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==Groundwater in Africa==
==Groundwater in Africa==


Groundwater is an invaluable resource in Africa. Groundwater provides safe and reliable source drinking water for hundreds of millions of people across the continent; and supports food production and economic development through irrigation and livestock watering.
===Advantages and Limitations of Groundwater as a Water Resource===


Groundwater is an invaluable resource in Africa. Groundwater has many advantages as a water supply source, particularly where populations are still largely rural and demand is dispersed across large areas. Groundwater is found in most environments; is naturally protected from contamination and so usually needs no prior treatment; and with large volumes of natural storage in aquifers, it usually doesn't show significant seasonal variations in amount or quality, and is therefore more drought resistant than surface waters. It also lends itself well to the principles of community management - it can usually be found close to the point of demand, and can be developed incrementally, and often at relatively low cost.
However, groundwater can be vulnerable to over-abstraction and contamination, particularly with the growing ability to abstract large volumes of water, and with larger populations and the growing presence of a variety of pollutants.


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===Groundwater Occurrence in Africa===


How and where groundwater occurs depends primarily on '''geology'''; '''geomorphology/weathering'''; and '''rainfall''' (both current and historic). The interaction between these three factors gives rise to complex hydrogeological environments with countless variations in the quantity, quality, ease of access to and renewability of groundwater resources. Developing groundwater resources therefore depends on a good understanding on hydrogeology.


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Africa has huge diversity in geology, climate and hydrology, and as a result, the hydrogeology of Africa is hugely variable and challenging to characterise and understand.


''Groundwater has excellent natural microbiological quality, and generally has adequate chemical quality for most uses. However problems can arise from the chemistry of groundwater in some circumstances: for example, high sulphate from some types of weathered basement and mudstones; or excessive hardness in limestone aquifers or sandstones cemented with carbonate material. Minor and trace constituents, which make up about 1% of the solute content of natural groundwaters, can also sometimes lead to health problems or make the water unacceptable for human and animal consumption. For example, high fluoride in some volcanic aquifers; elevated iron and manganese where groundwaters are anoxic; high arsenic in some unconsolidated sediments; and a lack of iodine in aquifers far from the sea (MacDonald and Davies, 2001).


Groundwater has excellent natural microbiological quality, and generally has adequate chemical quality for most uses. However problems can arise from the chemistry of groundwater in some circumstances: for example, high sulphate from some types of weathered basement and mudstones; or excessive hardness in limestone aquifers or sandstones cemented with carbonate material. Minor and trace constituents, which make up about 1% of the solute content of natural groundwaters, can also sometimes lead to health problems or make the water unacceptable for human and animal consumption. For example, high fluoride in some volcanic aquifers; elevated iron and manganese where groundwaters are anoxic; high arsenic in some unconsolidated sediments; and a lack of iodine in aquifers far from the sea (MacDonald and Davies, 2001).


Groundwater is generally more resilient to short-term climate variability and less vulnerable to pollution than surface water sources. However, sustainable groundwater development requires a good understanding of the groundwater resource, in order to avoid overabstraction and environmental degradation. This will become more and more important in future, as pressure increases on Africa's groundwater resources because of growing population and increasing demands on water supplies - for domestic, agricultural (especially growing demand for irrigation) and industrial use.
===Understanding Groundwater Resources===


How and where groundwater occurs depends on many interacting factors. The most important of these are '''geology'''; '''geomorphology''' (including '''weathering'''); and '''climate''' (mainly '''rainfall''' and '''evapotranspiration'''). Spatial and temporal variations in these factors across Africa mean that hydrogeological environments are complex and variable, with very different aquifer properties and recharge. Understanding these factors, and how they interact, is necessary in order to properly characterise the groundwater resources in any one area.
The sustainable development of groundwater resources depends on a good understanding of where and how groundwater exists, and how it is recharged and renewed. This will become more and more important in future, as pressure increases on Africa's groundwater resources because of growing population and increasing demands on water supplies - for domestic, including growing urban populations; agricultural (especially growing demand for irrigation); and industrial use. This understanding requires sufficient robust information on groundwater, and people with skills in hydrogeology and sustainable development. However, in many parts of Africa, both groundwater information and skilled personnel are in short supply.


