I thought it was so favoured because the Standard C++ language doesn't have any mechanism for threading. However, I then stumbled on the fact that there are libraries one can use on linux for threading.
That's odd reasoning. There is a lot more to Boost than threading. Plus, just because there's a Linux library for threading doesn't mean it will work on your Windows code; Boost.Thread is cross-platform.
Allow me to hit some of the high points of Boost:
C++11 now has most of these (and improvements on them using C++11 language features). But for the past 8+ years, this was where you came for a good
shared_ptr implementation. Use of these things should be mandatory where possible.
They make life in C++ so much simpler.
Not my cup of tea, and another Boost library incorporated into C++11. But if you want to do regular expression searching of strings, it doesn't get much more standard than this.
Bind and Function
Yet another thing that was incorporated into C++11, but unless you have access to a C++11 compiler/library, Boost is your best bet for this. Being able to store any kind of "callable" object in an object is incredibly useful for callbacks. And being able to adapt "callable" objects to different sets of parameters is incredibly useful, particularly with algorithms.
C++ has standard library facilities for opening and closing files. But nothing for looking for them or dealing with filenames. Boost does, and in a very nice API to boot. It handles platform-specific encoding through a platform-neutral interface. It allows Unicode support across those platforms that have it, etc.
You know how the standard algorithms take a begin and end iterator, but most of the time you really just want it to walk the whole container? Range is here for you. It defines iterator ranges (which containers are), and it provides algorithm variants that take range objects explicitly.
What's great about Range is that the range algorithms are lazily evaluated. So you can do functional-style composition of algorithms, which works efficiently. Many algorithms return a range (which is really a range placeholder); if you feed one range into another range, you can get powerful effects with simple composition.
AKA: a type-safe union. Once you put an object of type X into it, you cannot get anything but type X out of it. Period. This is a useful tool for doing some light runtime-polymorphism work without having to use a derived class.
These are just a few of the libraries in Boost.