Hydrogeology of Guinea: Difference between revisions
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African Development Bank Group. 2013. [https://www.afdb.org/fileadmin/uploads/afdb/Documents/Project-and-Operations/Guinea_-_Instituional_Support_for_the_National_Water_Point_Management_Service__SNAPE__-_Project_Study.pdf Institutional support for the national water point management service (SNAPE), Republic of Guinea.] OWAS Department, December 2013. | African Development Bank Group. 2013. [https://www.afdb.org/fileadmin/uploads/afdb/Documents/Project-and-Operations/Guinea_-_Instituional_Support_for_the_National_Water_Point_Management_Service__SNAPE__-_Project_Study.pdf Institutional support for the national water point management service (SNAPE), Republic of Guinea.] OWAS Department, December 2013. | ||
Fussi F. [https://boa.unimib.it/retrieve/handle/10281/89448/131534/phd_unimib_760910.pdf Integration of hydrogeological investigation, remote sensing and terrain modelling for the analysis of shallow aquifers in West Africa and the identification of suitable zones for manual drilling]. PhD Dissertation, Department of Earth and Environmental Sciences, University Milano Bicocca. | |||
Fussi F et al. 2014. [https://dspace.lboro.ac.uk/dspace-jspui/bitstream/2134/31046/2/Fussi-1944.pdf Promotion of manual drilling in Guinea]. In: Shaw RJ, Anh NV and Dang TH (eds) Sustainable water and sanitation services for all in a fast changing world: Proceedings of the 37th WEDC International Conference, Hanoi, Vietnam, 15-19 September 2014, 5pp. | |||
Lacomme A, Delor C, Costea A, Egal E, Feybesse J-L, Iliescu D, Lahondere D, Goujou J-c, Thieblemont D and Theveniaut H. 1999. Carte Geologique de la Guinee a 1/500,000.- Ministere Mines, Geologie, lʼEnvironment, lʼappui technique BRGM, Aide et Cooperation francais. | |||
Republique de Guinee – Ministere de mines, de la geologie et de l’environnement. 2006. [https://mines.gov.gn/en/geological-map/ Carte Geologique de la Guinee: Echelle 1:500,000]. | |||
United Nations. 1988. [https://www.bgs.ac.uk/africaGroundwaterAtlas/atlas.cfc?method=ViewDetails&id=AGLA060038 Groundwater in North and West Africa: Guinea]. United Nations Department of Technical Cooperation for Development and Economic Commission for Africa, Natural Resources/Water Series No. 18. | |||
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Revision as of 12:05, 12 September 2018
Africa Groundwater Atlas >> Hydrogeology by country >> Hydrogeology of Guinea
This page has limited information and needs to be updated. If you have more information on the hydrogeology of Guinea, please get in touch!
Present-day Guinea was on the periphery of the ancient Ghana, Mali, Songhai and Fulani empires between the 7th and 19th centuries, and its coastal zone was subject to the slave trade from the 16th century. It became a French colony in the 1890s, and the present-day national boundaries date from negotiations between France, Britain, Portugal and Liberia in the late 19th and early 20th centuries. Since independence in 1958 as the Republic of Guinea, the country has experienced periodic armed conflict, attempted and actual coups, civil and political unrest and contested elections. From the late 1980s, Guinea received a large influx of refugees as a result of wars in neighbouring Sierra Leone and Liberia, exacerbating internal tensions. The 2014 Ebola outbreak also affected Guinea significantly.
Guinea’s economy is dependent on agriculture and mineral production. The agricultural sector, which employs 80% of the labour force, is diverse, reflecting the diverse geography, with cattle herding and cultivation of savanna crops in highland areas, and commercial crops including fruit, coffee, groundnuts and palm oil in lowland areas. Rice is the main food crop grown for domestic consumption. Forest products, mainly timber, are also important economically. The country has potentially vast mineral resources, particularly bauxite, gold and diamonds, and mineral exports comprise the bulk of export revenue, particularly bauxite, but the sector has not been fully developed, linked to poor infrastructure, continuing political instability and corruption. The 2014 Ebola outbreak was another serious crisis that diverted resources towards basic humanitarian needs. There is large hydroelectric power potential, with the sources of three major rivers - the Gambia, the Senegal and the Niger - in Guinea. Fishing and manufacturing are also important industries.
