Climate Action Can Limit Asia’s Growing Water Shortages - Study

Even “modest” action to limit climate change could help prevent the most extreme water-shortage scenarios facing Asia by the year 2050, according to a new study led by MIT researchers.

By Peter Dizikes | MIT News Office 

Roughly 60 percent of the global population lives in Asia, often with limited access to water. Image source: MIT

The study takes an inventive approach to modeling the effects of both climate change and economic growth on the world’s most heavily populated continent. Roughly 60 percent of the global population lives in Asia, often with limited access to water: There is less than half the amount of freshwater available per inhabitant in Asia, compared to the global average.

To examine the risk of water shortages on the continent, the researchers conducted detailed simulations of many plausible economic and climate pathways for Asia in the future, evaluating the relative effects of both pathways on water supply and demand. By studying cases in which economic change (or growth) continues but the climate remains unchanged — and vice versa — the scholars could better identify the extent to which these factors generate water shortages.

The MIT-based team found that with no constraints on economic growth and climate change, an additional 200 million people across Asia would be vulnerable to severe water shortages by 2050. However, fighting climate change along the lines of the 2015 Paris Agreement would reduce by around 60 million the number of people facing severe water problems.

But even with worldwide efforts to limit climate change, there is a 50 percent chance that around 100 million people in southern and eastern Asia will experience a 50 percent increase in “water stress” — their inability to access safe water — and a 10 percent chance that water shortages will double for those people.

“We do find that a mitigation strategy can reduce the heightened risk of water stress in Asia,” says Adam Schlosser, deputy director for science research at MIT’s Joint Program on the Science and Policy of Global Change, and co-author of a newly published paper detailing the findings. “But it doesn’t solve it all.”

The paper, “The Impact of Climate Change Policy on the Risk of Water Stress in Southern and Eastern Asia,” is being published today in the journal Environmental Research Letters. The authors are Xiang Gao, a Joint Program research scientist; Schlosser; Charles Fant, a former Joint Program postdoc and a researcher at Industrial Economics, Inc; and Kenneth Strzepek, a Joint Program research scientist and a professor emeritus at the University of Colorado.

The research team also uses models that track municipal and industrial activities and their specific water-demand consequences across many smaller subregions in Asia. Irrigation tends to be a major driver of water consumption, leading to diminished access to water for other uses.

Overall, the researchers conclude, through the mid-21st century, “socioeconomic growth contributes to an increase in water stress” across the whole region, but climate change can have “both positive and negative effects on water stress.” The study turns up a notable amount of regional variation in the effects of climate change within Asia. Climate change by itself is likely to have a more adverse impact on water access in China than in India, for instance, where a warming climate could produce more rain.

Apart from the most likely scenarios, another significant finding is that the potential for extreme water stress is associated with unabated climate change. As the authors state in the paper, “A modest greenhouse gas mitigation pathway eliminates the likelihood of … extreme outcomes” in water access. But without any such climate measures, “both countries have a chance of experiencing extreme water shortages by midcentury,” Gao says.

The study is part of a series of papers the research team is producing to assess water risks across southern and eastern Asia, based on modeling that captures the natural and managed aspects of the water systems across the region. A 2016 paper by the group established that there was a significant risk of water shortages for about 1 billion people in Asia by 2050. The current paper focuses on the impact of climate change policy, and a future paper will analyze the implications of adaptation strategies.

‘There are no easy options,” Schlosser says, of the various ways of limiting climate change. “All of them carry associated costs, and our continued research is looking at the extent to which widespread adaptive and water-efficient measures can reduce risks and perhaps be cost-effective and more resilient.”

The study was supported, in part, by the U.S. Department of Energy, as well as the government, industry and foundation sponsors of the MIT Joint Program on the Science and Policy of Global Change.

The Paper: Xiang Gao et al. The impact of climate change policy on the risk of water stress in southern and eastern Asia ,  Environmental Research Letters  (2018).  DOI: 10.1088/1748-9326/aaca9e 

Source: MIT

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Taxonomy

• Resource Management
• Water Resource Management
• Climate Change
• Climate Change Adaptation
• Climate Change Resilience
• Urban Resource Management
• Water Resource Management
• Climate

1 Comment

1. The Paris agreement diverts the world from the real cause of climate change and leads the planet to a catastrophe. Not СО2, and our attitude to water affects natural disasters and climate.
       The lack of water in Asia is due to the fact that it is there that the person most consumes water and changes its essence with his rice checks, the construction of reservoirs.
    As a result of human activity, the functions of the main part of the water have changed. Instead of keeping the biota and cleaning it, by supplying it with moisture, mineral and organic substances, the water comes with precipitation and returns to the atmosphere by artificial evaporation from arable lands, asphalt, reservoirs, dumps. In total, people took from nature 63% of the inhabited earth for these purposes, each hectare of which contained 20 tons of underground living creatures. These are microbes, worms, and so on living creatures that, in symbiosis with plants and terrestrial populations, absorb moisture, transform in food chains and exhale purely individual pairs, which we call natural or organic vapors. Human intervention in the circulation of water reduces food chains, and water from asphalt and other destroyed areas evaporates immediately after precipitation. We call these evaporation artificial. More artificial fumes are produced by industry and utilities around the world. The total artificial evaporation creates unprecedented volumes of water in the atmosphere, which destroyed the mechanism of atmospheric phenomena, which has been improved for millions of years. The cyclicity, massiveness and zones of precipitation have changed.
   Almost the whole of Europe has "ennobled" its territories with arable land, water reservoirs, and cities.
       Only the all-round return to nature of organic fumes and the reduction of artificial fumes can save the world.
           Among the measures to reduce artificial fumes should be the total total water saving in everyday life by every person, every enterprise of all branches of agriculture and industry. Reconstruction of the entire agriculture with the introduction of non-waste plowing, drip irrigation. There are many different ways and means of reducing water consumption.
   One of the most capacious in artificial evaporation are man-made reservoirs. Full stop of projects and construction of new reservoirs, gradual liquidation of existing ones is necessary. There are interesting technical solutions for the conservation of power generation without dams and water accumulation