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Groundwater key to climate resilience in rural Ethiopia – Study

A recent study carried out by the British Geological Survey (BGS), the University of Addis Ababa and the Overseas Development Institute (ODI) showed that people who have access to groundwater from boreholes are much less affected by drought than those who rely on wells or springs for their water supply.

Groundwater map
Africa Groundwater Atlas overview

The report also links the shortage of water to conflict in local areas to migration, a decline in breastfeeding rates, a rise in miscarriage rates, and more children missing school.

Groundwater experts from the BGS monitored 19 hand-dug wells, springs and boreholes in two districts in northern Ethiopia over 18 months. They also held focus-group discussions with local people, including school and health centre staff, near each of the groundwater sources.

The team found that boreholes drilled to 50 – 100m were the most reliable source of water during the extended drought of 2015 – 16 and through the dry season.

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“We found that boreholes equipped with hand pumps were more reliable than springs or hand-dug wells, and this reliability was not affected by drought or seasonal change. As hand-dug wells dried up and springs failed, the boreholes we monitored gave the same flow throughout the year,” said Prof Alan MacDonald, the BGS hydrogeologist who led the research.

He noted that boreholes also had better water quality. “As the drought ended and rain started falling many of the springs and hand-dug wells became grossly contaminated. The boreholes performed much better, with less than half of them showing any level of contamination,” he said.

The findings make a clear case for the installation of more boreholes to improve resilience to drought. If constructed carefully and regularly maintained, Prof MacDonald believes that boreholes can transform the water security for rural villages and make them much more resilient to the effects of climate change.

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According to Dr Seifu Kebede from Addis Ababa University’s earth sciences department, a significant finding of the study is the length of time people without boreholes spent in water collection during the dry season and drought, and the very low volumes of water they were able to collect.

“People were routinely queuing for up to 10 hours, which led to tension and sometimes violence, and had wide-ranging impact across communities. Women breastfed less and experienced more miscarriages; meals were missed, and farm work was reduced to help collect water. School attendance was down in all but one district, as children were involved in water collection,” said Dr Kebede noting that all health centres in the study area reported increases in diseases, and, in some cases, employees were paying for water collection to keep the centres functioning.

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“We must look at how communities source water during a normal dry season to predict how they will cope during drought years. This study shows that boreholes, where they can be installed, could be the most reliable source of groundwater in these areas of northern Ethiopia,” he said.

According to the BGS’s African Groundwater Atlas, Ethiopia has a high potential for groundwater in the highland regions due to the mostly permeable rocks. A major challenge, however, is the rugged terrain, which can hinder the movement of drilling rigs.

The project was funded by the Natural Environment Research Council (NERC) and the Department for International Development (DfID). The full report was published on Thursday, August 23, 2019 in Environmental Research Letters.

Courtesy: PAMACC News

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