That's your HTTP connector thread pool, it's perfectly normal to have a number of waiting threads.
See this question for more details: Apache Tomcat Request Threads.
Your table isn't very clear, but it looks like that consumed 88% of the execution of your app - they're not using 88% of the system's CPU time - after all, they're waiting threads.
Using stock settings, there are actually 25 waiting threads (see the linked question). 404 seconds / 25 over 2 hours doesn't seem excessive. That's around 8 seconds of CPU time per hour.
It's more likely that you just have a concurrency problem with your newly added synchronized functionality - you should probably post a question specific to that - it doesn't look like your issue is with Tomcat or it's thread pool if the other app continues to function.
Difference between BLOCKED state and WAITING / TIMED_WAITING
When a thread calls Object.wait method, it releases all the acquired
monitors and is put into WAITING (or TIMED_WAITING if we call the
timeout versions of the wait method) state. Now when the thread is
notified either by notify() or by notifyAll() call on the same object
then the waiting state of the thread ends and the thread starts
attempting to regain all the monitors which it had acquired at the
time of wait call. At one time there may be several threads trying to
regain (or maybe gain for the first time) their monitors. If more than
one threads attempt to acquire the monitor of a particular object then
only one thread (selected by the JVM scheduler) is granted the monitor
and all other threads are put into BLOCKED state. Got the difference?