This is a follow-up to this question. Let $Y \subset \mathbb{Q}$, and give $Y$ the subspace topology. Is there necessarily a linear ordering $<$ of $Y$ (possibly different from the order inherited from $\\mathbb{Q}$) which induces the topology on $Y$? What if $Y$ is assumed to be closed in $\mathbb{Q}$?
Some discussion: let $L$ be the set of limit points of $Y$. Let $I$ be the set of isolated points of $Y$. Note that $I$ must have some limit points (in $L$). Otherwise, $L$ is perfect so $L \cong \mathbb{Q} \cong \mathbb{Q} \cap [0,1]$ by a theorem of Sierpiński. Also we have $Y$ homeomorphic to the disjoint union of $L$ and $I$ in this case. It is easy to see that the disjoint union of $\mathbb{Q} \cap [0,1]$ with a discrete space can be realized as an order topology. So, $I$ needs to have some limit points, eg. something like $Y = \{0,1,1/2,1/3,1/4,\ldots\}$ (but the latter is an order topology).