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[[Africa Groundwater Atlas Home | Africa Groundwater Atlas]] >> [[Hydrogeology by country | Hydrogeology by country]]  >> Hydrogeology of Comoros
[[Africa Groundwater Atlas Home | Africa Groundwater Atlas]] >> [[Hydrogeology by country | Hydrogeology by country]]  >> Hydrogeology of Comoros


'''This page has limited information and needs to be updated. If you have more recent information on the hydrogeology of Comoros, please get in touch!'''  
'''This page has limited information. If you have more recent information on the hydrogeology of Comoros, please get in touch!'''  
 
[[File:CC-BY-SA_logo_88x31.png | frame | This work is licensed under a [https://creativecommons.org/licenses/by-sa/3.0/ Creative Commons Attribution-ShareAlike 3.0 Unported License]]]
 
 
Comoros, officially the Union of the Comoros (Union des Comores), is an archipelago nation of three major islands (Grande Comore (Ngazidja), Mohéli (Mwali) and Anjouan (Ndzwani) and numerous smaller volcanic islands off the east coast of Africa. Comoros and France dispute ownership of a fourth major island, Mayotte, which continues to be administered by France as an overseas department.
 
The Comoros population is ethnically diverse as a result of centuries of immigration by Indonesian, Bantu African and Arabic peoples, among others.
 
In the first centuries of the second millennium AD, the islands were an important trade hub and stopover between Arabia and Africa. The pre-colonial economy was dominated by slave trading, which continued after France colonised Comoros in 1841, with the addition of plantation agriculture. Since independence from France in 1975 there have been multiple coups and widespread conflict. The island of Mayotte voted against independence in 1974 and 1976 by a large majority. The islands of Ndzuani and Mwali tried to become independent from the largest island of Ngazidja in 1997, since when they have experienced more autonomy, with each island having its own president within the overall union of the three islands.
The long term political, civil and military unrest means that development remains rudimentary, and Comoros is one of the world’s poorest countries. The economy of Comoros is dominated by agriculture, also including fishing, hunting and forestry: these together contribute 40% of GDP and employ 80% of the labour force. Spices and the marine industry provide important export income, and the country is heavily dependent on external aid. The country is densely populated, although mostly rural.
 
Comoros has relatively high rainfall, although it is not evenly distributed seasonally. There are few rivers, and much of the population relies for water supplies on rainwater harvesting, stored in tanks and cisterns. These were traditionally uncovered, and many were contaminated by ash deposition after a volcanic eruption in 2006. Recent development activities have focussed on covering private water supply cisterns and raising awareness about protecting water resources from contamination.
 


==Compilers==
==Compilers==
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'''Dr Kirsty Upton''' and '''Brighid Ó Dochartaigh''', British Geological Survey, UK
'''Dr Kirsty Upton''' and '''Brighid Ó Dochartaigh''', British Geological Survey, UK


Please cite this page as: Upton & Ó Dochartaigh, 2016.
'''Dr Imogen Bellwood-Howard''', Institute of Development Studies, UK


Bibliographic reference: Upton, K. & Ó Dochartaigh, B.É. 2016. Africa Groundwater Atlas: Hydrogeology of Comoros. British Geological Survey. Accessed [date you accessed the information]. http://earthwise.bgs.ac.uk/index.php/Hydrogeology_of_Comoros
Please cite this page as: Upton, Ó Dochartaigh and Bellwood-Howard, 2018.
 
Bibliographic reference: Upton K, Ó Dochartaigh BÉ and Bellwood-Howard, I. 2022. Africa Groundwater Atlas: Hydrogeology of Comoros. British Geological Survey. Accessed [date you accessed the information]. https://earthwise.bgs.ac.uk/index.php/Hydrogeology_of_Comoros


==Terms and conditions==
==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 [[Africa Groundwater Atlas Terms and Conditions | Terms and Conditions]] for more information.
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 [[Africa Groundwater Atlas Terms of Use | Terms of use]] for more information.




