Let $E/\mathbb{Q}$ be an elliptic curve. Recall that Szpiro's conjecture says that for every $\epsilon > 0$, there exists $C_\epsilon$ such that $$ |\Delta_E| \leq C_\epsilon(N_E)^{6 + \epsilon}, $$ where $\Delta_E$ is the minimal discriminant of $E$ and $N_E$ is the conductor of $E$.
One consequence of Szpiro's conjecture is Fermat's Last Theorem for sufficiently large exponents and the $ABC$-conjecture for the exponent $3/2$.
My question is are there any other known consequences of Szpiro's conjecture (references are appreciated)?
EDIT: Preferably a consequence of the Szpiro conjecture that is distinct from a consequence of the $ABC$-conjecture.
The abstract of a paper by Joe Silverman at http://arxiv.org/abs/0908.3895 says,
"It is known that Szpiro's conjecture, or equivalently the ABC-conjecture, implies Lang's conjecture giving a uniform lower bound for the canonical height of nontorsion points on elliptic curves. In this note we show that a significantly weaker version of Szpiro's conjecture, which we call "prime-depleted," suffices to prove Lang's conjecture."
For what it's worth (probably less than epsilon), Szpiro's conjecture has a Facebook page, http://www.facebook.com/pages/Szpiros-conjecture/139143682780725?nr=133320400042160.