Global Ecology and Conservation (Sep 2024)
The seasonal dynamics of cross-sectional tissue characteristics of Corylus mandshurica twig, petiole, and leaf vein are inconsistent
Abstract
This study aims to explore how the environment affects the variation and trade-offs of anatomical traits in shrub plants, contributing to a deeper understanding of plant survival strategies and mechanisms of adaptation to the environment. The dominant shrub species Corylus mandshurica in the broad-leaved Korean pine (Pinus koraiensis) forest was selected as the research subject. Current-year twigs and leaves of C. mandshurica were collected in spring (May), summer (July), and autumn (September). Anatomical traits, including non-vascular column proportion (NVP), vascular column proportion (VP), phloem proportion (PP), and xylem proportion (XP), were measured for twigs, lower part of petioles, upper part of petioles, and leaf veins. We found that (1) Compared with seasons, organ type explained most of the variation in the four traits (NVP = 96 %, VP = 87 %, PP = 81 %, XP = 76 %). Lower part of petioles served as the turning point in the variation trend of tissue proportions in cross-sectional structure along the sequence of twigs, lower part of petioles, upper part of petioles, and leaf veins. (2) In spring, C. mandshurica exhibits higher NVP but lower VP and PP, while the results in summer and autumn are opposite to those in spring. Among different organs, twigs show lower NVP but higher VP and XP; whereas petioles and leaf veins show the opposite pattern. (3) Both hydrothermal conditions (monthly precipitation and mean monthly temperature) and light (canopy openness and total transmitted radiation) were the dominant environmental factors influencing anatomical trait variation. In different seasons, the response of NVP and VP in C. mandshurica twigs to dominant environmental factors was opposite to that of lower part of petioles, upper part of petioles, and leaf veins. The response of cross-sectional anatomical traits of current-year twigs, petioles, and leaf veins in C. mandshurica to seasonal changes exhibits distinct characteristics. Furthermore, twigs, petioles, and leaf veins demonstrate distinct survival strategies. Future research should focus on the variation of traits in different plant organs and their connecting parts.