==Geographical Setting==
==Geographical Setting==


The Comoros archipelago includes Ngazidja (Grande Comore), Ndzuani (Anjouan) and Mwali (Mohéli). Moroni, the capital, is on Ngazidja, the largest and westernmost island. The neighbouring island of Mayotte is under French administration.
The largest islands of the Comoros archipelago are Ngazidja (Grande Comore), Ndzuani (Anjouan) and Mwali (Mohéli). Moroni, the capital, is on Ngazidja, the largest and westernmost island. The neighbouring island of Mayotte is under French administration.




[[File:Comoros_Political.png | right | frame | Comoros (For more information on the datasets used in the map see the [[Geography | geography resources section]])]]  
[[File:Comoros_Political.png | right | frame | Comoros. Map developed from USGS GTOPOPO30; GADM global administrative areas; and UN Revision of World Urbanization Prospects. For more information on the map development and datasets see the For more information on the datasets used to develop the map see the [[Geography | geography resource page]]]]  


===General===
===General===
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{| class = "wikitable"
{| class = "wikitable"
|-
|-
|Estimated Population in 2013* || 734,917
|Capital city || Moroni
|-
|-
|Rural Population (% of total) (2013)* || 71.9%
|Region || Eastern Africa
|-
|-
|Total Surface Area* || 1,861 sq km
|Border countries || none - Indian Ocean. Nearby countries are Mozambique, Madagascar, Tanzania and the Seychelles.
|-
|-
|Agricultural Land (% of total area) (2012)* || 84.9%
|Total surface area* ||1,861 km<sup>2</sup>  (186,100 ha)
|-
|-
|Capital City || Moroni
|Total population (2015)* || 788,900
|-
|-
|Region || Eastern Africa
|Rural population (2015)* ||570,600 (72%)
|-
|-
|Border Countries || none - Indian Ocean. Nearby countries are Mozambique, Madagascar, Tanzania and the Seychelles.
|Urban population (2015)* || 217,900 (28%)
|-
|-
|Annual Freshwater Withdrawal (2013)* || 10 Million cubic metres
|UN Human Development Index (HDI) [highest = 1] (2014)*|| 0.5032
|-
|Annual Freshwater Withdrawal for Agriculture (2013)* || 47%
|-
|Annual Freshwater Withdrawal for Domestic Use (2013)* || 48%
|-
|Annual Freshwater Withdrawal for Industry (2013)* || 5%
|-
|Rural Population with Access to Improved Water Source (2012)* || 96.7%
|-
|Urban Population with Access to Improved Water Source (2012)* || n/a
|}
|}


<nowiki>*</nowiki> Source: World Bank
<nowiki>*</nowiki> Source: [https://www.fao.org/nr/water/aquastat/data/query/index.html?lang=en FAO Aquastat]




===Climate===
===Climate===


<gallery widths="375px" heights=365px mode=nolines>
[[File:Comoros_ClimateZones.png| 375x365px |Koppen Geiger Climate Zones]][[File:Comoros_ClimatePrecip.png| 375x365px |Average Annual Precipitation]][[File:Comoros_ClimateTemp.png| 375x365px |Average Temperature]]
File:Comoros_ClimateZones.png|Koppen Geiger Climate Zones
File:Comoros_ClimatePrecip.png|Average Annual Precipitation
File:Comoros_ClimateTemp.png|Average Temperature
</gallery>


[[File:Comoros_pre_Monthly.png| 255x124px| Average monthly precipitation for Comoros showing minimum and maximum (light blue), 25th and 75th percentile (blue), and median (dark blue) rainfall]] [[File:Comoros_tmp_Monthly.png| 255x124px| Average monthly temperature for Comoros showing minimum and maximum (orange), 25th and 75th percentile (red), and median (black) temperature]] [[File:Comoros_pre_Qts.png | 255x124px | Quarterly precipitation over the period 1950-2012]] [[File:Comoros_pre_Mts.png|255x124px | Monthly precipitation (blue) over the period 2000-2012 compared with the long term monthly average (red)]]  
[[File:Comoros_pre_Monthly.png| 255x124px| Average monthly precipitation for Comoros showing minimum and maximum (light blue), 25th and 75th percentile (blue), and median (dark blue) rainfall]] [[File:Comoros_tmp_Monthly.png| 255x124px| Average monthly temperature for Comoros showing minimum and maximum (orange), 25th and 75th percentile (red), and median (black) temperature]] [[File:Comoros_pre_Qts.png | 255x124px | Quarterly precipitation over the period 1950-2012]] [[File:Comoros_pre_Mts.png|255x124px | Monthly precipitation (blue) over the period 2000-2012 compared with the long term monthly average (red)]]
 
For further detail on the climate datasets used see the [[Climate | climate resources section]].
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 | climate resource page]].


