| dc.description.abstract | In plants, polyploidy has been thought to play a key role in evolution as it can generate
more genetic variation. However, we do not have a strong understanding of how
polyploidy affects physiology, which limits our understanding of trait evolution and
species ecology. To investigate this, we focused on an allopolyploid hybrid, Polystichum
scopulinum, to understand how polyploidy may have enabled its range expansion in
relation to its progenitors, P. imbricans and P. lemmonii. We show that the leaf thickness
(LT) of the polyploid hybrid is similar to P. imbricans’s LT but significantly higher than
P. lemmonii’s LT, and that the hybrid’s leaf hydraulic conductance (Kleaf) is significantly
lower than both progenitors. These results suggest that P. scopulinum’s physiological
differences may be linked to differences in its ecology. | en_US |
