Millions of farmers in South Asia depend on meltwater from the Himalayas. Melting glaciers, rainwater and groundwater allow farmers downstream to irrigate their crops. Using a novel model, an international team of researchers determine for the first time how great the impact of melting glaciers will be on the downstream water supply in the future, and how the pressure on different water sources will increase. Their results will be published on 19 May in Nature Climate Change.
The Himalayas are a climate change hotspot: areas located at high altitude heat up faster than the rest of the planet. As a result, glacier ice is melting which affects the millions of farmers downstream who are partly dependent on glacial meltwater. In addition to climate change, an increasing demand for water – due to expanding farmland to feed a growing population – plays an important role in determining future water shortages. “Using a novel model, we were able to calculate very precisely where and when water will be needed in the future, and where it will come from – rainwater, groundwater, or meltwater from the mountains,” says Arthur Lutz, hydrologist at Utrecht University and lead author of the study.
The model integrates the effects of climate change and increasing water demand. Lutz: “The model incorporates changes in snowfall and glaciers in the high mountains, as well as changes in water use for downstream agricultural crops.” This allowed the scientists to see exactly what the climate and socio-economic effects would be on South Asia’s water supply in the future. They were also able to see how the pressure on different water sources (meltwater, rainwater, groundwater) will change.
What exactly will change? Global warming causes glaciers to start melting earlier in the year, just when crops are being sown. This is favourable, but later in the year, when crops need the most water, there is less meltwater. Climate change also makes rainfall more irregular, so farmers have to pump more groundwater later in the year to compensate for a shortage of rain and meltwater. The effect is exacerbated by expanding farmland needed to feed more people. “Therefore, a lot of extra groundwater has to be pumped up, more than can be replenished,” says Hester Biemans, researcher at Wageningen University and co-author of the new study. “This is not sustainable in the long run.”
The results of this study can be used for targeted climate adaptation and sustainable water management in this geopolitically complex region. This could include increasing water storage capacity in large and small reservoirs, using water more efficiently in agriculture, and switching to different crops or different sowing dates. Such measures can help reduce the pressure on meltwater and groundwater resources. The researchers will continue their calculations to determine the best combination of measures.
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