Just something to think about. If I posed similar questions about change in windage or elevation from 150 to 500 yards on rifle systems including everything from run of the mill AR through to F class rifles sending 180+grain 7mm projectiles or ELR cartridges, there will be a lot of different answers for the same interval.
Seems pretty common here in Aus, if groups open on F class rifles and it's got hot they wind in and the opposite when it gets cold, I would assume this it to bring the barrel movement back into phase with the shortened or lenghthened barrel transient time, primarily due to powder temperature change but with small compounding effects from barrel length growth/contraction/air density in the bore ahead of the bullet/minor changes in stiffness/elastic response of barrel/action/stock. Given nearly every rifle system has different stiffness, lenght, weight and barrel transient bullet time I think it's pretty childish suggesting that if every system doesn't have exactly the same response to 10 degrees even on the same tuner it's bullshit.
People talking about "scientific method" while admitting that fitting a suppressor or large mass does change grouping and vertical. Let's step back to first principles, compare this to numerical analysis of differentials or integration. You dice up very small changes or steps to calculate or back calculate the impact of a function change/area/what have you. If you accept adding a suppressor or large mass has an effect, then it follows that there are piecewise impacts from adding or moving mass on the system. Unless you genuinely want to argue it's a step function from no effect whatsoever to suddenly impacted, but if that was the case surely there would only be two barrel profiles in existence too?