===Surface water===
===Surface water===
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{|
{|
|-
|-
| [[File:Comoros_soil.png | frame | Soil Map of Comoros (For map key and more information on the datasets used in the map see the [[Soil | soil resources section]])]]
| [[File:Comoros_soil.png | frame | Soil Map of Comoros, from the European Commission Joint Research Centre: European Soil Portal. For more information on the map see the [[Soil | soil resource page]]]]


|
|
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|
|


| [[File:Comoros_LandCover.png | frame | Land Cover Map of Comoros (For map key and more information on the datasets used in the map see the [[Land cover | land cover resources section]])]]
| [[File:Comoros_LandCover.png | frame | Land Cover Map of Comoros, from the European Space Agency GlobCover 2.3, 2009. For more information on the map see the [[Land cover | land cover resource page]]]]
|}
|}


===Water statistics===


{| class = "wikitable"
| ||1997||1999||2012||2014||2015
|-
|Rural population with access to safe drinking water (%) || || ||  || || 89.1
|-
|Urban population with access to safe drinking water (%) || || ||  || || 92.6
|-
|Population affected by water related disease ||No data|| No data|| No data|| No data|| No data
|-
|Total internal renewable water resources (cubic metres/inhabitant/year) || || ||  ||1522 ||
|-
|Total exploitable water resources (Million cubic metres/year) || || ||1,020||||
|-
|Freshwater withdrawal as % of total renewable water resources || ||0.8333 || || ||
|-
|Total renewable groundwater (Million cubic metres/year) ||  || || ||1,000 ||
|-
|Exploitable: Regular renewable groundwater (Million cubic metres/year) ||No data|| No data|| No data|| No data|| No data
|-
|Groundwater produced internally (Million cubic metres/year) || || ||  ||1,000 ||
|-
|Fresh groundwater withdrawal (primary and secondary) (Million cubic metres/year) ||No data|| No data|| No data|| No data|| No data
|-
|Groundwater: entering the country (total) (Million cubic metres/year) || || ||  || ||
|-
|Groundwater: leaving the country to other countries (total) (Million cubic metres/year) || || || || ||
|-
|Industrial water withdrawal (all water sources) (Million cubic metres/year) || ||0.5 || || ||
|-
| Municipal water withdrawal (all water sources) (Million cubic metres/year)  || ||4.8 || || ||
|-
|Agricultural water withdrawal (all water sources) (Million cubic metres/year) || || 4.7|| || ||
|-
|Irrigation water withdrawal (all water sources)<sup>1</sup> (Million cubic metres/year) ||No data|| No data|| No data|| No data|| No data
|-
|Irrigation water requirement (all water sources)<sup>1</sup> (Million cubic metres/year) ||No data|| No data|| No data|| No data|| No data
|-
|Area of permanent crops (ha) || || ||  ||53,000 ||
|-
|Cultivated land (arable and permanent crops) (ha) || || ||  ||118,000||
|-
|Total area of country cultivated (%) || || ||  ||63.41 ||
|-
|Area equipped for irrigation by groundwater (ha) ||No data|| No data|| No data|| No data|| No data
|-
|Area equipped for irrigation by mixed surface water and groundwater (ha) ||No data|| No data|| No data|| No data|| No data
|}
These statistics are sourced from [https://www.fao.org/nr/water/aquastat/main/index.stm 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 [https://www.fao.org/nr/water/aquastat/data/query/index.html?lang=en Aquastat Main Database].
<sup>1</sup> More information on [https://www.fao.org/nr/water/aquastat/water_use_agr/index.stm irrigation water use and requirement statistics]


==Geology==
==Geology==


More information is available in the report [https://www.bgs.ac.uk/africagroundwateratlas/fulldetails.cfm?id=AGLA060004 UN (1988)] (see References section, below).  
Some more information is available in the reports and other documents listed in the References and Further Information section, below.  


