Anybody have the actual paper? Found the actual publication in PNAS [1] and the author's page that has some of the prior work on lava zones [2], just not much about the actual paper or water reservoir area they're discussing. Looks like it went to conference back in 2023. Be nice if these folks had a pre-print server like Arxiv...
Making a guess reading the article, I'd say near Clear Lake, possibly as far south as Waldo lake and as far north as Breitenbush hotsprings. Although it looks like the claim is that similar amounts of water could be found under other regions in the Cascades. Both lakes are very deep and impressively clear, Clear lake has trees at the bottom that were killed in the creation of the lake when the volcano nearby erupted relatively recently.
When you get to a certain volume you are required to use Lake Meads instead of Olympic Swimming pools as the unit of measurement. Look I don’t make the rules.
Lake Mead is the primary water display to a number of states. It's also pretty low (and getting lower).
By comparing this resource to Lake Mead, it's making it relevant as a possible source of water. (Americans never found a resource they didnt want to exploit).
Of course it's not as simple as that. Water in aquifers is different to water in lakes. And it's not clear if the aquifer water could be directed into the Colorado River. Or how easily it can be extracted from the rock. Or how quickly it will replenish.
But the point is made. This is a lot of water that might be useful at scale.
Would have been better to not admit it was there or have hidden it.
The last things we need are more clean water reserves sucked dry by Intel rather than it focusing on guaranteeing its own supplies through other means, or used as excuses for Southern California not to continue its (admittedly in some counties admirable) efforts to get water resource management under control in concert with other states in the watersheds.
The fresh water that the PNW currently has access to is mind boggling. If it even comes close to being scarce, the whole world is probably in trouble.
We irrigate millions of acres with the Columbia, and it’s still the largest river to hit the Pacific once it gets there. Every city gets their drinking water from their own personal watershed. No one needs to bother sucking water up from far below ground.
From a per capita perspective you are probably correct, but there are a ton of people in eastern OR & WA that live within a few miles of the river and still have domestic wells into endangered aquifers.
Additionally, there are a lot of farmers with ground water rights (ie wells) and not a ton with surface water rights (ie rivers).
Most datacenters have no way to return their boiled, sterilized water for water treatment, and so they don't give or sell datacenter waste water back, it takes heat with it when it is evaporated.
> Revealed by 3D seismic imaging, the newly-discovered [Hikirangi] water reservoir lies 3.2 km (2 miles) under the ocean floor off the coast of New Zealand, where it may be dampening a major earthquake fault that faces the country’s North Island. The fault is known for producing slow-motion earthquakes, called slow slip events. These can release pent-up tectonic pressure harmlessly over days and weeks
> Summary: [...] Schmandt et al. combined seismological observations beneath North America with geodynamical modeling and high-pressure and -temperature melting experiments. They conclude that the mantle transition zone — 410 to 660 km below Earth's surface — acts as a large reservoir of water.
51 comments
[ 5.5 ms ] story [ 135 ms ] threadHow many Lake Meads is that equivalent to, for reference?
Because I've got eleven fingers worth of lakes that say different.
[1] https://www.pnas.org/doi/10.1073/pnas.2415155122
[2] https://pages.uoregon.edu/leif/markdown/
https://en.m.wikipedia.org/wiki/Light-year
I'm lost without sensible units.
19, but only if you start with a ground floor
With ground floor starting at 0 like in North America or at 1 as they have it in Europe?
Bonus: How do you call an elevator in Japan?
Lake Mead is the primary water display to a number of states. It's also pretty low (and getting lower).
By comparing this resource to Lake Mead, it's making it relevant as a possible source of water. (Americans never found a resource they didnt want to exploit).
Of course it's not as simple as that. Water in aquifers is different to water in lakes. And it's not clear if the aquifer water could be directed into the Colorado River. Or how easily it can be extracted from the rock. Or how quickly it will replenish.
But the point is made. This is a lot of water that might be useful at scale.
This is, unfortunately, the last thing that matters.
I searched for that image. It gives me a good idea of the size.
The last things we need are more clean water reserves sucked dry by Intel rather than it focusing on guaranteeing its own supplies through other means, or used as excuses for Southern California not to continue its (admittedly in some counties admirable) efforts to get water resource management under control in concert with other states in the watersheds.
Resource curse.
We irrigate millions of acres with the Columbia, and it’s still the largest river to hit the Pacific once it gets there. Every city gets their drinking water from their own personal watershed. No one needs to bother sucking water up from far below ground.
Additionally, there are a lot of farmers with ground water rights (ie wells) and not a ton with surface water rights (ie rivers).
(Edit: nanoimprint lithography may have significantly lower resource requirements than traditional lithography? https://arstechnica.com/reviews/2024/01/canon-plans-to-disru... : "will be “one digit” cheaper and use up to 90 percent less power" )
Datacenters too;
"Next-generation datacenters consume zero water for cooling" (2024) https://news.ycombinator.com/item?id=42376406
Most datacenters have no way to return their boiled, sterilized water for water treatment, and so they don't give or sell datacenter waste water back, it takes heat with it when it is evaporated.
From https://news.ycombinator.com/item?id=42454547#42460317 :
> FWIU, datacenters are unable to sell their waste heat, boiled sterilized steam and water, unused diesel, and potentially excess energy storage.
"Ask HN: How to reuse waste heat and water from AI datacenters?" (2024) https://news.ycombinator.com/item?id=40820952
> There is a global resource shortage.
> Authoritarian state on the other side of the planet controls it.
> US is finished.
> American farmer in the middle of nowhere US discovers the largest supply of said resource known to mankind.
> Repeat.
[1] https://www.reddit.com/r/neoliberal/comments/1e77yxp/it_keep...
How does it affect tectonics on the western coast of the US?
Cascade Range > Geology: https://en.wikipedia.org/wiki/Cascade_Range#Geology
https://www.sci.news/othersciences/geophysics/hikurangi-wate... :
> Revealed by 3D seismic imaging, the newly-discovered [Hikirangi] water reservoir lies 3.2 km (2 miles) under the ocean floor off the coast of New Zealand, where it may be dampening a major earthquake fault that faces the country’s North Island. The fault is known for producing slow-motion earthquakes, called slow slip events. These can release pent-up tectonic pressure harmlessly over days and weeks
The "Slow earthquake" wikipedia article mentions the northern Cascades as a research area of interest: https://en.wikipedia.org/wiki/Slow_earthquake
They say water has a fingerprint; a hydrochemical and/or a geochemical footprint?
Is the water in the reservoir subducted from the surface or is it oozing out of the Earth?
"Dehydration melting at the top of the lower mantle" (2014) https://www.science.org/doi/abs/10.1126/science.1253358 :
> Summary: [...] Schmandt et al. combined seismological observations beneath North America with geodynamical modeling and high-pressure and -temperature melting experiments. They conclude that the mantle transition zone — 410 to 660 km below Earth's surface — acts as a large reservoir of water.
+1 for gratuitous consumption!