The first thing you should learn is that asynchrony and threading are two different things. Threading is about concurrency, not about asynchrony. More specifically: concurrency is a strategy for managing asynchrony.
We need to manage asynchrony because computer programs increasingly are manipulating high latency data sources. That is, the gap between when you need to get the information and when the information becomes available to the processor is large enough that the processor ought to be doing something else in that time. The source of that latency could be anything -- it could be that another thread is doing the work and the current thread is waiting. It could be that another computer in this cluster is doing the work, or it could be that you're waiting for a disk to spin or data to arrive over a network, or whatever. Latency is everywhere these days.
The typical way to deal with this is to synchronously wait for the information to become available; that is, block. What if you don't want to stall your processor waiting for the information? You need to wait asynchronously. That is, do something else while you're waiting.
Threads are one solution to this, but they're not a great solution. Neither blocking nor doing a lot of work on the UI thread is a good idea, and dealing with threading in general makes you have to reason globally about your program in order to avoid deadlocks. Another solution is to break up the work into tiny little pieces; as soon as one piece of work has to wait, you queue its continuation up, go do something else, and come back to it later, all on the same thread. The async work that will be done in the next version of C# uses a combination of various techniques to achieve better support for asynchrony without blocking the UI.
If this subject interests you, I have an article on it for beginners in October 2011's issue of MSDN magazine which you can read online here. My colleagues Mads and Stephen also have articles that go into more depth.