The Comoros are volcanic basalt islands, the tips of a submerged range. There are at least three main phases of volcanic activity, separated by phases of rest and alteration. Almost the whole of Ngazidja island is covered with ouctrops of volcanic materials of the most recent upper phase, surrounded by lavas of the intermediate phase. At the ground surface there are also layers of red clay several metres thick, indicating advanced laterisation of the early phases (United Nations 1989).  
The Comoros are volcanic basalt islands, the tips of a submerged range. There are at least three main phases of volcanic activity, separated by phases of rest and alteration. Almost the whole of Ngazidja island is covered with ouctrops of volcanic materials of the most recent upper phase, surrounded by lavas of the intermediate phase. At the ground surface there are also layers of red clay several metres thick, indicating advanced laterisation of the early phases (United Nations 1989).  


The lavas of the later phase are compact or finely vesicular grey-black or iron-grey rocks, especially andesitic basalts, labradoric basalts, basanitoids and limburgites. The lavas of the intermediate phase are of a very common type; their mineralogical differentiation from the lavas of the upper phase is not always very
The lavas of the later phase are compact or finely vesicular grey-black or iron-grey rocks, especially andesitic basalts, labradoric basalts, basanitoids and limburgites. The lavas of the intermediate phase are of a very common type; their mineralogical differentiation from the lavas of the upper phase is not always very clear. Scoria are often also found at the base of a flow; the middle part of a flow is more compact but fissured. The lava are sometimes extremely vesicular, as a result of cooling in the open air (United Nations 1989).
clear. Scoria are often also found at the base of a flow; the middle part of a flow is more compact but fissured. The lava are sometimes extremely vesicular, as a result of cooling in the open air (United Nations 1989).


Small outcrops of alluvium, the result of sporadic surface water flows, are found in the form of fine materials produced by the recapture of pyroclastic materials or very coarse materials shaped by the action of torrents (United Nations 1989).  
Small outcrops of alluvium, the result of sporadic surface water flows, are found in the form of fine materials produced by the recapture of pyroclastic materials or very coarse materials shaped by the action of torrents (United Nations 1989).  
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==Hydrogeology==
==Hydrogeology==


More information on the hydrogeology of Comoros is available in the report [http://www.bgs.ac.uk/africagroundwateratlas/fulldetails.cfm?id=AGLA060004 UN (1988)] (see References section, below).  
More information on the hydrogeology of Comoros is available in the report [https://www2.bgs.ac.uk/africaGroundwaterAtlas/atlas.cfc?method=ViewDetails&id=AGLA060004 UN (1988)] (see References section, below).  


The basaltic lavas have high permeability. Other formations are thought to be of little hydrogeological interest. Direct rainfall recharge is likely to be rapid and high, infiltrating down to the aquifer base roughly at sea level (United Nations 1989). The degree of alteration of the volcanic rocks, and therefore their
The basaltic lavas have high permeability. Other formations are thought to be of little hydrogeological interest. Direct rainfall recharge is likely to be rapid and high, infiltrating down to the aquifer base roughly at sea level (United Nations 1989). The degree of alteration of the volcanic rocks, and therefore their
permeability, is in direct proportion to their age, and so the infiltration of groundwater water is likely to be influenced by the spatial distribution of the ancient volcanic materials - i.e., the paleo-relief.  Groundwater flows tend to be concent1ated in the ancient valleys, occupied by recent flows which are more permeable than the surrounding older rocks, and thus forming preferred groundwater flow paths. Local disruptions to groundwater flow may create perched aquifers - such as vertical dykes and the alteration of ancient basalts at depth (United Nations 1989).
permeability, is in direct proportion to their age, and so the infiltration of groundwater water is likely to be influenced by the spatial distribution of the ancient volcanic materials - i.e., the paleo-relief.  Groundwater flows tend to be concentrated in the ancient valleys, occupied by recent flows which are more permeable than the surrounding older rocks, and thus forming preferred groundwater flow paths. Local disruptions to groundwater flow may create perched aquifers - such as vertical dykes and the alteration of ancient basalts at depth (United Nations 1989).


