The difference stems from the fact that
lock, if misused, can result in thread deadlock. If the lock target's visibility is unknown to you (i.e., you cannot be 100% certain who has a reference to the target and if/when they might
lock it), then you cannot really know if the application might experience a deadlock.
For this reason it's customary to lock on a
private member: since it's private and it's in your code, you do know that noone else can
Of course all this is a purely academic difference most of the time (usually people don't go around locking random objects), but it's a good defensive coding practice.
The page you link to states:
In general, avoid locking on a public type, or instances beyond your
code's control. The common constructs lock (this), lock (typeof
(MyType)), and lock ("myLock") violate this guideline:
lock (this) is a problem if the instance can be accessed publicly.
Because someone else might lock the instance using a reference they have, and your code that does
lock(this) will of course not expect that. Example on IDEone (see line 26).
lock (typeof (MyType)) is a problem if MyType is publicly accessible.
A variation of the above, if the type is visible to other code then you might end up trying to lock the same instance as that code (
typeof returns singleton instances).
lock("myLock") is a problem because any other code in the process
using the same string, will share the same lock.
Another variation: due to string interning, code ends up trying to lock the same instance.
Best practice is to define a private object to lock on, or a private
static object variable to protect data common to all instances.