, 6.5 - 8.5 and 6.5 - 8.5 respectively. Therefore, in terms of pH, the waters in the regolith aquifers in the study area are good for drinking, washing and cooking. \r\n\r\nThe amount of all the cations and anions present in the waters of all the hand-dug wells and streams studied cannot pose any problem, as regards drinking washing, bathing and other domestic uses when compared with the WHO, NAFDAC and NPDWR (USA) standards for drinking water. The waters are also free from deleterious metals like copper and arsenic. The waters that contain high total dissolved solids in the study area were found to contain a lot chloride and nitrate. The chloride is in excess of 172 mg/liter at location 282 (Dodo Street) and the Nitrate is in excess of 43 mg/liter at location 289 (Abba Na Shehu Street). This is due to the leachates from the numerous waste dumps around as confirmed by the medium permeability of the 4 soil samples collected from the bottoms of 4 refuse dumps in this area. The presence of nitrates in all the samples is a sign of pollution from inorganic wastes and fertilizers used in the farms.\r\n\r\nGenerally, the levels of faecal pollution in the well waters of Jos town and the surrounding villages are high. This could be connected to the (i) siting of wells near pit latrines or septic tanks or refuse damps; (ii) using contaminated containers to fetch water; (iii) throwing of containers used for fetching water on the ground near the wells when not in use; (iv) washing dishes near the wells (v) leaving the wells open when not in use; (v) presence of animals and chickens near the well.\r\nThe study area is between Latitudes 080 46' - 090 00'E and Longitudes 090 48' - 10 02'N and covers an area of about 635km2. The area covers about 5 local governments: Jos North, Jos South, Jos East, Bassa and some parts of Toro Local Government in Bauchi state. \r\n\r\nThe topography of the area is virtually undulating. The undulations are due to the rocky nature of the terrain and several water paths that follow the basement structure. The area is covered with high relief older granite plutons and younger granite ring complexes.\r\n\r\nThe geology of this area can be divided into six major lithological groups: (i) the precambrian migmatites and granite gneisses of the basement complex covering an area of about 97km2 (i.e. 15%) in the Central and Northern parts of the map; (ii) the pan-African older granites comprising of coarse porphyritic biotite and biotite hornblende granite and fine grained biotite granite occupying an area of about 83km2 (i.e. 13%) in the Western margin and Central part of the map; (iii) the Jurassic younger granite series comprising of granite and porphyries occupying an area of about 349km2 (i.e. 55%) in the Central, South East, North West and North Eastern parts of the map; (iv) the late cretaceous older basalts occupying an area of about 25km2 (i.e. 4%) in the South-Western and North Western parts of the map (v) the late tertiary/quartenary newer basalts occupying an area of about 36km2 (i.e. 10%) in the Central part of the map; and (vi) the Neogene sediments (Alluvium) occupying an area of about 25km2 (i.e. 4%) along the rivers in the entire area.\r\n\r\nStreams, rivers, springs and mining ponds provide the surface water resources of the area. The major Rivers in the area are River Bauna, River Dilimi, River Tilden Fulani, River Rukuba, River Gell and Shen River. The drainage pattern of all the rivers and streams in the area is controlled by chains of mountains and hills of high relief on the Jos Plateau. \r\n \r\nGroundwater in this area occurs in 4 different aquifer types: (i) the weathered or overburden or regolith aquifer (ii) the fractured basement rock aquifer (iii) the alluvium aquifer and (iv) the fluvio-volcanic aquifer. The overburden or regolith aquifer is the main aquifer in the study area which provides water to about 95% of the population via hand-dug wells. The aquifer is unconfined. It is discontinuous due to the rocky nature of the area. It is generally clayey. It is porous but not very permeable. The water table ranges from less than 3m in the rainy season to a maximum of 10m in the dry season. The younger granite in the study area is characterized by a pronounced set of open joints which show a persistent northerly trend and contain a lot of water. As a result shallow ground water occurs almost every where in the decomposed zone (regolith aquifer) overlying the fresh rock. This is extremely developed for domestic purposes by means of numerous hand-dug wells.\r\n\r\nThe electrical resistivity survey carried out at 16 locations in the area shows that the basement rocks of Jos appear to be highly weathered and fractured hence, the area has high water potential. The survey also shows that the depth to the probable aquiferous layer varies between 9.4m and 42. 