A piece of code is thread-safe if it only manipulates shared data structures in a manner that guarantees safe execution by multiple threads at the same time.
To answer your expanded question, if multiple threads were to execute put() the effect would be that the last one to run would set the value for that key in the map. All of the puts would happen in some sequence, but they would not interfere with each other. How might they interfere without a concurrency guarantee? Well, put() returns null if no value had previously been associated with the mapping or the previous value. If two puts happened on a non-concurrent map they can both get the same return value from the put.
This sequence is possible without concurrency:
Thread1: map.put("key1", "value1") => null
Thread2: map.put("key2", "value2") => "value1"
Thread3: map.put("key3", "value3") => "value1"
If Thread3 got in just after Thread2, it might see "value1" rather than "value2", even though that's not what it replaces. This won't happen in a concurrent map.