果冻影院

A new study reveals that reserves of groundwater in much of the populated parts of Africa are being replenished at rates that could help to protect communities against the damaging effects of climate change and also sustain widespread groundwater pumping for drinking water.

A team of researchers from across Africa and the UK, including聽Professor Alan MacDonald, of the ,听Professor Richard Taylor, of 果冻影院 Geography and聽Professor Seifu Kebede聽from the University of KwaZulu Natal, estimates that long-term groundwater recharge in Africa is approximately 15,000 km3 (cubic km) per decade, including some recharge even in arid and semi-arid areas.

In 2012, BGS and 果冻影院 scientists found that, although Africa is a notoriously dry continent, it is actually sitting on a vast reservoir of groundwater. Effective water supply investments thus require reliable data, not only about groundwater availability and storage, but also how quickly it is replenished as 鈥榬echarge鈥�.

Now, for the first time, the team has published maps of long-term average groundwater recharge based on ground-based measurements. The maps show average recharge rates for the whole of Africa between 1970 and 2019, comparing results from over 134 studies, combining them with data about available groundwater storage.

Published in the journal,听, the maps provide a new and unique perspective on water security for Africa. They also emphasise that groundwater recharge needs to be assessed over decades rather than individual years because of variability in the intensity of rainfall from year to year.

According to the lead author聽Professor Alan MacDonald聽of the BGS:

鈥淭he data reveal some interesting patterns about Africa鈥檚 water security. We already know that having聽both聽low groundwater storage and recharge considerably reduces water security for local populations. What these new maps tell us is that the majority of African countries have聽either聽high storage or high groundwater recharge."

Only five countries have both recharge and storage below the African average, including eSwatini, Zambia, Lesotho, Zimbabwe and Eritrea. This is where extra care is needed to develop groundwater. The maps also show, however, that many North African countries with little rainfall, such as Libya, Algeria and Egypt, usually considered to be water insecure with very low recharge rates, have considerable groundwater storage.

Co-author聽Professor Richard Taylor聽explains:

鈥淚n areas where groundwater is largely disconnected from current climate, groundwater pumping slowly depletes a finite reserve. Consequently, increased groundwater pumping in the short term could ultimately be at the expense of future generations. Conversely, most African countries with little groundwater storage, such as Liberia, Cote D鈥橧voire and Burundi, receive regular recharge so we know this can form a reliable supply. Nevertheless, if groundwater is overused, for example for large scale irrigation, available groundwater could still be in danger of drying up during droughts.鈥�

The researchers hope that the maps will provide a benchmark for assessing future models and a reliable baseline for future research.

Co-author聽Professor Seifu Kebede聽adds:

鈥淭his effort brought together extensive African knowledge with expertise from other countries to provide information to develop water resources sustainably and overcome some of the most pressing issues countries often face, such as drought, deprivation, and starvation.鈥�

The research was funded by the聽UPGro聽research programme, co-funded by the UK Natural Environment Research Council, Foreign, Commonwealth & Development Office, and the Economic and Social Research Council.

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