>living things take this weird detour into lower entropy
Take a look at “Into the Cool” by Eric Schneider and Dorian Sagan. It’s about as academic as it can be while remaining accessible. It’s basic premise builds off of the truism that “nature abhors a gradient” and attempts to lay out a theory that the gradient of solar energy falling on the planet (along with a plethora of other rarer factors) generated higher-complexity constructs as a way to absorb and reduce that gradient. There are plenty of non-living phenomena in nature which are subtly very organized but which result in net increases in entropy in the longer term. One of the examples described in the book are a kind of voronoi cell pattern that emerges when heating a thin layer of oil which succeeds in reducing the temperature gradient very effectively. Even if it isn’t a hard hitting proof of the abiogenetic mechanism it is still a very interesting read.
Take a look at “Into the Cool” by Eric Schneider and Dorian Sagan. It’s about as academic as it can be while remaining accessible. It’s basic premise builds off of the truism that “nature abhors a gradient” and attempts to lay out a theory that the gradient of solar energy falling on the planet (along with a plethora of other rarer factors) generated higher-complexity constructs as a way to absorb and reduce that gradient. There are plenty of non-living phenomena in nature which are subtly very organized but which result in net increases in entropy in the longer term. One of the examples described in the book are a kind of voronoi cell pattern that emerges when heating a thin layer of oil which succeeds in reducing the temperature gradient very effectively. Even if it isn’t a hard hitting proof of the abiogenetic mechanism it is still a very interesting read.