"Native threads" are separate contexts of execution, managed by the operating system kernel, accessing a shared memory space and potentially executing concurrently on separate cores. Compare this with separate processes, which may execute concurrently on multiple cores but have separate memory spaces. Making sure that processes interact nicely is easy since they can only communicate with each other via the kernel. Ensuring that threads don't interact in unpredictable, buggy ways is very hard since they can read and write to the same memory in an unrestricted manner.
The R situation is fairly straightforward: R is not multithreaded. Python is a little more complicated: Python does support threading, but due to the global interpreter lock (GIL), no actual concurrent execution of Python code is possible. Other popular open source dynamic languages are in various mixed states with respect to native threading (Ruby: no/kinda/yes?; Node.js: no), but in general, the answer is no, they do not support fully concurrent native threading, so Julia is not alone in this.
When we do add shared-memory parallelism to Julia, as we plan to – whether using native threads or multiple processes with shared memory – it will be true concurrency and there will be no GIL preventing simultaneous execution of Julia code. However, this is an incredibly tricky feature to add to a language, as attested by the non-existent or limited support in other very popular, mature dynamic languages. Adding a shared-memory concurrency model is technically difficult, but the real problem is designing a programming model that will allow programmers to make effective use of hardware concurrency in a productive and safe way. This problem is generally unsolved and is a very active area of research and experimentation – there is no "gold standard" to copy. We could just add POSIX threads support, but that programming model is general considered to be dangerous and incredibly difficult to use correctly and effectively. Go has an excellent concurrency story, but it is designed for writing highly concurrent servers, not for concurrently operating on large data, so it's not at all clear that simply copying Go's model is a good idea for Julia.