specifically on windows, the reason is a combination of the implementation of hotspot (the sun/oracle JVM) and windows dlls.
32-bit code has access to a 4GB virtual address space (there are extensions that allow more but i wont be going into those).
on 32-bit windows the upper 2GB of this virtual address space are reserved for operating sysem use (some versions of the OS accept the /3GB flag as a boot parameter to allow for 3GB of user-accessible space).
also, any libraries (*.dlls) you use are mapped into parts of this address space. by default the windows base *.dll files are loaded at the ~1.6 GB mark (differs slightly by OS version and patch level)
on top of all this, the hotspot JVM only supports allocating a single, continuous, chunk of memory for use as heap space.
so, if you try and picture this in your head, you'll see that you have a free area of ~2GB with a "wall" of windows *.dlls loaded at ~1.6GB. this is the logic behind that figure. it also means that even if you provide the /3GB flag the sun/oracle JVM will not be able to make use of it. some other VMs are better at handling a fragmented heap - like the jrockit VM
you could also try rebasing windows dlls so that they load into higher memory addresses and squeeze some more usable heap space, but the process is fragile.
also note that its very possible that drivers/applications loaded on a particular machines (like anti virus software) will inject their own *.dlls into a java process, and those dlls can be loaded at ever lower memory addresses, further shrinking your usable heap space.
on 64bit versions of windows the addressable limit is 8-128TB and the physical limit stands at 64TB right now