A block won't retain an object unless the block is copied. Since a block can only capture state within the same scope as that captured state, the implementation assumes no need to actually retain anything unless the block is copied for the purposes of escaping the scope of declaration.
Think of it in terms of "execution pointer" (kinda like when you are stepping through code in the debugger).
When the execution pointer passes over a block's declaration, that block captures a snapshot -- copies -- all variables that are used within the block's scope that are not declared within the block itself. For an object, that means the block makes a copy of the reference to the object, not a copy of the object itself.
A block starts on the stack. When a block is copied the first time, it is copied from the stack to the heap using a compiler generated per-block "copy helper" (a simple block may not have a copy helper and might actually never be on the stack). That copy helper will retain any objects referenced by the block (that are not referenced via an
__block variable anyway).
They won't be released until the block is released and deallocated.