The Challenge of urban flood control: The case of Accra’s 
Korle Lagoon 

E.M. Abraham, P. Drechsel and O. Cofie 

International Water Management Institute, PMB CT 112 Cantonments Accra, Ghana 
(E-mail: e.abraham@cgiar.org; p.drechsel@cgiar.org;o.cofie@cgiar.org) 

 

Abstract 
In urban Sub-Saharan Africa there are three main problems related to water, namely drinking 
water supply, wastewater handling, and seasonal flooding. Mega Accra has a functional 
population of 2.7 million inhabitants with about 60 percent of the Metropolitan dwellers living 
in informal settlements or slums in the centre of the city while the middle and upper class 
move to its periphery. Like in all cities in the subregion, Ghana is experiencing a high level of 
pollution in its water bodies particularly where they are located near human settlements, 
industrial (including mining) estates and agricultural undertakings. About 60% of the 
Metropolis lives in the catchment of the Odaw River and Korle Lagoon and contribute to the 
environmental problems which result in flood situations. This is a major challenge to city 
authorities in instituting flood control measures. The aim of the study is to develop a planning 
framework to address the complex nexus between flood control and sanitation, which should 
include all key stakeholders and a multi-disciplinary approach based on a careful stakeholder 
analysis. Several key questions relating to pollution, hydrology, sociology and the local 
economy of the inhabitants of the Odaw River- Korle Lagoon catchment are addressed. 

Keywords 
Flood control, urban water quality, urban drainage, waste management, sanitation, urban 
agriculture 

INTRODUCTION 
In urban Sub-Saharan Africa there are three main problems related to water, namely drinking 
water supply, wastewater handling, and seasonal flooding. In our context we will focus on the 
linkages between flood control and sanitation on the example of Accra, the administrative, 
political and commercial capital of Ghana located at the coast of the Gulf of Guinea.  
 
Accra’s population growth rate is about 3.4 % annually, which is constrained by the outdated 
boundary of the city. The actual population growth takes place behind this boundary where the 
Ga and Tema districts grew between 1984 and 2000 at a rate of 6.4 and 9.2%, respectively. 
Including both districts, we get the functional boundary of (Mega) Accra, as the urban dwellers 
perceive it, with 2.7 million inhabitants (Twum-Baah, 2002).  
 
Accra covers an area of 229 km2

 . About 60 percent of the Metropolitan dwellers live in 
informal settlements or slums in the centre of the city while the middle and upper class moves 
to its periphery. The Accra Metropolitan Assembly (AMA) is struggling to provide basic 
services to its growing population and at the same time to create and maintain a healthy urban 
environment. It is facing a number of challenges, especially in its central slum areas: 
o increasing coverage of safe water supply and sanitation facilities  



  

o improve collection, transport and treatment of wastewater and solid waste and finding 
suitable ways for its disposal or reuse 

o appropriate drainage of storm water 
 
Like in all cities in the subregion, Ghana is experiencing a high level of pollution in its water 
bodies particularly where they are located near human settlements, industrial (including 
mining) estates and agricultural undertakings (MWH, 1998). Rivers flowing through cities, 
towns and villages serve not only as sources of water supply for the inhabitants but also as 
open sewers. The official sewer systems, even in the capital Accra, cover seldom more than 
5% of the households. The aim of the PhD study is to develop a planning framework to 
address the complex nexus between flood control and sanitation. 
 

MATERIAL & METHODS 
The study will involve all key stakeholders in a multi-disciplinary approach based on a careful 
stakeholder analysis. It will explore existing planning constraints and look for opportunities in 
terms of options for platform building, Learning Alliances and capacity building at different 
levels. 

