Interesting, but am I the only one the find “memory” a bit out of place here (and it is all over the article). It seems that is just needs a threshold value of vapour, right?
Just from my own ground based evaluation of the weather this seems pretty self-evident. The hyperbole around it is funny, but all that aside it’s good science and gives me the language and mental model to better understand what I am seeing.
Which, at its core, is the point of science. There are plenty of things we know are real phenomena, that have important impacts, that we can't actually describe mechanistically. The entire idea of science is to be able to do that. And doing that well can be very hard.
Which is IMO why "science literacy" is so hard.
In an analogy: you can very easily point to chimps and humans and gorillas and say "those are similar, it's self evident" but it took a good few millennia for humans to be able to describe the hows and whys of the similarities in detail. Mechanistically.
Key sentence from the abstract: "The atmosphere’s fast mixing time scales were thought to
inhibit the necessary memory effect for such multistability."
In other words, this is an important but fairly technical result.
https://en.m.wikipedia.org/wiki/Hysteresis#Rate-independent
Which is IMO why "science literacy" is so hard.
In an analogy: you can very easily point to chimps and humans and gorillas and say "those are similar, it's self evident" but it took a good few millennia for humans to be able to describe the hows and whys of the similarities in detail. Mechanistically.
In other words, this is an important but fairly technical result.