Abstract
High-altitude tree populations are exposed to severe natural environmental conditions. Among abiotic factors, variable temperatures, early frosts, and high radiation are the factors affecting tree growth at high altitudes. Fagus sylvatica L. exhibits a variety of physiological and genetic traits that allow it to adapt to different forest habitats. This study examines the differences in the biochemical properties of senescing beech leaves between populations originating from different altitudes using a common-garden experiment. Leaves were collected from five-year-old plants from the beginning of August to the end of October for two years. Based on the changes in senescence marker levels the genetic differences and significant correlations between populations’ altitude origin and their biochemical characteristics were identified. According to the free radical theory of leaf senescence, reactive oxygen species (ROS) and senescence markers were highly correlated. In this study, populations from higher altitudes were characterized by earlier and greater increases in ROS content and oxidative stress, which resulted in higher antioxidative system activity. Increases in ROS in high-altitude populations play a controlling role to initiate earlier senescence processes that allow the trees to adapt to harsh climatic conditions. Earlier senescence allows beech trees to maintain a balance between nitrogen metabolism and photosynthetic activity. It allows for remobilization of nitrogen compounds more efficiently and protects the trees from nitrogen loss and prepares them for winter dormancy.
Highlights
The common beech (Fagus sylvatica L.) is a deciduous tree that plays an important role in the forests of Central and Western Europe
Research on beech leaf senescence has shown that individuals that differ in autumn phenology showed different nitrogen remobilization efficiencies [5,6]
This study shows that senescence markers, i.e., the chlorophyll and protein contents, were significantly correlated with oxidative stress markers (H2 O2, O2 −, thiobarbituric acid-reactive substances (TBARS)) at the level of provenance and origin region
Summary
The common beech (Fagus sylvatica L.) is a deciduous tree that plays an important role in the forests of Central and Western Europe This species is sensitive to climatic factor variations such as drought, late spring and early autumn frosts and warming, and it is characterized by a great diversity of morphological [1,2], physiological [3,4,5,6] and genetic traits [7,8,9,10]. Leaf senescence is a genetically controlled process that is coordinated at the cell, organ, and whole-plant levels [15,16] It consists of a series of biochemical processes in which cell organelles, membranes, and macromolecules are degraded. Research on beech leaf senescence has shown that individuals that differ in autumn phenology showed different nitrogen remobilization efficiencies [5,6]
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