There are a number of springs, both ephemeral and perennial, on Ngazidja island, mostly with a low yield. Some examples are M'Koudoussi, Hamoindze and Souou, which are perennial with yields varying from 0.5 m³/h in the dry season~to 50 m³/h in the rainy season. Other examples, such as N'Gnambéni and M'Rotso in the massif of Badjini,
There are a number of springs, both ephemeral and perennial, on Ngazidja island, mostly with a low yield. Some examples are M'Koudoussi, Hamoindze and Souou, which are perennial with yields varying from 0.5 m³/h in the dry season~to 50 m³/h in the rainy season. Other examples, such as N'Gnambéni and M'Rotso in the massif of Badjini,
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Infiltrating rainwater has a very low mineral content, in the order of 100 mg/l, with a Cl content of 10 to 20 mg/l, and mainly of Ca-Mg-HCO3 type when measured in the island's interior springs. Na and Cl are prevalent in all the water tapped in the coastal zone, owing to the influence of sea water, even in the water with lowest mineral content. The groundwater of the coastal zones can therefore be considered essentially diluted sea water, the mineral content of which is determined by the degree of sea water intrusion (United Nations 1989).
Infiltrating rainwater has a very low mineral content, in the order of 100 mg/l, with a Cl content of 10 to 20 mg/l, and mainly of Ca-Mg-HCO3 type when measured in the island's interior springs. Na and Cl are prevalent in all the water tapped in the coastal zone, owing to the influence of sea water, even in the water with lowest mineral content. The groundwater of the coastal zones can therefore be considered essentially diluted sea water, the mineral content of which is determined by the degree of sea water intrusion (United Nations 1989).


== Groundwater management ==


=== Transboundary aquifers===
La Direction Générale de l’Eau des Mines et de l’Energie is the government department responsible for water policy and coordinating water projects on all three islands (PS Eau 2015 (1)). According to some sources, it holds available groundwater data for all of Comoros.
 
The public and commercial company Ma-Mwe is responsible for urban public water supplies, but in practice it only operates in Moroni and its surroundings, and even here water supplies are frequently cut off and/or there are problems with effective water quality treatment.
 
Water Management Committees (CGE) are user associations that manage water networks and distribution within their territory. The Union of Water Committees of Mohéli (UCEM) is an association of village water management committees on the island of Mohéli, created in 2007; the Union of Water Committees of Anjouan (UCEA) is an association of village water management committees on the island of Anjouan, created in 2002. Each is the contracting authority for projects implemented in their respective island and provides technical support to water management committees.
 
Associations 2-mains works on access to drinking water in rural areas of Greater Comore, among other projects.
 
== Transboundary aquifers==


For further information about transboundary aquifers, please see the [[Transboundary aquifers | Transboundary aquifers resources page]].
For further information about transboundary aquifers, please see the [[Transboundary aquifers | Transboundary aquifers resources page]].


==References==
==References and Further Information Sources==
 
 
'''Websites'''
 
* [https://www.pseau.org/outils/organismes/organisme_detail.php?org_organisme_id=27869 PS Eau page on Comoros]
 
 
 
'''References'''
 
More references with information on the geology and hydrogeology of Comoros may be available through the [https://www2.bgs.ac.uk/africaGroundwaterAtlas/atlas.cfc?method=listResults&title_search=&author_search=&category_search=&country_search=KM&placeboolean=AND&singlecountry=11 Africa Groundwater Literature Archive].
 
 
Cadot N. 2016. [https://www.pseau.org/outils/biblio/resume.php?d=6534 Projet pilote de gestion du service public de l’eau en milieu rural sur l’île de Grande Comore (GECEAU): Guide de conception de réseaux et d'organisation du service public de l'eau en milieu rural. Document Principal, Version 1]. Apr 2016, 35p.
 
DGEME. 2014. [https://www.pseau.org/outils/biblio/resume.php?d=5609 La problématique de l'eau aux Comores]. Présentation.
 
