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Weather Engineering Could Short Circuit Intense Storms — But It Comes With Big Consequences
Saturday, December 21, 2024

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HomeScienceWeather Engineering Could Short Circuit Intense Storms — But It Comes With Big Consequences

Weather Engineering Could Short Circuit Intense Storms — But It Comes With Big Consequences

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Right now, people in coastal China are fleeing successive typhoons. Parts of the Philippines are awash. Right now, people in coastal China successive typhoons.

Parts of the Philippines are awash. Typhoons are intense circular storms, which Australians know as tropical cyclones and Americans call hurricanes. Damage from cyclones since the 1980s, even as death tolls .

In the 2010s, tropical cyclones did $872 billion Australian worth of damage globally. Why? Our world has more heat in the oceans and atmosphere, which can . A cyclone is a , transferring heat from warm ocean water up into colder layers of the atmosphere.

More heat in the system means more intense heat engines. No wonder there’s been renewed interest in Cold War-era experiments in weather control. While early efforts had little success, our evaluates other methods of weakening these storms by pumping up cold water from the depths of spreading particles in the lower atmosphere to reduce incoming heat and encourage early rainfall.

But these techniques could have unexpected — or even dangerous —side effects. Why are researchers even looking into this? Tropical cyclones are lethal. In 1970, an struck Bangladesh (then East Pakistan).

Meteorologists knew it was coming, but they had no way to communicate with people in its path. The storm killed up to 500,000 people. Since then, we’ve invested in far better .

Deaths have now that people have time to evacuate. But in developing countries, in particular, deaths still happen. And then there’s the damage to farms, houses, roads, and livestock.

You may well survive the storm only to be forced into poverty. Scientists are exploring ways of , from bushfires to floods to hailstorms. So why not cyclones? Typhoons hit the Philippines regularly, causing a hit to the economy and livelihoods each time.

This image shows the impact of last week’s typhoon in Manila. Can we really turn a cyclone into a normal storm? It is certainly possible. But it’s not easy.

In the 1960s, the United States explored the use of cloud seeding to stop hurricanes from forming. During , planes flew high above cyclones out at sea and sprayed them with silver iodide, a chemical that could encourage water droplets to clump together and fall as rain. This, the theory ran, would disrupt the hurricane from forming.

While some seedings seemed to correlate with weaker hurricanes, the link was never adequately found, and the project was eventually abandoned. Instead, researchers are exploring two new options. Cyclones need hot sea surfaces to form.

If we could cool the surface — such as by piping chilled water from depths — we could prevent the cyclone from ever forming. The problem is it’s expensive. Norwegian cyclone-busting startup OceanTherm estimates it about $750 million Australian to develop the technology and another $105 million every year to keep it going.

And worse, cooling one area of the sea does nothing to stop cyclones from forming elsewhere. ocean cooling will, at best, have only a limited dampening effect on cyclones. There’s a more likely option — aerosol injection.

Scientists already know that dust blown from the Sahara into the Atlantic . We could use planes or drones to inject hygroscopic (water-attracting) particles into the lower atmosphere, where they would reflect and scatter sunlight and trigger rainfall and energy release. This method has a stronger scientific pedigree, given it already occurs naturally.

But we don’t know what side-effects it would have, and we still aren’t sure what happens to energy redistributed by the intervention. Other research aerosols could reduce cyclone intensity while boosting rainfall on the rotating outer edges of cyclones. Heavier rain could still cause substantial damage.

As you’d expect, it’s easier and more effective to intervene early in a cyclone’s life before too much energy builds up. Making the call to try to stop a cyclone means making decisions early. That’s a challenge because faster in a hotter world.

Difficult politics, difficult policy Cyclone control missions might conjure up the image of to save the world. Unfortunately, it’s more complicated than that. Let’s say the Philippine government spots an extremely dangerous cyclone forming and decides to disrupt it.

But the heat doesn’t magically go away. It just moves. Suddenly, another storm reappears, heading straight for China, a country you have a testy relationship with and who may blame you for weather manipulation.

Far-fetched? Not at all. When Cuban dictator Fidel Castro heard of Project STORMFURY, he to turn the weather into a weapon. Only three years ago, China’s neighbors sounded the alarm about the Middle Kingdom’s plans to reroute an atmospheric “sky river” to dry northern regions.

This, according to nations like India, could from their rivers. So who would decide how or when to snuff out a cyclone? How would they decide? Should private companies be allowed to run their , or should these large-scale interventions be government-only? Who would be responsible for any side effects? There are more thorny questions. If cyclone control is perfected, what would stop a country from trying to redirect cyclones toward a rival? Could cyclone technologies be misused, following similar fears with ? Most importantly, are these technological risks worth the potentially reduced risks of cyclones? What’s next? We’ll need to find answers to questions like these.

As cyclones get stronger, we will urgently need new institutions to help tackle scientific uncertainties, develop monitoring capabilities and find ways of making collaborative decisions at speed. That won’t be easy — most international agreements move slowly, and most their intended goals. Technologies like particle injection are promising but not ready for deployment.

As technology matures, so should our institutions. It’s why we’re researching the science and policy of these interventions. We must hash out how and when to use technologies like these — before we need to respond urgently.

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From: inverse
URL: https://www.inverse.com/science/cyclone-weather-engineering-stop

DTN
DTN
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