Biotechnology for sustainable water supply in Africa
European-funded project targets sustainable water supply in Africa and other developing countries / Using biotechnology is seen as a simple and cost-efficient approach
Although climate change is observable across the globe, its negative impacts are most obvious in Africa. Indeed, the continent is facing a variety of problems, whereby the most important and urgent ones to tackle are water scarcity, famine and disease. In addition, limited natural and financial resources as well as economic difficulties complicate the process of improving wastewater treatment techniques. The treatment of polluted waste water and its reuse is more or less the only way for African countries to avoid the exhaustion of limited water resources and to deal with water scarcity. Most developing countries cannot afford the majority of advanced and specialized systems used for the treatment and purification of wastewater. As a consequence, wastewater is inefficiently treated and therefore still contains pathogenic organisms, xenobiotics and heavy metals after treatment. Inefficiently treated wastewater is not only environmentally unfriendly and contaminates the groundwater, which is considered to be as precious as oil in this almost desertified continent, but additionally and more importantly endangers human health.
In the course of the WATERBIOTECH project, a consortium comprising 17 partners (8 European, 7 African, 1 from the Middle East and 1 international) is developing a practical approach using biotechnology as an affordable, cost-effective, efficient and environmentally friendly method for wastewater treatment in Africa. Sana Arousse, WATERBIOTECH Project Manager, defines biotechnological methods as "all the techniques that are governed by plants or micro-organisms which can detoxify contaminants in water, soils, sediment, and sludge." Based on this principle, WATERBIOTECH combines traditional wastewater treatment techniques with more modern ones such as stabilization pond technology, maturation ponds, constructed wetlands, sequenching batch reactors, membrane technology, bio-desalination, or trickling filter. The advantage is that all these techniques are easily adaptable to local conditions and resources in developing African countries.
The target countries of the project are Algeria, Burkina Faso, Egypt, Ethiopia, Morocco, Senegal, South Africa, Tunisia, Ghana and Saudi Arabia.
ttz Bremerhaven is a provider of research services and performs application-based research and development. Under the umbrella of ttz Bremerhaven, an international team of experts is working in the areas of food, environment and health.
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