PS Eau. 2014. [https://www.pseau.org/outils/ouvrages/ps_eau_fiche_territoire_mayotte_2014.pdf Fiche territoire: Mayotte
 
PS Eau. 2015 (1). [https://www.pseau.org/outils/ouvrages/ps_eau_fiche_pays_union_comores_2015.pdf Fiche Pays: Union des Comores]
 
PS Eau. 2015 (2). [https://www.pseau.org/outils/ouvrages/ps_eau_fiche_territoire_grande_comore_2015.pdf Fiche territoire: Grande Comore]
 
PS Eau. 2015 (3). [https://www.pseau.org/outils/ouvrages/ps_eau_fiche_territoire_de_moheli_2015.pdf Fiche territoire: Mohéli]


References with more information on the geology and hydrogeology of Comoros can be accessed through the [http://www.bgs.ac.uk/africagroundwateratlas/searchResults.cfm?title_search=&author_search=&category_search=&country_search=KM&placeboolean=AND&singlecountry=11 Africa Groundwater Literature Archive].
United Nations. 1989. [https://www2.bgs.ac.uk/africaGroundwaterAtlas/atlas.cfc?method=ViewDetails&id=AGLA060004 Groundwater in Eastern, Central and Southern Africa: Comoros]. United Nations Department of Technical Cooperation for Development.


United Nations. 1989. [https://www.bgs.ac.uk/africagroundwateratlas/fulldetails.cfm?id=AGLA060004 Groundwater in Eastern, Central and Southern Africa: Comoros]. United Nations Department of Technical Cooperation for Development. 


==Return to the index pages==
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Latest revision as of 10:30, 27 November 2023

Africa Groundwater Atlas >> Hydrogeology by country >> Hydrogeology of Comoros

This page has limited information. If you have more recent information on the hydrogeology of Comoros, please get in touch!

This work is licensed under a Creative Commons Attribution-ShareAlike 3.0 Unported License


Comoros, officially the Union of the Comoros (Union des Comores), is an archipelago nation of three major islands (Grande Comore (Ngazidja), Mohéli (Mwali) and Anjouan (Ndzwani) and numerous smaller volcanic islands off the east coast of Africa. Comoros and France dispute ownership of a fourth major island, Mayotte, which continues to be administered by France as an overseas department.

The Comoros population is ethnically diverse as a result of centuries of immigration by Indonesian, Bantu African and Arabic peoples, among others.

In the first centuries of the second millennium AD, the islands were an important trade hub and stopover between Arabia and Africa. The pre-colonial economy was dominated by slave trading, which continued after France colonised Comoros in 1841, with the addition of plantation agriculture. Since independence from France in 1975 there have been multiple coups and widespread conflict. The island of Mayotte voted against independence in 1974 and 1976 by a large majority. The islands of Ndzuani and Mwali tried to become independent from the largest island of Ngazidja in 1997, since when they have experienced more autonomy, with each island having its own president within the overall union of the three islands. The long term political, civil and military unrest means that development remains rudimentary, and Comoros is one of the world’s poorest countries. The economy of Comoros is dominated by agriculture, also including fishing, hunting and forestry: these together contribute 40% of GDP and employ 80% of the labour force. Spices and the marine industry provide important export income, and the country is heavily dependent on external aid. The country is densely populated, although mostly rural.

Comoros has relatively high rainfall, although it is not evenly distributed seasonally. There are few rivers, and much of the population relies for water supplies on rainwater harvesting, stored in tanks and cisterns. These were traditionally uncovered, and many were contaminated by ash deposition after a volcanic eruption in 2006. Recent development activities have focussed on covering private water supply cisterns and raising awareness about protecting water resources from contamination.


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, Ó Dochartaigh and Bellwood-Howard, 2018.

Bibliographic reference: Upton K, Ó Dochartaigh BÉ and Bellwood-Howard, I. 2022. Africa Groundwater Atlas: Hydrogeology of Comoros. British Geological Survey. Accessed [date you accessed the information]. https://earthwise.bgs.ac.uk/index.php/Hydrogeology_of_Comoros

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

The largest islands of the Comoros archipelago are Ngazidja (Grande Comore), Ndzuani (Anjouan) and Mwali (Mohéli). Moroni, the capital, is on Ngazidja, the largest and westernmost island. The neighbouring island of Mayotte is under French administration.