5m. Since the basement in the study area is shallow and in most cases fractured, contaminants/leachates could easily find their way to pollute the ground water. \r\n\r\nThe waters in the wells and streams of Jos town and its surroundings villages are dominantly calcium bicarbonate (Ca-HCO3) and sodium chloride bicarbonate (Na-Cl-HCO3) waters. This is because of the dominance of Ca++, Cl-, Na+ and HCO3- ions in the waters. \r\n\r\nThe regolith aquifers in the surrounding villages and some parts of Jos town (like the G. R. A and millionaires quarters) show relatively low mineral content (TDS of 4.83 to 169 ppm) while concentrations in excess of 958 ppm occur within the congested parts of Jos town where land surface derived wastes contribute to the excess. \r\n\r\n94% of the water samples are slightly acidic with the pH range of 5.1 - 6.9 while 6% of samples are slightly alkaline with the pH range of 7.1 - 8.8. The moderately low pH values (i.e. 5.1 - 6.9) or the slightly acidic nature of the samples may be due to the clay rich nature of the overburden weathered sediments of the basement rocks. The pH values of water samples in the study area (i.e. 5.1 - 7.88) have nearly fallen within the permissible range for drinking water recommended by WHO, NAFDAC and NPDWR (USA) which are 7.0 - 8.5, 6.5 - 8.5 and 6.5 - 8.5 respectively. Therefore, in terms of pH, the waters in the regolith aquifers in the study area are good for drinking, washing and cooking. \r\n\r\nThe amount of all the cations and anions present in the waters of all the hand-dug wells and streams studied cannot pose any problem, as regards drinking washing, bathing and other domestic uses when compared with the WHO, NAFDAC and NPDWR (USA) standards for drinking water. The waters are also free from deleterious metals like copper and arsenic. The waters that contain high total dissolved solids in the study area were found to contain a lot chloride and nitrate. The chloride is in excess of 172 mg/liter at location 282 (Dodo Street) and the Nitrate is in excess of 43 mg/liter at location 289 (Abba Na Shehu Street). This is due to the leachates from the numerous waste dumps around as confirmed by the medium permeability of the 4 soil samples collected from the bottoms of 4 refuse dumps in this area. The presence of nitrates in all the samples is a sign of pollution from inorganic wastes and fertilizers used in the farms.\r\n\r\nGenerally, the levels of faecal pollution in the well waters of Jos town and the surrounding villages are high. This could be connected to the (i) siting of wells near pit latrines or septic tanks or refuse damps; (ii) using contaminated containers to fetch water; (iii) throwing of containers used for fetching water on the ground near the wells when not in use; (iv) washing dishes near the wells (v) leaving the wells open when not in use; (v) presence of animals and chickens near the well.\r\n
Simple
- Date (Publication)
- 2006
- Presentation form
- Digital document
- Status
- Completed
- Keywords
-
-
Geology, Groundwater contamination, Rock-water interaction, Water Level Elevation, Elemental Concentration.
-
- Other constraints
-
Internal only
- Denominator
- 50000
- Language
- English
- Topic category
-
- Description
-
Nigeria, Plateau State, Jos
- Reference system identifier
- 4326
- Distribution format
-
-
.doc
()
-
.doc
()
- Name of the resource
-
Adverse effects of waste dumps on groundwater quality in Jos and environs
- Description
-
The study area is between Latitudes 080 46' - 090 00'E and Longitudes 090 48' - 10 02'N and covers an area of about 635km2. The area covers about 5 local governments: Jos North, Jos South, Jos East, Bassa and some parts of Toro Local Government in Bauchi state. \r\n\r\nThe topography of the area is virtually undulating. The undulations are due to the rocky nature of the terrain and several water paths that follow the basement structure. The area is covered with high relief older granite plutons and younger granite ring complexes.\r\n\r\nThe geology of this area can be divided into six major lithological groups: (i) the precambrian migmatites and granite gneisses of the basement complex covering an area of about 97km2 (i.e. 15%) in the Central and Northern parts of the map; (ii) the pan-African older granites comprising of coarse porphyritic biotite and biotite hornblende granite and fine grained biotite granite occupying an area of about 83km2 (i.e. 13%) in the Western margin and Central part of the map; (iii) the Jurassic younger granite series comprising of granite and porphyries occupying an area of about 349km2 (i.e. 55%) in the Central, South East, North West and North Eastern parts of the map; (iv) the late cretaceous older basalts occupying an area of about 25km2 (i.e. 4%) in the South-Western and North Western parts of the map (v) the late tertiary/quartenary newer basalts occupying an area of about 36km2 (i.e. 10%) in the Central part of the map; and (vi) the Neogene sediments (Alluvium) occupying an area of about 25km2 (i.e. 4%) along the rivers in the entire area.