Contrastive seasonal changes in ecophysiological traits of leaves of two perennial Polygonaceae herb species differing in leaf longevity and altitudinal distribution

To identify the leaf characteristics associated with the difference in altitudinal distribution of Polygonaceae plants, we investigated the seasonal changes in leaf characteristics of co‐occurring Aconogonum weyrichii and Reynoutria japonica at 2250 m a.s.l. on Mt. Fuji. Aconogonum weyrichii is distributed in the alpine region and R. japonica from the lowlands to the highlands. At the beginning of the growing period, leaves of A. weyrichii had larger amounts of nitrogen, Rubisco and higher photosynthetic capacity than R. japonica . The relationship between the amounts of nitrogen and Rubisco did not significantly differ between the species, but a higher Rubisco activity per unit Rubisco protein content was found in A. weyrichii , and was thought to be responsible for the high photosynthetic capacity of this species in summer. Activity of ascorbate peroxidase, a key enzyme of the hydrogen peroxide scavenging system against oxidative stress under chilling and light conditions, increased significantly in R. japonica late in the growing period, but did not significantly change in A. weyrichii . In A. weyrichii , rapid maturation of leaves and a high photosynthetic capacity are thought to be adaptive features for the short growing season in alpine regions. On the other hand, the slower accumulation of nitrogen and Rubisco during the early stage of the growing period in R. japonica resulted in insufficient utilization of the growing period for photosynthetic production and is thought to be one of the factors restricting the upper limit of its distribution.