Need a little help on parallel systems of different voltages.

You cannot share anything whatsoever...except the chassis ground...between the two systems. No wiring, no batteries, no panels, no panel wiring, no charge controllers or wiring, only the chassis ground. BTW, make sure that you have a good, large, bare metal chassis ground for each and every bank of batteries. In other words, either a very large one for the 48V bank (the best way to do it), or 4 smaller ones, one for each battery in the 48V bank, along with a 5th for the dual 12V battery bank.

For 75aH batteries, I would recommend a single 2 gauge for the dual 12V bank, and at least a single 1/0 gauge, also known as single aught, or zero gauge, for the 48V bank. Oh, and when you sand away the paint from the chassis for the chassis ground, buy and apply a couple of 99 cent from AutoZone packages of dielectric grease, unless you want to resand them every few months.

edit: Actually, because of the higher voltage and lower amperage, 2 gauge would also be perfect for the 48V bank to share.

Okay, you need to stop and reconsider. What you are wanting to do, having both the panel and the charge controller anywhere in the neighborhood of 50 feet away from the batteries would require you running about 6 separate runs of 4/0 gauge copper wire. That may be a bit of an exaggeration, but honestly not too extremely*. The charge controller goes absolutely as close as possible to the battery/batteries as possible. Six feet is pretty much the maximum (for a 12V nominal system), and that is not 6 linear feet, that is 6 wire feet, from the batteries. Now, running the ~30V from your solar panel 50ish feet to the charge controller is no problem, when charging a 12V system with an MPPT CC. Any other way is very, very highly not recommended. BTW, any reason why you aren't wanting the solar panel going with you, when you go camping?

Also, I somehow missed that you are wanting to run a 75aH 48V battery, to run a well pump. Yes, I see very clearly that you mentioned it in your first post, but I somehow didn't catch it. Unless it's a low volume/low amperage pump, it may very well not even be enough battery power to get the pump "spun" up. Pumps require absolutely, positively huge amounts of amperage on startup. Oh, one more thing. Why are you wanting to use two 12V batteries in your RV, instead of two 6V batteries? You can buy 215 aH 6V golf cart batteries for $100 each, and then you have zero parallel connections, and they are actual deep cycle batteries. Any of the cheaper 12V "deep cycle" batteries aren't actual deep cycle batteries. You'll know it isn't a deep cycle, if the specs for the battery make any mention whatsoever of either "marine", or cranking amps. No true deep cycle batteries even mention cranking amps.

*For example, it may "only" require 4 or 5 runs of 4/0, instead of 6.

Okay, you said in your first post that you were wanting to charge your RV batteries, so that was how I was responding. You are bringing back in the RV completely, or almost completely, charged batteries that you just want to keep float charged. That is a completely different story, and 10 gauge will be be perfect for that. Batteries that are already charged use/take almost zero amperage, compared to what they request/require when they are discharged. Good luck, and happy camping.