Metabolic rifts

When will the world’s wells run out of water?

Within three decades, almost 80% of the lands that depend on groundwater will start to reach their natural irrigation limits as the wells run dry.


by Tim Radford
Climate News Network

Within three decades, almost 80% of the lands that depend on groundwater will start to reach their natural irrigation limits as the wells run dry.

In a world of increasing extremes of drought and rainfall, driven by rising global temperatures and potentially catastrophic climate change, the water will start to run out.

It is happening already: in 20% of those water catchments in which farmers and cities rely on pumped groundwater, the flow of streams and rivers has fallen and the surface flow has dwindled, changed direction or stopped altogether.

“The effects can be seen already in the Midwest of the United States and in the Indus Valley project between Afghanistan and Pakistan,” said Inge de Graaf, a hydrologist at the University of Freiburg.

Groundwater – the billions of tonnes locked in the soils and bedrock, held in vast chalk and limestone aquifers and silently flowing through cracks in other sediments – is the terrestrial planet’s biggest single store of the liquid that sustains all life.

Groundwater supplies the inland streams and rivers, and the flow from tributaries is an indicator of the levels of water already in the ground.

For thousands of years, communities have drawn water from wells in the dry season and relied on wet season rainfall to replenish it. But as human numbers have grown, as agriculture has commandeered more and more of the land, and as cities have burgeoned, demand has in some places begun to outstrip supply. The fear is that rising average temperatures will intensify the problem.

Dr de Graaf and colleagues from the Netherlands and Canada report in the journal Nature that they used computer simulations to establish the likely pattern of withdrawal and flow. The news is not good.

“We estimate that, by 2050, environmental flow limits will be reached for approximately 42% to 79% of the watershed in which there is groundwater pumping worldwide, and this will generally occur before substantial losses in groundwater storage are experienced,” they write.

That drylands – home to billions of people – will experience water stress with rising temperatures is not news. Climate scientists have been issuing warnings for years.

Ground level drops

And demand for groundwater has increased with the growth of the population and the worldwide growth of the cities: some US cities are at risk of coastal flooding just because so much groundwater has been extracted that the ground itself has been lowered.

The important thing about the latest research is that it sets – albeit broadly – a timetable and a map of where the water stress is likely to be experienced first.

In a hotter world, plants and animals will demand more water. But in a hotter world, the probability of extremes of drought increases.

“If we continue to pump as much groundwater in the coming decades as we have done so far, a critical point will be reached also for regions in southern and central Europe – such as Portugal, Spain and Italy – as well as in North African countries,” Dr de Graaf warned.

“Climate change may even accelerate this process, as we expect less precipitation, which will further increase the extraction of groundwater and cause dry areas to dry out completely.”

 

Print Friendly, PDF & Email
Posted in Climate Change, Food and Farming, Metabolic Rift, water

One Response to When will the world’s wells run out of water?

  1. David Schwartzman October 15, 2019 at 10:01 am #

    This post identifies a big challenge, but there are solutions. Fresh water is not really a depletable resource like fossil fuels, recognizing that most of the latter must be left in the crust to keep warming below 1.5 deg C. To be sure water in aquifers can be depleted when extraction exceeds recharge. The solution to this depletion as well as ensuring a supply of fresh water to arid regions in the future is found in the nuclear reactor 93 million miles away, the fusion reactor in the core of the Sun. Solar radiation drives the global water cycle, supplying fresh water as rain to land areas, and can supply all of humanity’s future needs for energy, including what is required for desalination of seawater. Even if hopefully warming can be kept below 1.5 deg C, the impact of another 0.5 deg C of warming will generate more rain in some regions, less in others. Recharge of groundwater in the former will be potentially increased, and desalination can supply fresh water to the latter regions. In addition, agricultural practices that conserve fresh water must be implemented in a shift to agroecologies/permaculture including farming crops in brackish water.

 characters left
Please be concise

Leave a Reply

This site uses Akismet to reduce spam. Learn how your comment data is processed.