For many parts of Africa, there is a lack of information on groundwater. This may be because data aren't being collected - or haven't been in the past; or because data aren't easily avaialble or accessible. This makes it very difficult to assess the groundwater resources. It can lead to inappropriate groundwater development - such as over-abstraction, or groundwater contamination - which can have long term implications for groundwater availability and quality.  
For many parts of Africa, there is a lack of information on groundwater. This may be because data aren't being collected - or haven't been in the past; or because data aren't easily avaialble or accessible. This makes it very difficult to assess the groundwater resources. It can lead to inappropriate groundwater development - such as over-abstraction, or groundwater contamination - which can have long term implications for groundwater availability and quality.  


However, there is also much work that has been done to address some of the key issues relating to groundwater resources in Africa. This section of the Atlas brings together available information to provide a continental-scale overview of [[Hydrogeological environments of Africa | '''the main aquifer groups (or hydrogeological environments) of Africa''']], as well as [[Recharge | recharge]] and [[Groundwater quality in Africa | groundwater quality in Africa]], among other issues. These pages provide general background and context for the more detailed information available in each [[Hydrogeology by country | country profile]].
However, there is also much work that has been done in many areas of African groundwater. This Atlas summarises some of the key issues and provides an overview of groundwater resources and hydrogeology across Africa, and links to further information. The [Hydrogeology by Country | '''country pages'''] provide specific information by country; and the [Additional resources | '''resource pages'''] provide a continental overview of issues including:
 
#[[Hydrogeological environments of Africa | '''the main aquifer groups (or hydrogeological environments) of Africa''']]


There is more information on specific groundwater issues in the [[Additional resources | '''Resource Pages''']].
#[[Recharge | recharge]]  


#[[Groundwater quality in Africa | groundwater quality in Africa]]




===Citations and External Links===
===Further Information===


[https://www.agw-net.org/ Africa Groundwater Network]
More information on groundwater in Africa is available from the [https://www.agw-net.org/ Africa Groundwater Network] (AGW-Net) - a professional network of hydrogeologists in Africa.


[https://www.bgs.ac.uk/research/groundwater/international/africanGroundwater/maps.html Quantitative Groundwater Maps for Africa]
[https://www.bgs.ac.uk/research/groundwater/international/africanGroundwater/maps.html Quantitative Groundwater Maps for Africa]




MacDonald, A M, and Davies, J. 2000. [https://nora.nerc.ac.uk/501047/ A brief review of groundwater for rural water supply in sub-Saharan Africa]. British Geological Survey Report, WC/00/033, 30pp.
MacDonald, A.M. & Davies, J. 2000. [https://nora.nerc.ac.uk/501047/ A brief review of groundwater for rural water supply in sub-Saharan Africa]. British Geological Survey Report WC/00/033.  
 
MacDonald, A M, Bonsor, H C, Ó Dochartaigh B É, and Taylor, R G. 2012. [https://iopscience.iop.org/article/10.1088/1748-9326/7/2/024009;jsessionid=18D8D7F69C3ACBEED0D7494F46850BD6.c1 Quantitative maps of groundwater resources in Africa]. Environmental Research Letters, Vol. 7, No. 2.  
 


MacDonald, A.M., Bonsor, H.C., Ó Dochartaigh, B.É. & Taylor, R.G. 2012. [https://iopscience.iop.org/article/10.1088/1748-9326/7/2/024009;jsessionid=18D8D7F69C3ACBEED0D7494F46850BD6.c1 Quantitative maps of groundwater resources in Africa]. Environmental Research Letters 7(2).