\r\n\r\nStreams, rivers, springs and mining ponds provide the surface water resources of the area. The major Rivers in the area are River Bauna, River Dilimi, River Tilden Fulani, River Rukuba, River Gell and Shen River. The drainage pattern of all the rivers and streams in the area is controlled by chains of mountains and hills of high relief on the Jos Plateau. \r\n \r\nGroundwater in this area occurs in 4 different aquifer types: (i) the weathered or overburden or regolith aquifer (ii) the fractured basement rock aquifer (iii) the alluvium aquifer and (iv) the fluvio-volcanic aquifer. The overburden or regolith aquifer is the main aquifer in the study area which provides water to about 95% of the population via hand-dug wells. The aquifer is unconfined. It is discontinuous due to the rocky nature of the area. It is generally clayey. It is porous but not very permeable. The water table ranges from less than 3m in the rainy season to a maximum of 10m in the dry season. The younger granite in the study area is characterized by a pronounced set of open joints which show a persistent northerly trend and contain a lot of water. As a result shallow ground water occurs almost every where in the decomposed zone (regolith aquifer) overlying the fresh rock. This is extremely developed for domestic purposes by means of numerous hand-dug wells.\r\n\r\nThe electrical resistivity survey carried out at 16 locations in the area shows that the basement rocks of Jos appear to be highly weathered and fractured hence, the area has high water potential. The survey also shows that the depth to the probable aquiferous layer varies between 9.4m and 42. 5m. Since the basement in the study area is shallow and in most cases fractured, contaminants/leachates could easily find their way to pollute the ground water. \r\n\r\nThe waters in the wells and streams of Jos town and its surroundings villages are dominantly calcium bicarbonate (Ca-HCO3) and sodium chloride bicarbonate (Na-Cl-HCO3) waters. This is because of the dominance of Ca++, Cl-, Na+ and HCO3- ions in the waters. \r\n\r\nThe regolith aquifers in the surrounding villages and some parts of Jos town (like the G. R. A and millionaires quarters) show relatively low mineral content (TDS of 4.83 to 169 ppm) while concentrations in excess of 958 ppm occur within the congested parts of Jos town where land surface derived wastes contribute to the excess. \r\n\r\n94% of the water samples are slightly acidic with the pH range of 5.1 - 6.9 while 6% of samples are slightly alkaline with the pH range of 7.1 - 8.8. The moderately low pH values (i.e. 5.1 - 6.9) or the slightly acidic nature of the samples may be due to the clay rich nature of the overburden weathered sediments of the basement rocks. The pH values of water samples in the study area (i.e. 5.1 - 7.88) have nearly fallen within the permissible range for drinking water recommended by WHO, NAFDAC and NPDWR (USA) which are 7.0 - 8.5, 6.5 - 8.5 and 6.5 - 8.5 respectively. Therefore, in terms of pH, the waters in the regolith aquifers in the study area are good for drinking, washing and cooking. \r\n\r\nThe amount of all the cations and anions present in the waters of all the hand-dug wells and streams studied cannot pose any problem, as regards drinking washing, bathing and other domestic uses when compared with the WHO, NAFDAC and NPDWR (USA) standards for drinking water. The waters are also free from deleterious metals like copper and arsenic. The waters that contain high total dissolved solids in the study area were found to contain a lot chloride and nitrate. The chloride is in excess of 172 mg/liter at location 282 (Dodo Street) and the Nitrate is in excess of 43 mg/liter at location 289 (Abba Na Shehu Street). This is due to the leachates from the numerous waste dumps around as confirmed by the medium permeability of the 4 soil samples collected from the bottoms of 4 refuse dumps in this area. The presence of nitrates in all the samples is a sign of pollution from inorganic wastes and fertilizers used in the farms.\r\n\r\nGenerally, the levels of faecal pollution in the well waters of Jos town and the surrounding villages are high. This could be connected to the (i) siting of wells near pit latrines or septic tanks or refuse damps; (ii) using contaminated containers to fetch water; (iii) throwing of containers used for fetching water on the ground near the wells when not in use; (iv) washing dishes near the wells (v) leaving the wells open when not in use; (v) presence of animals and chickens near the well.