Comoros. Map developed from USGS GTOPOPO30; GADM global administrative areas; and UN Revision of World Urbanization Prospects. For more information on the map development and datasets see the For more information on the datasets used to develop the map see the geography resource page

General

Capital city Moroni
Region Eastern Africa
Border countries none - Indian Ocean. Nearby countries are Mozambique, Madagascar, Tanzania and the Seychelles.
Total surface area* 1,861 km2 (186,100 ha)
Total population (2015)* 788,900
Rural population (2015)* 570,600 (72%)
Urban population (2015)* 217,900 (28%)
UN Human Development Index (HDI) [highest = 1] (2014)* 0.5032

* Source: FAO Aquastat


Climate

Koppen Geiger Climate ZonesAverage Annual PrecipitationAverage Temperature

Average monthly precipitation for Comoros showing minimum and maximum (light blue), 25th and 75th percentile (blue), and median (dark blue) rainfall Average monthly temperature for Comoros showing minimum and maximum (orange), 25th and 75th percentile (red), and median (black) temperature Quarterly precipitation over the period 1950-2012 Monthly precipitation (blue) over the period 2000-2012 compared with the long term monthly average (red)

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

Surface-water resources are largely sufficient on Ndzuani and Mwali (United Nations 1989). On Ngazidja, in contrast, the island's relief; the dense concentration of its population in the coastal strip; and the lack of suitable sites for dams leads to water supply problems, and this island has been subject to much hydrogeological study.

Soil

Soil Map of Comoros, from the European Commission Joint Research Centre: European Soil Portal. For more information on the map see the soil resource page

Land cover

Land Cover Map of Comoros, from the European Space Agency GlobCover 2.3, 2009. For more information on the map see the land cover resource page

Water statistics

1997 1999 2012 2014 2015
Rural population with access to safe drinking water (%) 89.1
Urban population with access to safe drinking water (%) 92.6
Population affected by water related disease No data No data No data No data No data
Total internal renewable water resources (cubic metres/inhabitant/year) 1522
Total exploitable water resources (Million cubic metres/year) 1,020
Freshwater withdrawal as % of total renewable water resources 0.8333
Total renewable groundwater (Million cubic metres/year) 1,000
Exploitable: Regular renewable groundwater (Million cubic metres/year) No data No data No data No data No data
Groundwater produced internally (Million cubic metres/year) 1,000
Fresh groundwater withdrawal (primary and secondary) (Million cubic metres/year) No data No data No data No data No data
Groundwater: entering the country (total) (Million cubic metres/year)
Groundwater: leaving the country to other countries (total) (Million cubic metres/year)
Industrial water withdrawal (all water sources) (Million cubic metres/year) 0.5
Municipal water withdrawal (all water sources) (Million cubic metres/year) 4.8
Agricultural water withdrawal (all water sources) (Million cubic metres/year) 4.7
Irrigation water withdrawal (all water sources)1 (Million cubic metres/year) No data No data No data No data No data
Irrigation water requirement (all water sources)1 (Million cubic metres/year) No data No data No data No data No data
Area of permanent crops (ha) 53,000
Cultivated land (arable and permanent crops) (ha) 118,000
Total area of country cultivated (%) 63.41
Area equipped for irrigation by groundwater (ha) No data No data No data No data No data
Area equipped for irrigation by mixed surface water and groundwater (ha) 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

Some more information is available in the reports and other documents listed in the References and Further Information section, below.

The Comoros are volcanic basalt islands, the tips of a submerged range. There are at least three main phases of volcanic activity, separated by phases of rest and alteration. Almost the whole of Ngazidja island is covered with ouctrops of volcanic materials of the most recent upper phase, surrounded by lavas of the intermediate phase. At the ground surface there are also layers of red clay several metres thick, indicating advanced laterisation of the early phases (United Nations 1989).

The lavas of the later phase are compact or finely vesicular grey-black or iron-grey rocks, especially andesitic basalts, labradoric basalts, basanitoids and limburgites. The lavas of the intermediate phase are of a very common type; their mineralogical differentiation from the lavas of the upper phase is not always very clear. Scoria are often also found at the base of a flow; the middle part of a flow is more compact but fissured. The lava are sometimes extremely vesicular, as a result of cooling in the open air (United Nations 1989).

