Galois Connection implies Upper Adjoint is Surjection iff Lower Adjoint is Injection

Theorem
Let $L = \left({S, \preceq}\right), R = \left({T, \precsim}\right)$ be ordered sets.

Ley $g:S \to T, d:T \to S$ be mappings such that
 * $\left({g, d}\right)$ is Galois connection.

Then $g$ is a surjection $d$ is an injection.

Sufficient Condition
Assume that
 * $d$ is a surjection.

By Upper Adjoint of Galois Connection is Surjection implies Lower Adjoint at Element is Minimum of Preimage of Singleton of Element
 * $\forall t \in T: d\left({t}\right) = \min\left({g^{-1}\left[{\left\{ {t}\right\} }\right]}\right)$

By Lower Adjoint at Element is Minimum of Preimage of Singleton of Element implies Composition is Identity:
 * $g \circ d = I_T$

Thus by Injection iff Left Inverse:
 * $d$ is an injection.

Necessary Condition
Assume that
 * $d$ is an injection.

By definition of Galois connection:
 * $g$ and $f$ are increasing mappings.

By Galois Connection Implies Order on Mappings:
 * $d \circ g \preceq I_S$ and $I_T \precsim g \circ d$

By