When you connect PV panels in series, they should have similar current ratings.
A panel with Isc 13.8A (and maybe Imp around 12A?) will only contribute power up to that current level. It will reduce the power available at voltage of 10s.
But the inverter can pull down to lower voltage. It could draw the 13.89A to 15.75A Impp of the remaining 9 series panels, activating bypass diode of the 10th panel. This higher current would overheat the diode, possibly melting backsheet and breaking glass of the panel. There could be 1 to 2V forward drop through the diode, some 15W to 30W of power dissipation.
If the inverter allows paralleling two MPPT inputs, that is the solution.