Small outcrops of alluvium, the result of sporadic surface water flows, are found in the form of fine materials produced by the recapture of pyroclastic materials or very coarse materials shaped by the action of torrents (United Nations 1989).

Hydrogeology

More information on the hydrogeology of Comoros is available in the report UN (1988) (see References section, below).

The basaltic lavas have high permeability. Other formations are thought to be of little hydrogeological interest. Direct rainfall recharge is likely to be rapid and high, infiltrating down to the aquifer base roughly at sea level (United Nations 1989). The degree of alteration of the volcanic rocks, and therefore their permeability, is in direct proportion to their age, and so the infiltration of groundwater water is likely to be influenced by the spatial distribution of the ancient volcanic materials - i.e., the paleo-relief. Groundwater flows tend to be concentrated in the ancient valleys, occupied by recent flows which are more permeable than the surrounding older rocks, and thus forming preferred groundwater flow paths. Local disruptions to groundwater flow may create perched aquifers - such as vertical dykes and the alteration of ancient basalts at depth (United Nations 1989).

There are a number of springs, both ephemeral and perennial, on Ngazidja island, mostly with a low yield. Some examples are M'Koudoussi, Hamoindze and Souou, which are perennial with yields varying from 0.5 m³/h in the dry season~to 50 m³/h in the rainy season. Other examples, such as N'Gnambéni and M'Rotso in the massif of Badjini, and Bonde in the massif of La Grille, have yields that vary from 1.5 and 2.5 m³/h in the dry season to 30 to over 100 m³/h in the rainy season. Along the coast, there are a few discharges of brackish water which flow at low tide.

Groundwater Quality

Infiltrating rainwater has a very low mineral content, in the order of 100 mg/l, with a Cl content of 10 to 20 mg/l, and mainly of Ca-Mg-HCO3 type when measured in the island's interior springs. Na and Cl are prevalent in all the water tapped in the coastal zone, owing to the influence of sea water, even in the water with lowest mineral content. The groundwater of the coastal zones can therefore be considered essentially diluted sea water, the mineral content of which is determined by the degree of sea water intrusion (United Nations 1989).

Groundwater management

La Direction Générale de l’Eau des Mines et de l’Energie is the government department responsible for water policy and coordinating water projects on all three islands (PS Eau 2015 (1)). According to some sources, it holds available groundwater data for all of Comoros.

The public and commercial company Ma-Mwe is responsible for urban public water supplies, but in practice it only operates in Moroni and its surroundings, and even here water supplies are frequently cut off and/or there are problems with effective water quality treatment.

Water Management Committees (CGE) are user associations that manage water networks and distribution within their territory. The Union of Water Committees of Mohéli (UCEM) is an association of village water management committees on the island of Mohéli, created in 2007; the Union of Water Committees of Anjouan (UCEA) is an association of village water management committees on the island of Anjouan, created in 2002. Each is the contracting authority for projects implemented in their respective island and provides technical support to water management committees.

Associations 2-mains works on access to drinking water in rural areas of Greater Comore, among other projects.

Transboundary aquifers

For further information about transboundary aquifers, please see the Transboundary aquifers resources page.

References and Further Information Sources

Websites


References

More references with information on the geology and hydrogeology of Comoros may be available through the Africa Groundwater Literature Archive.


Cadot N. 2016. Projet pilote de gestion du service public de l’eau en milieu rural sur l’île de Grande Comore (GECEAU): Guide de conception de réseaux et d'organisation du service public de l'eau en milieu rural. Document Principal, Version 1. Apr 2016, 35p.

DGEME. 2014. La problématique de l'eau aux Comores. Présentation.

PS Eau. 2014. [https://www.pseau.org/outils/ouvrages/ps_eau_fiche_territoire_mayotte_2014.pdf Fiche territoire: Mayotte

PS Eau. 2015 (1). Fiche Pays: Union des Comores

PS Eau. 2015 (2). Fiche territoire: Grande Comore

PS Eau. 2015 (3). Fiche territoire: Mohéli

United Nations. 1989. Groundwater in Eastern, Central and Southern Africa: Comoros. United Nations Department of Technical Cooperation for Development.


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