Abstracts are not currently available in GtR for all funded research. This is normally because the abstract was not required at the time of proposal submission, but may be because it included sensitive information such as personal details.

Abstracts are not currently available in GtR for all funded research. This is normally because the abstract was not required at the time of proposal submission, but may be because it included sensitive information such as personal details.

Tanzania

If policy-makers are to foster growth in most developing countries today, where economies remain heavily focused on agriculture, they must choose which of two ongoing trends to support. The choice is especially clear in sub-Saharan Africa, where suitable land and water for cultivation are scarce and where climate change is underway, compounding the shortages caused by population expansion. They can endorse the neocolonial trend of allowing foreign corporations to acquire the best land and water in order to work large holdings entirely for export. Or they can nurture the capacity of small farmers and irrigators in existing communities to grow crops for household subsistence while also producing a surplus, or even other special cash crops, for sale in domestic and international markets. The proposed research would attempt to do the latter by encouraging innovation, in a novel effort to enhance local food security while increasing cash incomes and fostering market growth. The aim is to increase the capacity of households and communities to produce for both purposes while also adapting to climate change, by promoting technologies that improve the efficiency with which basic resources are utilized, particularly water. These technologies-including both 'hard' and 'soft' types, new ones as well as old-have been adopted by farmers in certain parts of Tanzania, Malawi, and Bangladesh, in dynamic irrigation communities that would be sites of the proposed research. The study would first explore these local adaptations ethnographically in three selected villages, and then sponsor a programme of reciprocal knowledge exchange between their water-user groups. By means of the latter, the project would seek to expand the options available to the farmers residing in each place, thereby influencing--in ways that cannot be predicted but can be carefully observed--the direction and pace of change. Of great value in its own right, as a comparative study of adaptations to emerging rural markets and to climate change, the research would also break new ground in the field of participatory development.

Groundwater resources in the coastal zone of EA are at risk. Increased demand, linked to rapid population growth in the coastal margins, has led to unsustainable and ill-planned well drilling and abstraction. Sea water intrusion into formerly freshwater aquifers frequently occurs as recharge from rainfall is insufficient to support the rate at which water is extracted. Wells supplying domestic, industrial and agricultural needs have, in many areas, become too saline for use. Climate change is expected to exacerbate this problem. Rising sea levels in the Indian Ocean region are projected to cause inundation of saltwater along the coastal zone, which is dominated by highly-permeable rock, while altered precipitation patterns and temperature change will affect the amount of water replenishing the aquifer through infiltration and recharge. Local communities across the region are already reporting changing tidal and rainfall patterns. The multiplicity of hydrological and demographic driving factors makes this a very challenging issue for management. At present the state of coastal aquifers in the EA region is not well constrained and past practices which may have exacerbated the problem have not been clearly identified. This project will bring together teams from Kenya, Tanzania and the Comoros Islands to address this knowledge gap; collaborating and working towards achieving water security in their respective areas. An integrative approach, combining the expertise of hydrogeologists, hydrologists and social scientists, will target selected sites along the coastal zone in each country. Hydrogeologic observatories will be developed where focussed research will identify the current condition of the coastal aquifers and identify future threats based on projected demographic and climate change scenarios. Water supply and monitoring needs will be identified through consultations with end-users and local authorities and optimum strategies for addressing these sought. An initial step will be to survey and bring together all existing data on well installations, abstraction, groundwater gradients and the salinity of existing wells at each pilot site. Understanding where wells are located, how deep they are, how much water is abstracted, what the flow directions are and what the salinity is, provides an overview of the state of the aquifer. Local data on hydraulic properties, such as the permeability, porosity, and storativity of the aquifer will be investigated and synthesised. Targeted electrical geophysical surveys, which provide relevant spatial information on both the aquifer structure and the saltwater distribution, will be undertaken. Similarly data is needed on the hydrological drivers in the system; to understand how much of annual rainfall infiltrates to replenish groundwater reserves (compared to the amount abstracted for human use) and how this might be impacted by changes in rainfall intensity or frequency. Land use and land use change is also important; controlling the proportion of incident rainfall which reaches the soil and subsequently groundwater. Recharge modelling will be an important tool for investigating different scenarios for climate and land use change and evaluating groundwater vulnerability. The social and political aspects of water use and development will be incorporated to assess the compatibility between the evolution of the availability of coastal freshwater resources and those of society and water politics. Researchers will engage with local community and stakeholder groups in each area and work together towards understanding the issues most affecting the communities with regards accessibility to water supply. A two-way exchange of knowledge between researchers and community members is essential in working towards feasible solutions to existing problems and ensuring preparedness for the changes in demographics and environment in the future.