Always reduce scope as far as possible. If a variable doesn't need to be visible outside a function, it should not be declared outside it either. The static keyword should be used whenever possible. If you declare a variable at file scope, it should always be static to reduce the scope to the file it was declared in. This is C's way of private encapsulation.
The above is true for all systems. For embedded there is another concern: all variables declared as static or global must be initialized before the program is started. This is enforced by ISO C. So they are always set either to the value the programmer wants them initialized to. If the programmer didn't set any value they are initialized to zero (or NULL).
This means that before main is called, there must be a snippet executed in your program that sets all these static/global values. In an embedded system, the initialization values are copied from ROM (flash, eeprom etc) to RAM. A standard C compiler handles this by creating this snippet and adding it to your program.
However, in embedded systems this snippet is often unfortunate, as it leads to a delay at program startup, especially if there is lots of statics/globals. A common non-standard optimization most embedded compilers support, is to remove this snippet. The program will then no longer behave as expected by the C standard, but it will be faster. Once you have done this optimization, initialization must be done in runtime, roughly
static int x; x=0; rather than
static int x=0;.
To make your program portable to such non-standard embedded compilers, it is a good habit to always set your globals/statics in runtime. And no matter if you intend to port to such compilers or not, it is certainly a good habit not to rely on the default zero initialization of globals/statics. Because most rookie C programmers don't even know that this static zero initialization rule exists and they will get very confused if you don't init your variables explicitly before using them.