You haven't shown any code here to highlight parts of your application that are causing objects to accumulate in memory, so it's hard to provide a specific answer to your situation. However, there are some broad suggestions that I can provide based on my experience in migrating several projects across on Mac and iOS.
In another answer, I describe in detail several areas of memory management that you'll still need to watch out for under automatic reference counting. The primary concerns here are retain cycles and Core Foundation objects (or other non-Objective-C memory allocation).
Given that you had an application which did not accumulate memory on repeat actions before and was cleanly ported through the ARC migration tool, retain cycles are more likely the problem than improper bridging, etc. with Core Foundation. The migration tool tends to highlight problematic areas with Core Foundation and catch those before they become an issue. How to deal with them may be tricky, but you at least know they're there.
Retain cycles can be subtle bugs to track down. Look for delegates that are set using strong instance variables or properties, rather than weak or unsafe-unretained ones. Examine your use of blocks or block-based notification observers, because they can hold on to references to the objects that create them (particularly in the case of the observers) and create cycles. Check for objects further down a navigation hierarchy that use strong references to point to ones higher up.
Use Instruments to track down the specific objects that are accumulating via the Leaks and Allocations tools. In the latter, use heap shots between repeated actions to see which objects are created and still alive after each pass. You should also be able to identify where those objects are allocated, hopefully leading back to what's grabbing an incorrect strong reference.
The Leaks instrument has a new retain cycles detector, which can be seen by going to the lower panel and changing the "Leaks" popup to "Cycles & Roots". This doesn't catch everything, but it can help.
I've now moved multiple projects on Mac and iOS to ARC, including Mac applications that had been using GC, and in each case the applications have been better off for it. The process has exposed bugs that I had missed for years in my memory management, cut on average ~3% of my project code, and has led to some significant performance increases in my previously garbage collected Mac applications (I haven't benchmarked my iOS ones yet).