Temperatures above 50C used to be a rarity confined to two or three global hotspots, but the World Meteorological Organization noted that at least 10 countries have reported this level of searing heat in the past year: the US, Mexico, Morocco, Algeria, Saudi Arabia, Kuwait, Iran, Pakistan, India and China.
In Iran, the heat index – a measure that also includes humidity – has come perilously close to 60C, far above the level considered safe for humans.
Heatwaves are now commonplace elsewhere, killing the most vulnerable, worsening inequality and threatening the wellbeing of future generations. Unicef calculates a quarter of the world’s children are already exposed to frequent heatwaves, and this will rise to almost 100% by mid-century.
One point I have to disagree on is the point you made about nuclear energy. Its untrue. If we switched to primarily using nuclear energy we would be able to successfully power the majority of the species using that technology. Its fear that stops us. Everyone is worried about another Chernobyl or Fukushima. When the logical course of action would be to find tectonically stable sites for any nuclear facilities. That’d be number one to solving a lot of meltdown concerns. The other would be to use well researched and planned designs. Chernobyl was a faulty design for a reactor that should never have been allowed to be produced.
Lookup Thorium reactors. Those are the true future of nuclear technology. Thorium is also abundant when compared to Uranium or Plutonium. It does not have the same weaponization issues. It does not produce the same high levels of radiation. It is also safer to handle and store once depleted.
https://en.wikipedia.org/wiki/Thorium_fuel_cycle#Thorium-fueled_reactors "Using breeder reactors, known thorium and uranium resources can both generate world-scale energy for thousands of years. "
Literally with nuclear power we can power the whole world for the next 2,000 to 3,000 years. Possibly longer. It’s fear that holds us back on this.
Yes and majority of time and expense that goes into building nuclear reactors is due to regulations, espeically NIMBY/fear based regulations. They have to hire teams of special lawyers for these and cases last years. That’s why when you see people describing the cost and time of building these, they always start at the planning stage which can include years of legal battles.
And these lawyers are usually nuclear engineers who went to law school afterwards, so they are pretty expensive to staff.
Biggest thing against nuclear power is the cost associated with it. Other, sustainable sources of energy like wind and solar, combined with hydrogen and batteries, are way cheaper due to their simplicity. Thorium reactors are a nice idea but need so much development (costs) that they will take a while to become a reality, if ever at all. Probably nuclear fusion will be available sooner than thorium fission for power generation, which also needs decades of development. And then there’s still the problem of nuclear waste. Maybe not a huge problem, but still one without a viable solution.
But that energy will be used for what? To mine for more minerals, create more waste, destroy more land, and make more species extinct? Our problem is not a shortage of energy nor is it even a problem of the efficiency or cleanliness of the energy. It’s a problem of our species living far beyond the sustainable bounds of the planet.
For carbon sequestration, which also needs to happen. Not only do we need to not put out more carbon into the atmosphere, but we also need to sequester atmospheric carbon. A LOT of it.
We are living beyond several planetary bounds but if we made our energy not release carbon, it would be a huge start. Harm reduction is valid.
Agree, but I think virtually all methods typically talked about are nonsense. Using massive fossil resources to design, build, and maintain giant machines or many smaller machines will ultimately do little to slow ecological collapse even if it does reduce carbon somewhat after some years needed to break even on production. The only sequestration method I’ve ever heard about that makes any sense to me is neighborhood scale production and use of biochar (and avoiding buying any sort of purpose made biochar device that required fossil resources to produce and ship to you). I make biochar in my backyard fire pit (which is a low smoke design) with used coffee tins (i.e. trash) and use the resulting biochar and ash in my compost.
Agree, Any and all scientifically backed methods to allow us time for degrowth should be considered. I’m not convinced nuclear energy should be a significant part of this though, too many downsides and risks.