RESULTS AND DISCUSSION 
As the project did not start yet, only a first overview on the problem is provided: 
 
Stormwater management  
Accra experiences a bimodal rainfall regime, which occurs from March to July (major rainy 
season) and from September to November (minor rainy season). Average annual rainfall is 
about 810mm. Rainfall is usually intensive with short storms, giving rise to annual local 
flooding where drainage channels are missing or obstructed.  
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
          Figure 1 Map of Accra showing the Odaw catchment and the Korle Lagoon 
 
 
 

  

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Some of Accra’s slum areas are the most affected. Of special focus in this study is the Odaw 
River which flows into the ocean through the Korle Lagoon, one of the “world’s dirtiest 
places” (IDRC, 1996) (Figure 1). The Lagoon is the principal outlet to the sea for the city of 
Accra, and about 60% of the Metropolis lives in the catchment of the Odaw stream and Korle 
Lagoon. Prior to the explosion of the city’s population and the onset of the severe pollution of 
the Korle Lagoon in Accra, i.e. in the early 1950s, the lagoon supported a thriving fishery of 
both fin and shellfish, which served as a source of income for people in the nearby 
shantytowns. The fisheries have now been lost (Biney and Amuzu, 1995). The lagoon receives 
water from a total catchment area of 400km2. It receives discharges from three main sources–
the Odaw River and two major drains in its western and eastern sections. As these drains are 
open, they collect all kinds of debris and silt into the lagoon (Mensah, 1976). It has been 
estimated that a biochemical demand (BOD) load of 10,500 kg day-1 is generated within the 
slums and shantytowns near the Korle Lagoon, with appreciable quantities of this reaching the 
Lagoon due to the inadequacy of waste disposal sites (Biney and Amuzu, 1995). This, 
however, is probably only a small part of the inflow through the Odaw. It is therefore 
important that measures are put in place to manage stormwater and wastewater influx so as to 
minimize the amount of pollutants entering important water bodies like the Odaw River and 
the Korle Lagoon. Presently, there is not any comprehensive plan by the city regarding 
stormwater management via streams and constructed drains in view of their dependency on an 
appropriate waste management. This obviously must change if urban water would be managed 
and the resources harnessed to ensure healthy living of city dwellers especially within the 
Odaw-Korle catchment. 
 
Drainage in Accra 
Drainage in Accra usually consists of natural drains and a few major stormwater drains. There 
is also a network of small drains known as gutters to serve a dual purpose as storm water drain 
and as well convey domestic effluent. In the case of the Korle  lagoon, its auxiliary function as 
a central drainage system emptying its content into the sea, has resulted in it becoming shallow 
over time due to excess siltation and waste finding their way into the water body with runoff 
(Biney, 1982). As the Lagoon is heavily silted, the outlet is often blocked, and the water fails 
to flow into the sea fast enough to avoid becoming stagnant. This leads to periods of flood 
when it rains (Boadi and Kuitunene, 2002). Due to Accra’s limited sanitation infrastructure, 
the lagoon receives a huge amount of wastewater as well as solid waste through the Odaw 
River (Boadi and Kuitunen, 2002). Figure 2 shows Agbogbloshie drain entering the Korle 
Lagoon with all kinds of debris.  
 
 
 
Fig. 2: Korle Lagoon  
(right) and the 
Agbogbloshie drain (below) 
 

 



  

The social dimension 
A particular problem with high socio-political significance is Accra’s major slum known as 
Old Fadama or Sodom & Gomorrah. The slum is located directly at the Korle Lagoon, near the 
suburb of Agbogbloshie. Old Fadama occupies about 31 ha with a squatter community of 
estimated 30,000 people. In view of the precarious situation of the highly polluted Lagoon, the 
slum is believed to constitute its primary source of pollution, especially since the landfill 
opposite to Old Fadama was closed down and rehabilitated. However, alternative assessments 
say that only a few percent of the total pollution load entering the lagoon comes from the slum 
area (COHRE, 2004). Still, the waste flows coming out of the slum through the Agbogbloshie 
drain and Odaw River are uncontrolled and ultimately end in the Korle lagoon. 
 
