Let $\pi$ be an automorphic representation of $GL(3)$ over a number field. Let $a_n$ be the coefficients of $L(s, \pi, \mathrm{sym}^2)$. Do we know if
$$\sum_{n>0} \frac{|a_n|}{n^s}$$
and
$$\sum_{n>0} \frac{\left( \sum_{k \mid n} |a_k|\right)^2}{n^s}$$
converge for $\Re(s)>1$? or even for $\Re(s)>1+\delta$ for a quite small $\delta$?
This essentially amounts to say that the coefficients are constant on average. It seems to be known for Gelbart-Jacquet lifts by Rankin-Selberg properties, but is it known or at least expected for non-Gelbart-Jacquet lifts?