Groundwater Resource Management for Refugees in Uganda

Chris Lowry, Jim Jensen and Kory Smith in Uganda.

In the past two years, Uganda has witnessed an influx of nearly one million refugees who have settled in the sparsely populated northwestern region of the country. This rapid population growth has created high demand for clean water resources. Water supply has been unable to keep pace with demand because the fractured rock aquifers underlying the region often produce low yielding wells. To facilitate management of groundwater resources it is necessary to quantify the spatial distribution of groundwater.

In fractured rock aquifers, there is significant spatial variability in water storage because fractures must be both connected and abundant for water to be extracted in usable quantities. Two conceptual models were evaluated to determine the groundwater storage mechanism in the fractured crystalline bedrock aquifers of northwestern Uganda: permeability is controlled by faulting which opens up fractures in the bedrock, and permeability is controlled by weathering, which occurs when water dissolves components of rock. The conceptual models were evaluated using four inverse groundwater MODFLOW models based on known head and estimated flux targets. The first model was based on the underlying bedrock units, the second model incorporated both bedrock units and known fault zones, the third model incorporated bedrock units and land surface slopes (thought to be a predictor of deep weathering), and the fourth model combined slope, faults and bedrock units. Predicting permeable zones is vital for water well drilling in much of East Africa and South America where there is an abundance of both fractured rock and tectonic activity.

Given that the population of these developing regions is growing, the demand for sufficient clean water is likely to increase significantly in the next few decades. Thus, it is necessary to improve our ability to predict locations of permeable zones in fractured rock aquifers.

Featured Articles and Reflections

  • Water Resources for Ugandan Refugee Populations
    10/30/17
    The South Sudan civil war has led to an influx of approximately one million refugees to Uganda, one of the poorest countries in the world. Unlike most nations, Uganda welcomes refugees with the right to land, freedom to travel, ability to work, and access to food, water, and shelter. Unfortunately, limited water sources in Northern Uganda, where most refugees settle, are generally not safe for consumption. Currently around 8 million people in Uganda, 20% of the population, do not have access to safe water. Without access, subsistence farmers struggle to feed their families and earn a living, and children under the age of five die from diarrheal disease caused by poor water and sanitation.

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Ryan Frederiks

Graduate Student

Geology

Christopher Lowry

Assistant Professor

Geology

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Phone: 716-645-4266

Email: cslowry@buffalo.edu

James N. Jensen

Professor; Director of Undergraduate Studies, Environmental Engineering

Department of Civil, Structural and Environmental Engineering

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Email: jjensen@buffalo.edu