The sanitary situation within the slum at Korle Lagoon is disastrous. In general, any larger 
storm water gutters are lacking, and smaller ones around individual houses/shelter are not 
connected, or blocked by solid waste and stagnant rain and wastewater poses serious health 
risks. In most other parts of Accra, much emphasis is put on a network of gutters which 
function as open sewers-cum-storm water drains discharging their load into the ocean or 
natural waterways, like the Odaw River. As the Korle Lagoon also functions as a buffer 
against flooding, there are a number of self-constructed and locally managed communal toilets 
but people also defecate free-range along the Lagoon. As there is no safe dumping site for 
content of buckets and pans, dumping into the Korle Lagoon is likely. There is a local waste 
dump close to the river, managed by the community without public support. Small-scale 
entrepreneurs provide independent sanitation services (public bath houses, sachet water 
supply, waste transport) and obtain a livelihood out of providing these services, but are 
possibly also polluting the lagoon. The community shows commitment and is self-organizing 
cleaning campaigns, supported by the NGO “Peoples Dialogue” and local Federations.  
 
Three limitations in the drainage system in Accra are - institutional limitation, 
infrastructural/financial limitation, and behaviour of the citizens. The lack of adequate 
institutions with the capacity to plan and ensure proper management of stormwater and 
drainage is implicated in the current environmental challenges which confront the city today. 
The insufficiency of stormwater drains in the city, or under capacity drains have not helped in 
addressing challenges of seasonal flooding in the city during rainy seasons. The additional 
inability of the Waste Management Departments to collect all solid waste generated in the city 
leads to illegal dumping, preferably into streams and drains. People normally clean just their 
immediate environment but remain careless about what happens in the river or lagoon next to 
them. With this mentality, individuals within the city, and especially in the low income areas 
have the general propensity of dumping refuse and other waste into the river or the lagoon as 
occurs along the whole Odaw River, not only near Old Fadama. The impact of urban sanitation 
for a successful storm water management can thus not be over-emphasized. 
 
 
 
 
 
Addressing the challenges of drainage and stormwater management 
 

The need for inter-sectoral approaches 
So far, sectoral approaches were not able to achieve any breakthrough in addressing the 
challenges of urban flood control. An example of such an approach is the Korle Lagoon 
Environmental Restoration Project (KLERP), which started in the year 2000. This Project is 



  

the largest of its kind addressing Accra’s natural resources problems. It was carried out in two 
phases so far. The objective of the project is to restore the Korle Lagoon, as far as possible, to 
its former state in which marine life was abundant and offered substantial improvements to the 
drainage systems in Accra by way of ensuring efficient floodwater conveyance to the sea. The 
project, however, focused on the lagoon itself and a related sewage system but was not 
extended to the incoming waste load via the Odaw River from the heart of Accra. Facing its 
inability to succeed, the KLERP asked for the removal of the Old Fadama community as most 
“obvious” obstacle. This echoes Accra’s efforts to restore the Lagoon as a wetland. Since May 
2002, the residents are under the official threat of eviction.  
 
The KLERP included sanitation control measures, the construction of a sewage treatment plant 
with a total capacity of 1300 m3day-1. As well as 3100 m network of drains for the diversion of 
the dry weather flows, as well as the construction of a new sea outfall pipe from the treatment 
plant of 1.5 km in length (Boadi and Kuitunen, 2002).  
 
A larger, intersectoral approach to the KLERP would have indicated that it is not enough 
trying to restore a disturbed natural ecosystem at the end of the pipe without any measure to 
deal with the challenge at the upstream and midstream sections of the Odaw River, the main 
river draining into the Korle Lagoon. In addition, the discussion about the neighboring slum 
showed clearly that drainage is not only a technical issue but requires a sensitive approach and 
social impact assessments to analyze feasible options for the people concerned. 
 
The institutions indicated in Figure 2 below must necessarily all be involved in such an 
important project of addressing challenges of stormwater management and drainage systems in 
Accra to ensure improved life of the city dwellers. For instance the linkages shown on figure 2 
indicate that the Ministry of Environment, Science and Technology works together with the 
Ministry of Works and Housing in addressing the drainage and stormwater management issues 
in Accra whereas the Environmental Protection Agency offers the main support in terms of 
SEA technical advise and enforcement of regulations. 
 