MacDonald, A.M. & Calow, R.C. 2009. [https://nora.nerc.ac.uk/8460/ Developing groundwater for secure water supplies in Africa]. Desalination 248, 546-556. doi: 10.1016/j.desal.2008.05.100





Revision as of 09:53, 6 April 2016

Africa Groundwater Atlas >> Additional resources >> Overview of Groundwater in Africa

Groundwater in Africa

Advantages and Limitations of Groundwater as a Water Resource

Groundwater is an invaluable resource in Africa. Groundwater has many advantages as a water supply source, particularly where populations are still largely rural and demand is dispersed across large areas. Groundwater is found in most environments; is naturally protected from contamination and so usually needs no prior treatment; and with large volumes of natural storage in aquifers, it usually doesn't show significant seasonal variations in amount or quality, and is therefore more drought resistant than surface waters. It also lends itself well to the principles of community management - it can usually be found close to the point of demand, and can be developed incrementally, and often at relatively low cost.

However, groundwater can be vulnerable to over-abstraction and contamination, particularly with the growing ability to abstract large volumes of water, and with larger populations and the growing presence of a variety of pollutants.

Groundwater Occurrence in Africa

How and where groundwater occurs depends primarily on geology; geomorphology/weathering; and rainfall (both current and historic). The interaction between these three factors gives rise to complex hydrogeological environments with countless variations in the quantity, quality, ease of access to and renewability of groundwater resources. Developing groundwater resources therefore depends on a good understanding on hydrogeology.

Africa has huge diversity in geology, climate and hydrology, and as a result, the hydrogeology of Africa is hugely variable and challenging to characterise and understand.

Groundwater has excellent natural microbiological quality, and generally has adequate chemical quality for most uses. However problems can arise from the chemistry of groundwater in some circumstances: for example, high sulphate from some types of weathered basement and mudstones; or excessive hardness in limestone aquifers or sandstones cemented with carbonate material. Minor and trace constituents, which make up about 1% of the solute content of natural groundwaters, can also sometimes lead to health problems or make the water unacceptable for human and animal consumption. For example, high fluoride in some volcanic aquifers; elevated iron and manganese where groundwaters are anoxic; high arsenic in some unconsolidated sediments; and a lack of iodine in aquifers far from the sea (MacDonald and Davies, 2001).


Understanding Groundwater Resources

The sustainable development of groundwater resources depends on a good understanding of where and how groundwater exists, and how it is recharged and renewed. This will become more and more important in future, as pressure increases on Africa's groundwater resources because of growing population and increasing demands on water supplies - for domestic, including growing urban populations; agricultural (especially growing demand for irrigation); and industrial use. This understanding requires sufficient robust information on groundwater, and people with skills in hydrogeology and sustainable development. However, in many parts of Africa, both groundwater information and skilled personnel are in short supply.

For many parts of Africa, there is a lack of information on groundwater. This may be because data aren't being collected - or haven't been in the past; or because data aren't easily avaialble or accessible. This makes it very difficult to assess the groundwater resources. It can lead to inappropriate groundwater development - such as over-abstraction, or groundwater contamination - which can have long term implications for groundwater availability and quality.

However, there is also much work that has been done in many areas of African groundwater. This Atlas summarises some of the key issues and provides an overview of groundwater resources and hydrogeology across Africa, and links to further information. The [Hydrogeology by Country | country pages] provide specific information by country; and the [Additional resources | resource pages] provide a continental overview of issues including:

  1. the main aquifer groups (or hydrogeological environments) of Africa
  1. recharge
  1. groundwater quality in Africa


Further Information

More information on groundwater in Africa is available from the Africa Groundwater Network (AGW-Net) - a professional network of hydrogeologists in Africa.

Quantitative Groundwater Maps for Africa


MacDonald, A.M. & Davies, J. 2000. A brief review of groundwater for rural water supply in sub-Saharan Africa. British Geological Survey Report WC/00/033.

MacDonald, A.M., Bonsor, H.C., Ó Dochartaigh, B.É. & Taylor, R.G. 2012. Quantitative maps of groundwater resources in Africa. Environmental Research Letters 7(2).

MacDonald, A.M. & Calow, R.C. 2009. Developing groundwater for secure water supplies in Africa. Desalination 248, 546-556. doi: 10.1016/j.desal.2008.05.100



Africa Groundwater Atlas >> Overview of Groundwater in Africa