\r\nThe study area is between Latitudes 080 46' - 090 00'E and Longitudes 090 48' - 10 02'N and covers an area of about 635km2. The area covers about 5 local governments: Jos North, Jos South, Jos East, Bassa and some parts of Toro Local Government in Bauchi state. \r\n\r\nThe topography of the area is virtually undulating. The undulations are due to the rocky nature of the terrain and several water paths that follow the basement structure. The area is covered with high relief older granite plutons and younger granite ring complexes.\r\n\r\nThe geology of this area can be divided into six major lithological groups: (i) the precambrian migmatites and granite gneisses of the basement complex covering an area of about 97km2 (i.e. 15%) in the Central and Northern parts of the map; (ii) the pan-African older granites comprising of coarse porphyritic biotite and biotite hornblende granite and fine grained biotite granite occupying an area of about 83km2 (i.e. 13%) in the Western margin and Central part of the map; (iii) the Jurassic younger granite series comprising of granite and porphyries occupying an area of about 349km2 (i.e. 55%) in the Central, South East, North West and North Eastern parts of the map; (iv) the late cretaceous older basalts occupying an area of about 25km2 (i.e. 4%) in the South-Western and North Western parts of the map (v) the late tertiary/quartenary newer basalts occupying an area of about 36km2 (i.e. 10%) in the Central part of the map; and (vi) the Neogene sediments (Alluvium) occupying an area of about 25km2 (i.e. 4%) along the rivers in the entire area.\r\n\r\nStreams, rivers, springs and mining ponds provide the surface water resources of the area. The major Rivers in the area are River Bauna, River Dilimi, River Tilden Fulani, River Rukuba, River Gell and Shen River. The drainage pattern of all the rivers and streams in the area is controlled by chains of mountains and hills of high relief on the Jos Plateau. \r\n \r\nGroundwater in this area occurs in 4 different aquifer types: (i) the weathered or overburden or regolith aquifer (ii) the fractured basement rock aquifer (iii) the alluvium aquifer and (iv) the fluvio-volcanic aquifer. The overburden or regolith aquifer is the main aquifer in the study area which provides water to about 95% of the population via hand-dug wells. The aquifer is unconfined. It is discontinuous due to the rocky nature of the area. It is generally clayey. It is porous but not very permeable. The water table ranges from less than 3m in the rainy season to a maximum of 10m in the dry season. The younger granite in the study area is characterized by a pronounced set of open joints which show a persistent northerly trend and contain a lot of water. As a result shallow ground water occurs almost every where in the decomposed zone (regolith aquifer) overlying the fresh rock. This is extremely developed for domestic purposes by means of numerous hand-dug wells.\r\n\r\nThe electrical resistivity survey carried out at 16 locations in the area shows that the basement rocks of Jos appear to be highly weathered and fractured hence, the area has high water potential. The survey also shows that the depth to the probable aquiferous layer varies between 9.4m and 42. 5m. Since the basement in the study area is shallow and in most cases fractured, contaminants/leachates could easily find their way to pollute the ground water. \r\n\r\nThe waters in the wells and streams of Jos town and its surroundings villages are dominantly calcium bicarbonate (Ca-HCO3) and sodium chloride bicarbonate (Na-Cl-HCO3) waters. This is because of the dominance of Ca++, Cl-, Na+ and HCO3- ions in the waters. \r\n\r\nThe regolith aquifers in the surrounding villages and some parts of Jos town (like the G. R. A and millionaires quarters) show relatively low mineral content (TDS of 4.83 to 169 ppm) while concentrations in excess of 958 ppm occur within the congested parts of Jos town where land surface derived wastes contribute to the excess. \r\n\r\n94% of the water samples are slightly acidic with the pH range of 5.1 - 6.9 while 6% of samples are slightly alkaline with the pH range of 7.1 - 8.8. The moderately low pH values (i.e. 5.1 - 6.9) or the slightly acidic nature of the samples may be due to the clay rich nature of the overburden weathered sediments of the basement rocks. The pH values of water samples in the study area (i.e. 5.1 - 7.88) have nearly fallen within the permissible range for drinking water recommended by WHO, NAFDAC and NPDWR (USA) which are 7.0 - 8.5, 6.5 - 8.5 and 6.5 - 8.5 respectively. Therefore, in terms of