In the process of intersectoral management of stormwater and drainage one aspect that 
emerges is integrated (urban) water resources management (IWRM) where water bodies, 
wetlands and streams within an urban context are crucial for various (sometimes competing) 
uses, while at the same time they are the receivers of many different waste flows, creating 
externalities between uses and users, calls for management at the lowest appropriate level and 
taking a catchment approach to capture the hydrological dependencies. In an urban context, the 
type of intervention envisaged influences the choice of the unit of work. Neighbourhoods are 
for example the typical unit at which to organise sanitation or solid waste services. A 
hydrological catchment would be most relevant for applying pollution control and monitoring 
measures. Integrated Water Resources Management in an urban context will need to straddle 
both catchment and administrative or social boundaries and will need specific adaptations to 
the urban planning context.  
 
 
 
 
 
 
 
 
 



  

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
    
 
                                                     
 
 
 
 
 
 
 
     
 
 
 
 
 
                                                            
 
 
Figure 2: Key stakeholders in urban water management 

Urban agriculture, sanitation and flood control 
The Odaw/ korle catchment used to support fishing and vegetable cultivation along its border. 
However following the formation of the slum and the subsequent restoration project, farmers 
were compelled to abandon the catchment since conditions, including access to land and (safe) 
water were no more favourably. Inspection of urban agriculture sites within the city indicate 
that such sites are generally clean because farmers would not allow any one to dump refuse at 
such sites. These farms are located mostly along open drains, streams, and other water bodies 
to facilitate easy access to water for irrigation. The water is carried in watering cans or in some 
cases a motorized pump is used to pump the water to the farm site. Streams used are usually 
blocked or diverted for use in irrigation. Not only does urban agriculture keep the sites tidy and 
free from waste but ensures that the soils are receptive for rain while avoiding erosion. This 
supports flood control. The farmers occupying such lands also maintain a constant urban 

Ministry of Environment Science and 
Technology: provides advisory services to 
ensure that environmentally sound 
technologies are employed in urban water 
management. 

Ministry of Water Resources, 
Works and Housing: has primary 
responsibility of maintaining 
drains and protecting water 
bodies in the metropolis 

Environmental Protection 
Agency: Official mouthpiece of 
government on technical issues 
on environment under the 
Ministry of Environment 
Science and Technology. Plays 
advisory role, guides social and 
environmental IA and sets 
standards and ensures 
compliance through 
enforcement 

Accra Metropolitan 
Assembly (AMA). 
Responsible for the 
collection, treatment 
of human and liquid 
waste. Operates the 
Sewage treatment 
plant 

Metro Health 
Directorate of AMA: 
Responsible for 
sanitation and public 
health issues within 
the Accra metropolis 

Ghana Water 
Company: supplies 
Accra-Tema with 
pipe borne water. 
The Ministry 
assumes jurisdiction 
over its operations. 



  

greening and the cultivated lands serve as sinks to floodwater and reduce pressure on 
stormwater drains. Illegal occupants such as squatters are also prevented since it is the 
incipient stage of slum creation with its concomitant environmental and health problems. This 
has been termed as the control function of urban agriculture in ensuring good sanitary 
conditions within the city. Urban agriculture is significant in Accra there are presently about 
1000 farmers on 7 large sites, along streams and drains in Accra. Of this number, 600 farmers 
cultivate exotic vegetables throughout the year while 400 farmers located in one site cultivate 
indigenous vegetables like okro, tomatoes, garden eggs in the rainy season and occasionally 
depend on polluted streams and drains like the exotic farmers.  

Capacity building in addressing these challenges 
Participatory research and capacity building e.g. in Geographic Information Systems (GIS), 
Multistakeholder Processes for Action Planning and Policy Formulation (MPAP), Strategic 
Environmental Assessment (SEA) including costs and benefits of externalities, and other tools, 
applied in the context of this study are also important. Training will ensure that the 
stakeholders involved in the restoration project for instance are at a common leverage 
regarding knowledge base, perception, orientations and general understanding of the core 
issues which will influence decision making in the project execution. In the restoration of the 
lagoon it was observed that the success of the project depended heavily on the capacity of the 
Environmental Protection Agency to effectively monitor and regulate industrial activities in 
the Odaw-Korle Lagoon complex. This is quite important in addressing the main challenges of 
drainage and stormwater management. 
 
