Is it time to try geoengineering to solve the climate crisis?

[Andrew Lockley]

https://www.newscientist.com/article/2272646-is-it-time-to-try-geoengineering-to-solve-the-climate-crisis/

Is it time to try geoengineering to solve the climate crisis?

ENVIRONMENT | ANALYSIS 25 March 2021

By Adam Vaughan

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The launch of a stratospheric balloon at Esrange Space Center in Sweden

SSC

The United Nations last month laid bare how badly the world is doing on its climate targets. Today the US National Academy of Sciences (NAS) says such slow progress means the US should launch a $100-$200 million research programme on solar geoengineering, a controversial set of techniques to reflect sunlight back to space in order to cool the Earth.

However, the group stressed in a report that it isn’t calling for deployment of such solar geoengineering technologies and warns that doing more research is no excuse for “giving up on decarbonisation”.

The report reviews geoengineering methods such as “solar shields”, which rely on injecting aerosols into the stratosphere. A group led by Harvard University is researching this approach with an experiment releasing a few hundred grams of mineral dust from a high-altitude balloon above Sweden later this year. It will be the first time that particles have been intentionally injected into the stratosphere in an attempt at geoengineering.

That project, called SCoPEx, will only go ahead if an initial test balloon flight at Esrange Space Center in Kiruna, Sweden, goes well. It also hinges on a green light from an independent advisory committee, which has delayed giving a verdict, initially due on 15 February.

“We really need to do the research because I’m really worried where we’re going with climate change, as action is just not fast enough,” says Frank Keutsch at Harvard University, who is leading SCoPEx . Modelling how particles behave that high up, and how much sunlight they reflect, or extrapolating from what happens during a volcanic eruption only goes so far, says Keutsch – at some point observational data is needed.

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The NAS backs the idea of real world experiments like Keutsch’s, provided they are subject to good oversight. “Limited outdoor experimentation could help advance the study of certain atmospheric processes that are critical for understanding solar geoengineering,” the report says.

Shaun Fitzgerald at the University of Cambridge says more research and funding is welcome so that governments are informed if they have to deploy such radical measures one day. “There is a responsibility that when decisions are made on deployment, they are not made in the absence of knowledge. That would be a dereliction of duty,” he says. The research could conclude that deployment must be ruled out entirely, he adds.

Evidence to date suggests that solar geoengineering could lower Earth’s surface temperature, but also indicates that there could be unintended negative consequences. Those include weakening resolve to cut carbon emissions and creating “unfavourable” changes in rainfall and extreme temperatures in some countries, says the report.

Still, critics fear that crossing the Rubicon of moving from indoor to outdoor tests would ultimately lead to deployment. Without limits imposed by the SCoPEx advisory committee on what the team can do after initial tests, “there is a real risk of inducing a slippery slope where one experiment will lead to another”, says Ina Möller at Wageningen University and Research in the Netherlands.

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The NAS report calls for the US government to adopt a $100-200 million research effort over five years. It could explore which solar geoengineering approaches are “most fruitful”, fund chemistry and microphysics research on the properties of particles used for reflecting sunlight, and gain a better understanding of what the public thinks about the technology.

“It isn’t saying solar geoengineering’s time has come,” says Emily Shuckburgh at the University of Cambridge. “It is very specifically saying only that the time has come for an international transdisciplinary solar geoengineering research programme focused on understanding the options and risks, and explicitly not on a path to deployment.”

Fitzgerald questions whether the three technologies covered by the NAS report – which also include cloud brightening and cloud thinning – are necessarily the right ones to focus efforts on. He says more localised approaches, such as trying to preserve Arctic ice to reflect light back to space, may be worth considering too, partly because they would be less controversial.

If the US did adopt a major research programme, it might go part way towards allaying one of the biggest concerns of opponents of solar geoengineering: the lack of any international body controlling what experiments and deployment could take place. The NAS says the research effort “should support the development of international governance mechanisms”.

But David Santillo at the University of Exeter, UK, says bodies such as SCoPEx’s advisory committee aren’t sufficient because they won’t consider all the social and ethical issues. He thinks the role could go to an existing United Nations body, such as one overseeing a treaty on long-distance air pollution that crosses borders, or a new one could be created.

Such global governance is a long way off, though. In the short term, the NAS report is a boost for Keutsch’s experiments, and any that might follow. Keutsch is aware that the success or failure of his project could determine whether future experiments happen. He is also clear the world stands at an important milestone. “It doesn’t get much more symbolic than some balloon you’re launching up there, it symbolises ‘oh, where has humanity got itself to’,” he says.

Read more: https://www.newscientist.com/article/2272646-is-it-time-to-try-geoengineering-to-solve-the-climate-crisis/#ixzz6q9Re42Mh