Most of Guinea receives high but seasonal rainfall, and the country’s overall water resources are abundant. However, away from the major rivers, dry season surface water resources are scarce. Much of the population relies on groundwater for domestic water supplies, in rural and poorer urban areas.
Compilers
Dr Kirsty Upton and Brighid Ó Dochartaigh, British Geological Survey, UK
Dr Imogen Bellwood-Howard, Institute of Development Studies, UK
Please cite this page as: Upton, K, Ó Dochartaigh, B É and Bellwood-Howard, I. 2018.
Bibliographic reference: Upton, K. & Ó Dochartaigh, B.É. 2016. Africa Groundwater Atlas: Hydrogeology of Guinea. British Geological Survey. Accessed [date you accessed the information]. https://earthwise.bgs.ac.uk/index.php/Hydrogeology_of_Guinea
Terms and conditions
The Africa Groundwater Atlas is hosted by the British Geological Survey (BGS) and includes information from third party sources. Your use of information provided by this website is at your own risk. If reproducing diagrams that include third party information, please cite both the Africa Groundwater Atlas and the third party sources. Please see the Terms of use for more information.
Geographical Setting
General
Capital city | Conakry |
Region | Western Africa |
Border countries | Guinea-Bissau, Senegal, Mali, Cote d'Ivoire, Liberia, Sierra Leone |
Total surface area* | 245,860 km2 (24,586,000 ha) |
Total population (2015)* | 12,609,000 |
Rural population (2015)* | 8,020,000 (64%) |
Urban population (2015)* | 4,589,000 (76%) |
UN Human Development Index (HDI) [highest = 1] (2014)* | 0.4113 |
* Source: FAO Aquastat
Climate
More information on average rainfall and temperature for each of the climate zones in Guinea can be seen at the Guinea climate page.
These maps and graphs were developed from the CRU TS 3.21 dataset produced by the Climatic Research Unit at the University of East Anglia, UK. For more information see the climate resource page.
Surface water
|
Soil
Land cover
Water statistics
1999 | 2001 | 2005 | 2012 | 2014 | 2015 | ||
Rural population with access to safe drinking water (%) | 67.4 | ||||||
Urban population with access to safe drinking water (%) | 92.7 | ||||||
Population affected by water related disease | No data | No data | No data | No data | No data | No data | |
Total internal renewable water resources (cubic metres/inhabitant/year) | 17,924 | ||||||
Total exploitable water resources (Million cubic metres/year) | 204,000 | ||||||
Freshwater withdrawal as % of total renewable water resources | 0.2448 | ||||||
Renewable groundwater resources (Million cubic metres/year) | 38,000 | ||||||
Groundwater produced internally (Million cubic metres/year) | 38,000 | ||||||
Fresh groundwater withdrawal (primary and secondary) (Million cubic metres/year) disease | No data | No data | No data | No data | No data | No data | |
Groundwater: entering the country (total) (Million cubic metres/year) | No data | No data | No data | No data | No data | No data | |
Groundwater: leaving the country to other countries (total) (Million cubic metres/year) | No data | No data | No data | No data | No data | No data | |
Industrial water withdrawal (all water sources) (Million cubic metres/year) | 56.2 | ||||||
Municipal water withdrawal (all water sources) (Million cubic metres/year) | 224.8 | ||||||
Agricultural water withdrawal (all water sources) (Million cubic metres/year) | 292.9 | ||||||
Irrigation water withdrawal (all water sources) 1 (Million cubic metres/year) | 292.9 | ||||||
Irrigation water requirement (all water sources) 1 (Million cubic metres/year) | 70.5 | ||||||
Area of permanent crops (ha) | 700,000 | ||||||
Cultivated land (arable and permanent crops) (ha) | 3,800,000 | ||||||
Total area of country cultivated (%) | 15.46 | ||||||
Area equipped for irrigation by groundwater (ha) | 460 | ||||||
Area equipped for irrigation by mixed surface water and groundwater (ha) disease | No data | No data | No data | No data | No data | No data |
These statistics are sourced from FAO Aquastat. They are the most recent available information in the Aquastat database. More information on the derivation and interpretation of these statistics can be seen on the FAO Aquastat website.
Further water and related statistics can be accessed at the Aquastat Main Database.