pH, the waters in the regolith aquifers in the study area are good for drinking, washing and cooking. \r\n\r\nThe amount of all the cations and anions present in the waters of all the hand-dug wells and streams studied cannot pose any problem, as regards drinking washing, bathing and other domestic uses when compared with the WHO, NAFDAC and NPDWR (USA) standards for drinking water. The waters are also free from deleterious metals like copper and arsenic. The waters that contain high total dissolved solids in the study area were found to contain a lot chloride and nitrate. The chloride is in excess of 172 mg/liter at location 282 (Dodo Street) and the Nitrate is in excess of 43 mg/liter at location 289 (Abba Na Shehu Street). This is due to the leachates from the numerous waste dumps around as confirmed by the medium permeability of the 4 soil samples collected from the bottoms of 4 refuse dumps in this area. The presence of nitrates in all the samples is a sign of pollution from inorganic wastes and fertilizers used in the farms.\r\n\r\nGenerally, the levels of faecal pollution in the well waters of Jos town and the surrounding villages are high. This could be connected to the (i) siting of wells near pit latrines or septic tanks or refuse damps; (ii) using contaminated containers to fetch water; (iii) throwing of containers used for fetching water on the ground near the wells when not in use; (iv) washing dishes near the wells (v) leaving the wells open when not in use; (v) presence of animals and chickens near the well.\r\nThe study area is between Latitudes 080 46' - 090 00'E and Longitudes 090 48' - 10 02'N and covers an area of about 635km2. The area covers about 5 local governments: Jos North, Jos South, Jos East, Bassa and some parts of Toro Local Government in Bauchi state. \r\n\r\nThe topography of the area is virtually undulating. The undulations are due to the rocky nature of the terrain and several water paths that follow the basement structure. The area is covered with high relief older granite plutons and younger granite ring complexes.\r\n\r\nThe geology of this area can be divided into six major lithological groups: (i) the precambrian migmatites and granite gneisses of the basement complex covering an area of about 97km2 (i.e. 15%) in the Central and Northern parts of the map; (ii) the pan-African older granites comprising of coarse porphyritic biotite and biotite hornblende granite and fine grained biotite granite occupying an area of about 83km2 (i.e. 13%) in the Western margin and Central part of the map; (iii) the Jurassic younger granite series comprising of granite and porphyries occupying an area of about 349km2 (i.e. 55%) in the Central, South East, North West and North Eastern parts of the map; (iv) the late cretaceous older basalts occupying an area of about 25km2 (i.e. 4%) in the South-Western and North Western parts of the map (v) the late tertiary/quartenary newer basalts occupying an area of about 36km2 (i.e. 10%) in the Central part of the map; and (vi) the Neogene sediments (Alluvium) occupying an area of about 25km2 (i.e. 4%) along the rivers in the entire area.The Federal Government of Nigeria should formulate a stringent regulation to force the states Governments to always design, construct and monitor landfills in their states and also to force their people to take the refuse collected to the designated landfills.\r\n\r\nStreams, rivers, springs and mining ponds provide the surface water resources of the area. The major Rivers in the area are River Bauna, River Dilimi, River Tilden Fulani, River Rukuba, River Gell and Shen River. The drainage pattern of all the rivers and streams in the area is controlled by chains of mountains and hills of high relief on the Jos Plateau. \r\n \r\nGroundwater in this area occurs in 4 different aquifer types: (i) the weathered or overburden or regolith aquifer (ii) the fractured basement rock aquifer (iii) the alluvium aquifer and (iv) the fluvio-volcanic aquifer. The overburden or regolith aquifer is the main aquifer in the study area which provides water to about 95% of the population via hand-dug wells. The aquifer is unconfined. It is discontinuous due to the rocky nature of the area. It is generally clayey. It is porous but not very permeable. The water table ranges from less than 3m in the rainy season to a maximum of 10m in the dry season. The younger granite in the study area is characterized by a pronounced set of open joints which show a persistent northerly trend and contain a lot of water. As a result shallow ground water occurs almost every where in the decomposed zone (regolith aquifer) overlying the fresh rock. This is extremely developed for domestic purposes by means of numerous hand-dug wells.