I know subduction in plate tectonics is mainly density driven.
Probably a hypothetical question, but can weaknesses caused by tidal forces have an influence on the start of a subduction zone? Would this have been more likely in earlier earth history when the Moon's tidal forces where much stronger due to it having been closer?
My gut feeling would be, "no". Not because the forces are too small, but because they reverse with such a high frequency. People have been looking in databases of earthquakes and volcanic activity for decades for periodicities like this, because it seems reasonable to expect the state of the tide (position of the Moon) to have an effect. TTBOMK, any signals that have been reported are at quite low significance, and are disputed.
There's a philosophical challenge too. Does a subduction zone have a beginning in time that is meaningful at the "month" level? Except during aftershock swarms, it's not normal to get multiple major earthquakes in a month on a modest length of a subduction zone.
Tons of articles on tidal triggering of global earthquakes. Like this one:
"A review of tidal triggering of global earthquakes" August 2022 Geodesy and Geodynamics 14(1) DOI:10.1016/j.geog.2022.06.005
And subduction can't be density driven. The average density of old and new crust is the same cuz their average temperatures are the same. Older crust is not getting colder, it's getting thicker. They both have the same temperatures on their bottoms and tops, thus their average temperatures are the same.
Edit: Actually, on de-lamination, an older slab produces a layer of material of density higher than the average density of the slab. But that happens at the end of subduction and couldn't normally be considered as the driving force for subduction.