1 More information on irrigation water use and requirement statistics
Geology
The geology map shows a simplified version of the geology at a national scale. More information is available in the report UN (1988) (see References section, below).
|
Period | Lithology | ||
Unconsolidated sedimentary | |||
---|---|---|---|
Quaternary (to Tertiary) | Alluvial sediments in river valleys: sands, sandy loams, silts and gravels. Along the coast, marine loams, clays, clayey sands and sands.
Large areas are also covered with Paleogene-Neogene weathered lateritic crusts, connected with iron deposits, kaolinitic clays and bauxite layers. | ||
Igneous intrusive | |||
Mesozoic | Sills, dykes and other intrusions including dolerite, gabbro-dolerite, peridotite, pyroxenite, gabbro and syenite. Some kimberlite dykes and pipes in southern Guinea are diamond-bearing (Schlüter 2006). | ||
Palaeozoic Sedimentary | |||
Silurian-Devonian | Dominantly mudstones and siltstones, including the Silurian Télimélé Suite and the Devonian Faro Suite. | ||
Ordovician | Dominantly sandstones of the Pita Suite. These include some diamond-bearing heavy mineralisation in quartzites. | ||
Cambrian | Dominantly sandstones and conglomerates, including the Falémé and Falea series. | ||
Precambrian | |||
Upper Proterozoic | Dominantly metasedimentary. This group includes a number of different sequences in different parts of the country, including the Balé, Dabatou and Ségou suites, which are dominated by quartzites and arkosic sandstones; the Oundou Series, including argillitic schists; and the Bania Suite, which is dominated by metavolcanic rocks. | ||
Archaean-Lower Proterozoic | Crystalline basement rocks. Strongly metamorphosed rocks to amphibolite and granulite facies, and often greenschist, wtih dominant rock types include gneiss, schist, quartzite and amphibolite. There are also significant areas of granite and granodiorite. Lower Proterozoic rocks tend to be metasedimentary and metavolcanic rocks of lower metamorphic grade. |
Hydrogeology
The hydrogeology map below shows a simplified version of the type and productivity of the main aquifers at a national scale (see the hydrogeology map resource page for more details).
More information on the hydrogeology of Guinea is available in the report United Nations (1988) (see References section, below).
Groundwater management
The country has recently adopted programmes for improving water services: the National Drinking Water Supply and Sanitation Programme (NDWSSP) and the National Strategy for Development of Public Water Services in Rural and Semi-Urban Areas (SNDSPE). These programmes aim to address the current situation where local authorities have low capacity to implement their responsibility for water service projects in rural and semi-urban areas; and water services are largely being developed in a fragmented project-based way (African Development Bank Group 2013).
There is a central database with information on more than 16,000 water points - mainly boreholes - based on data from different projects that were supervised by the national water authority, but the data are not all well organised. It does, however, include more than 1000 borehole geological logs that are easy to access.
Transboundary aquifers
For further information about transboundary aquifers, please see the Transboundary aquifers resources page.
References
References with more information on the geology and hydrogeology of Guinea can be accessed through the Africa Groundwater Literature Archive.
African Development Bank Group. 2013. Institutional support for the national water point management service (SNAPE), Republic of Guinea. OWAS Department, December 2013.
Fussi F. Integration of hydrogeological investigation, remote sensing and terrain modelling for the analysis of shallow aquifers in West Africa and the identification of suitable zones for manual drilling. PhD Dissertation, Department of Earth and Environmental Sciences, University Milano Bicocca.
Fussi F et al. 2014. Promotion of manual drilling in Guinea. In: Shaw RJ, Anh NV and Dang TH (eds) Sustainable water and sanitation services for all in a fast changing world: Proceedings of the 37th WEDC International Conference, Hanoi, Vietnam, 15-19 September 2014, 5pp.
Lacomme A, Delor C, Costea A, Egal E, Feybesse J-L, Iliescu D, Lahondere D, Goujou J-c, Thieblemont D and Theveniaut H. 1999. Carte Geologique de la Guinee a 1/500,000.- Ministere Mines, Geologie, lʼEnvironment, lʼappui technique BRGM, Aide et Cooperation francais.
Republique de Guinee – Ministere de mines, de la geologie et de l’environnement. 2006. Carte Geologique de la Guinee: Echelle 1:500,000.
United Nations. 1988. Groundwater in North and West Africa: Guinea. United Nations Department of Technical Cooperation for Development and Economic Commission for Africa, Natural Resources/Water Series No. 18.
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