Infinite Product of Sigma-Compact Spaces is not always Sigma-Compact

Theorem
Let $I$ be an indexing set with infinite cardinality.

Let $\family {\struct{S_\alpha, \tau_\alpha}}_{\alpha \mathop \in I}$ be a family of topological spaces indexed by $I$.

Let $\displaystyle \struct{S, \tau} = \prod_{\alpha \mathop \in I} \struct{S_\alpha, \tau_\alpha}$ be the product space of $\family{\struct{S_\alpha, \tau_\alpha}}_{\alpha \mathop \in I}$.

Let each of $\struct{S_\alpha, \tau_\alpha}$ be $\sigma$-compact.

Then it is not necessarily the case that $\struct{S, \tau}$ is also $\sigma$-compact.

Proof
Let $T = \struct{\Z_{\ge 0}, \tau}$ be the topological space formed by the discrete topology on the set of positive integers.

Let $T' = \struct{\displaystyle \prod_{\alpha \mathop \in \Z_{\ge 0} } \struct{\Z_{\ge 0}, \tau}_\alpha, \tau'}$ be the countable Cartesian product of $\struct{\Z_{\ge 0}, \tau}$ indexed by $\Z_{\ge 0}$ with the Tychonoff topology $\tau'$.

From Countable Discrete Space is Sigma-Compact, $T$ is $\sigma$-compact.

From Countable Product of Countable Discrete Spaces is not Sigma-Compact, $T'$ is not $\sigma$-compact.

Hence the result.