While soil pH is known to be a key driver of plant species composition, we
still have a poor understanding of the quantification of the responses of
leaf traits to different soil types, especially in highly sensitive alpine
environments susceptible to global environmental changes. By combining
traditional and modern geometric morphometrics we aimed to bridge the
existing gap and determine whether certain leaf traits reliably separate
evergreen Dryas octopetala populations residing in the subalpine-alpine zone
of the Kazbegi region, in the eastern part of the Central Great Caucasus in
Georgia. To achieve this aim, three populations of D. octopetala were
analysed through traditional and, for the first time, modern geometric
morphometrics. Both methods revealed congruent results indicating
significant differences in leaf shape and size in locations with similar
climatic conditions but different soil pH environments (acid vs neutral to
slightly alkaline) thus suggesting that D. octopetala exhibits stronger leaf
morphological plasticity (wider and larger leaves vs narrower and smaller
leaves) to respond to changes in the soil pH gradient. In addition, modern
geometric morphometrics, with its high degree of precision as an accessible
and inexpensive method, could be advantageous for researchers and scientists
seeking to gain a deeper understanding of plant species? unique responses to
varying environmental conditions.