From what I know about the stainless for marine. 316/316L in the best for corosion resistance above the water line, use 316/316L stick, or wire for welding, use just enough heat to weld together, dont over do it . clean with stainless wire brush and use pickling paste last.
304/304L can be used if you mainly stay in fresh water inviroments.
Tom

  Food for thought, They make special floppy sanding disk and grinding wheels for stainless plus keep a stainless wire brush, keep them all cleen and only use on stainless. I have made marine parts out of 304 grade for sailboats "trailer sailers" I prep for welding with floppy or grinding wheel, weld up with mig using a tri-mix gas for stainless or stainless stick rod then I clean it up with fine git floppy if needed then polish it up with stainless wire cup wheel in grinder with light pressure. When I am satisfied with the appearance I take them outside in the shade and give them the pickling paste treatment "nasty stuff"  washing real good after because the picking paste will cause problems if not washed off good. So far I have not had any problems with the rusting, the finish stays the same. Not a high tec aproach but ot does work.
  Tom

The first picture (The one that looks like a U bolt welded to a plate) looks like general corrosion of the weld & HAZ.  You said you were using 316?  Some of that might be eliminated or at least reduced by using 316L which would reduce sensitization if that is the problem.  the 2nd picture that looks somewhat like a downrigger with a handle looks like the corrosion is starting near crevices, such as the nuts.  That is I would believe a problem with the grade of stainless.  316L can do ok in seawater as long as it isn't stagnant, isn't warm, and doesn't have any crevices.  In those cases you should look for a more corrosion resistant alloy.  317L is a step above 316L.  The top of the line would probably be super duplex like 2507/Zeron 100 or Super austenitic like AL6XN or 254SMO.  You probably want something in the middle though.  There is plenty of information available from stainless steel vendors that you can sort through in your quest for the most economical material that will meet your corrosion requirements, and a lot of it is on the internet.  See if you can contact someone from companies like Allegheny-Ludlum, Avesta, Sandvik, or Outokumpu to tap into thier expertise.

Using the 316 L material and filler is a step in the right direction.

Electropolishing helps by removing iron from the surface of the material. This is worth doing on anything that You can fit into a tank.

You might also want to consider nitronic 50 and 60. They are very close to 316 mechanically, but salt water corrosion resistance is much higher

Mechanical polishing is OK, but when followed by electropolishing You will have the best chance of sucess.

Crevis corosion is a problem any place the surface is not exposed to air, be it mating surfaces or even from accumulation of dirt. When You fasten the stainless item bed it in a selant that actually seals out the water, or rust will bleed out of the joint. If not exposed to the oxygen in the air the stainless will lose it's passive surface.

It looks like the rust particles are embedded iron, most likely from iron oxide grinding wheels or sanding material.  The suggestion to pickle and passivate is a good one.  Use one of the commercially available pickling pastes or solutions after all grinding is complete.  Here's a link to a good resource on pickling:

http://www.outokumpu.com/applications/upload/pubs_113142858.pdf

And another good resource on post-fabrication cleaning:

http://www.corrosionsource.com/technicallibrary/nidi/literature/pdf/10004.pdf