\r\n\r\nThe electrical resistivity survey carried out at 16 locations in the area shows that the basement rocks of Jos appear to be highly weathered and fractured hence, the area has high water potential. The survey also shows that the depth to the probable aquiferous layer varies between 9.4m and 42. 5m. Since the basement in the study area is shallow and in most cases fractured, contaminants/leachates could easily find their way to pollute the ground water. \r\n\r\nThe waters in the wells and streams of Jos town and its surroundings villages are dominantly calcium bicarbonate (Ca-HCO3) and sodium chloride bicarbonate (Na-Cl-HCO3) waters. This is because of the dominance of Ca++, Cl-, Na+ and HCO3- ions in the waters. \r\n\r\nThe regolith aquifers in the surrounding villages and some parts of Jos town (like the G. R. A and millionaires quarters) show relatively low mineral content (TDS of 4.83 to 169 ppm) while concentrations in excess of 958 ppm occur within the congested parts of Jos town where land surface derived wastes contribute to the excess. \r\n\r\n94% of the water samples are slightly acidic with the pH range of 5.1 - 6.9 while 6% of samples are slightly alkaline with the pH range of 7.1 - 8.8. The moderately low pH values (i.e. 5.1 - 6.9) or the slightly acidic nature of the samples may be due to the clay rich nature of the overburden weathered sediments of the basement rocks. The pH values of water samples in the study area (i.e. 5.1 - 7.88) have nearly fallen within the permissible range for drinking water recommended by WHO, NAFDAC and NPDWR (USA) which are 7.0 - 8.5, 6.5 - 8.5 and 6.5 - 8.5 respectively. Therefore, in terms of pH, the waters in the regolith aquifers in the study area are good for drinking, washing and cooking. \r\n\r\nThe amount of all the cations and anions present in the waters of all the hand-dug wells and streams studied cannot pose any problem, as regards drinking washing, bathing and other domestic uses when compared with the WHO, NAFDAC and NPDWR (USA) standards for drinking water. The waters are also free from deleterious metals like copper and arsenic. The waters that contain high total dissolved solids in the study area were found to contain a lot chloride and nitrate. The chloride is in excess of 172 mg/liter at location 282 (Dodo Street) and the Nitrate is in excess of 43 mg/liter at location 289 (Abba Na Shehu Street). This is due to the leachates from the numerous waste dumps around as confirmed by the medium permeability of the 4 soil samples collected from the bottoms of 4 refuse dumps in this area. The presence of nitrates in all the samples is a sign of pollution from inorganic wastes and fertilizers used in the farms.\r\n\r\nGenerally, the levels of faecal pollution in the well waters of Jos town and the surrounding villages are high. This could be connected to the (i) siting of wells near pit latrines or septic tanks or refuse damps; (ii) using contaminated containers to fetch water; (iii) throwing of containers used for fetching water on the ground near the wells when not in use; (iv) washing dishes near the wells (v) leaving the wells open when not in use; (v) presence of animals and chickens near the well.\r\nThe study area is between Latitudes 080 46' - 090 00'E and Longitudes 090 48' - 10 02'N and covers an area of about 635km2. The area covers about 5 local governments: Jos North, Jos South, Jos East, Bassa and some parts of Toro Local Government in Bauchi state. \r\n\r\nThe topography of the area is virtually undulating. The undulations are due to the rocky nature of the terrain and several water paths that follow the basement structure. The area is covered with high relief older granite plutons and younger granite ring complexes.\r\n\r\nThe geology of this area can be divided into six major lithological groups: (i) the precambrian migmatites and granite gneisses of the basement complex covering an area of about 97km2 (i.e. 15%) in the Central and Northern parts of the map; (ii) the pan-African older granites comprising of coarse porphyritic biotite and biotite hornblende granite and fine grained biotite granite occupying an area of about 83km2 (i.e. 13%) in the Western margin and Central part of the map; (iii) the Jurassic younger granite series comprising of granite and porphyries occupying an area of about 349km2 (i.e. 55%) in the Central, South East, North West and North Eastern parts of the map; (iv) the late cretaceous older basalts occupying an area of about 25km2 (i.e. 4%) in the South-Western and North Western parts of the map (v) the late tertiary/quartenary newer basalts occupying an area of about 36km2 (i.e. 10%) in the Central part of the map; and (vi) the Neogene sediments (Alluvium) occupying an area of about 25km2 (i.e. 4%) along the rivers in the entire area.