Here's a good way to think about the difference between value-types, passing-by-value, reference-types, and passing-by-reference:
A variable is a container.
A value-type variable contains an instance.
A reference-type variable contains a pointer to an instance stored elsewhere.
Modifying a value-type variable mutates the instance that it contains.
Modifying a reference-type variable mutates the instance that it points to.
Separate reference-type variables can point to the same instance.
Therefore, the same instance can be mutated via any variable that points to it.
A passed-by-value argument is a new container with a new copy of the content.
A passed-by-reference argument is the original container with its original content.
When a value-type argument is passed-by-value:
Reassigning the argument's content has no effect outside scope, because the container is unique.
Modifying the argument has no effect outside scope, because the instance is an independent copy.
When a reference-type argument is passed-by-value:
Reassigning the argument's content has no effect outside scope, because the container is unique.
Modifying the argument's content affects the external scope, because the copied pointer points to a shared instance.
When any argument is passed-by-reference:
Reassigning the argument's content affects the external scope, because the container is shared.
Modifying the argument's content affects the external scope, because the content is shared.
In conclusion:
A string variable is a reference-type variable. Therefore, it contains a pointer to an instance stored elsewhere.
When passed-by-value, its pointer is copied, so modifying a string argument should affect the shared instance.
However, a string instance has no mutable properties, so a string argument cannot be modified anyway.
When passed-by-reference, the pointer's container is shared, so reassignment will still affect the external scope.