This is explained in section 2.11.1 of the JVMS:
Note that most instructions [...] do not have forms for the integral types
short. None have forms for the
boolean type. A compiler encodes loads of literal values of types
short using Java Virtual Machine instructions that sign-extend those values to values of type
int at compile-time or run-time. [...] Thus, most operations on values of actual types
short are correctly performed by instructions operating on values of computational type
It is justified thus:
Given the Java Virtual Machine's one-byte opcode size, encoding types into opcodes places pressure on the design of its instruction set. If each typed instruction supported all of the Java Virtual Machine's run-time data types, there would be more instructions than could be represented in a byte. Instead, the instruction set of the Java Virtual Machine provides a reduced level of type support for certain operations. In other words, the instruction set is intentionally not orthogonal. Separate instructions can be used to convert between unsupported and supported data types as necessary.
However, whilst this applies to load/store of stack variables, it doesn't apply to load/store into primitive arrays; there are opcodes for all primitive types.