\r\n\r\nStreams, rivers, springs and mining ponds provide the surface water resources of the area. The major Rivers in the area are River Bauna, River Dilimi, River Tilden Fulani, River Rukuba, River Gell and Shen River. The drainage pattern of all the rivers and streams in the area is controlled by chains of mountains and hills of high relief on the Jos Plateau. \r\n \r\nGroundwater in this area occurs in 4 different aquifer types: (i) the weathered or overburden or regolith aquifer (ii) the fractured basement rock aquifer (iii) the alluvium aquifer and (iv) the fluvio-volcanic aquifer. The overburden or regolith aquifer is the main aquifer in the study area which provides water to about 95% of the population via hand-dug wells. The aquifer is unconfined. It is discontinuous due to the rocky nature of the area. It is generally clayey. It is porous but not very permeable. The water table ranges from less than 3m in the rainy season to a maximum of 10m in the dry season. The younger granite in the study area is characterized by a pronounced set of open joints which show a persistent northerly trend and contain a lot of water. As a result shallow ground water occurs almost every where in the decomposed zone (regolith aquifer) overlying the fresh rock. This is extremely developed for domestic purposes by means of numerous hand-dug wells.\r\n\r\nThe electrical resistivity survey carried out at 16 locations in the area shows that the basement rocks of Jos appear to be highly weathered and fractured hence, the area has high water potential. The survey also shows that the depth to the probable aquiferous layer varies between 9.4m and 42. 5m. Since the basement in the study area is shallow and in most cases fractured, contaminants/leachates could easily find their way to pollute the ground water. \r\n\r\nThe waters in the wells and streams of Jos town and its surroundings villages are dominantly calcium bicarbonate (Ca-HCO3) and sodium chloride bicarbonate (Na-Cl-HCO3) waters. This is because of the dominance of Ca++, Cl-, Na+ and HCO3- ions in the waters. \r\n\r\nThe regolith aquifers in the surrounding villages and some parts of Jos town (like the G. R. A and millionaires quarters) show relatively low mineral content (TDS of 4.83 to 169 ppm) while concentrations in excess of 958 ppm occur within the congested parts of Jos town where land surface derived wastes contribute to the excess. \r\n\r\n94% of the water samples are slightly acidic with the pH range of 5.1 - 6.9 while 6% of samples are slightly alkaline with the pH range of 7.1 - 8.8. The moderately low pH values (i.e. 5.1 - 6.9) or the slightly acidic nature of the samples may be due to the clay rich nature of the overburden weathered sediments of the basement rocks. The pH values of water samples in the study area (i.e. 5.1 - 7.88) have nearly fallen within the permissible range for drinking water recommended by WHO, NAFDAC and NPDWR (USA) which are 7.0 - 8.5, 6.5 - 8.5 and 6.5 - 8.5 respectively. Therefore, in terms of pH, the waters in the regolith aquifers in the study area are good for drinking, washing and cooking. \r\n\r\nThe amount of all the cations and anions present in the waters of all the hand-dug wells and streams studied cannot pose any problem, as regards drinking washing, bathing and other domestic uses when compared with the WHO, NAFDAC and NPDWR (USA) standards for drinking water. The waters are also free from deleterious metals like copper and arsenic. The waters that contain high total dissolved solids in the study area were found to contain a lot chloride and nitrate. The chloride is in excess of 172 mg/liter at location 282 (Dodo Street) and the Nitrate is in excess of 43 mg/liter at location 289 (Abba Na Shehu Street). This is due to the leachates from the numerous waste dumps around as confirmed by the medium permeability of the 4 soil samples collected from the bottoms of 4 refuse dumps in this area. The presence of nitrates in all the samples is a sign of pollution from inorganic wastes and fertilizers used in the farms.\r\n\r\nGenerally, the levels of faecal pollution in the well waters of Jos town and the surrounding villages are high. This could be connected to the (i) siting of wells near pit latrines or septic tanks or refuse damps; (ii) using contaminated containers to fetch water; (iii) throwing of containers used for fetching water on the ground near the wells when not in use; (iv) washing dishes near the wells (v) leaving the wells open when not in use; (v) presence of animals and chickens near the well.\r\n
- Function
- Download
- Statement
-
Inserted in the reports are the following maps (1:50,000): Geological map, Wet & Dry Seasons Water Table Elevation Contour maps, Location map, and Drainage map.