Local action and provision of alternatives 

This will involve the active participation of the people who are directly affected by the 
restoration of the lagoon. There is need for them to also understand and appreciate the 
implications of their activities on the Odaw/Korle catchment. Within such communities the 
opinion leaders, which in this case will include the Assembly man for the area and a few 
people with some form of education could mobilize themselves and institute strategies to help 
address the drainage, sanitation and seasonal flooding within the catchment. One important 
component in finding solutions to water problems of such magnitudes is the provision of 
alternatives. For instance, one way of reducing the dumping of refuse into Odaw River 
upstream is to make sure that sufficient waste collection points have been designated and that 
waste is not allowed to accumulate but are collected by trucks on time. Once the waste is 
collected on time the issue of waste being washed into the River to induce siltation, which 
could lead to flood situation, is also avoided. Availability of well constructed drains and 
sanitation facilities will address haphazard discharges of domestic effluent and human waste 
onto the environment. 

 
Key research questions 
o How severe is the contribution of Old Fadama to the pollution and flooding of the Lagoon 

and what could be done to reduce it? 
o How unsuitable is the area of Old Fadama for human settlements, also in comparison with 

other parts of the capital? 
o How many people live in this informal settlement, under what kind of conditions and with 

which livelihood support? 
o Which low-cost temporary sanitation improvements are possible to provide the local 

population with the dignity the law requires, with or without “upgrading” the slum? 
o How would any action influence the restoration of the wetland?  



  

 
o How could Accra address the basin-wide water pollution challenge to sustain fishing in the 

lagoon, aquaculture and urban farming? 
o What are the key issues relating to flood control within the Odaw River/Korle Lagoon 

catchment 
o What are the key hydrological data to be collected for decision support? 

CONCLUSIONS 
Mega Accra has a current population of about 3 million. It is the most populated and the fast 
growing metropolis in Ghana with an annual growth rate of  3.4%. The Accra Metropolitan 
Assembly (AMA) is struggling to provide basic services to its growing population and at the 
same time to create and maintain a healthy urban environment. The paper thus seeks to 
ascertain innovative ways of addressing the challenges of storm water and drainage 
management, flood control and provision of sanitation facilities for city dwellers. This is 
necessary as the Odaw/Korle catchment receives about 60% of the storm water in Accra. 
Secondly the catchment is home to a major slum known for its unhealthy living conditions 
which gives the whole a strong social component. The most appropriate approach to address 
this complex situation is an intersectoral one tapping expertise from different disciplines. The 
involvement of key institutions is important for the success of any attempt to address the above 
stated challenges. 

REFERENCES 
 
Boadi  K.O. and M. Kuitunen, “Urban Waste Pollution in the Korle Lagoon, Accra,  
Ghana.” The Environmentalist 22 (2002) 301-309. 
 
Biney  C.A., and Amuzu A.T. (1995). Review of Korle  Lagoon Studies. Accra, Ghana:  
Institute of Aquatic Biology.  

Biney  C. A. (1982) Preliminary Survey of the State of Pollution of Coastal Environment of 
Ghana. Oceanologia Acta No SP, 39-43  

 

IDRC 1996. GHANA: The nightmare lagoons; http://archive.idrc.ca/books/reports/e234-
13.html 

Mensah  G.G (1976). Water Quality and Pollution Survey of Inland Coastal Waters in Ghana. 
Accra, Ghana. Water Resources research Institute. 

Ministry of Works and Housing (MWH) (1998). Ghana’s Water Resources. Management 
Challenges and Opportunities. Accra. 78p 
 
The Centre on Housing Rights and Evictions (COHRE) 2004. A Precarious Future: The  
Informal Settlement of Agbogbloshie, Accra, Ghana. 
 
Twum-Baah  K.A. (2002). Population Growth of Mega-Accra : Emerging  Issues. In : Ralph  
M-T and Adi-Dako K. (eds). Visions of the City of Accra in the 21st Cntury. Woeli Publishing  
Services. p31-38