Large Differences in Bud Burst and Senescence between Low- and High-Altitude European Beech Populations along an Altitudinal Transect in the South-Eastern Carpathians

Phenology is considered an indicator of environmental changes, with direct implications in the length of the growing season; therefore, it offers essential information for a better understanding of the tree–environment relationships that could lead to the right decisions for forests’ sustainable use...

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Published inForests Vol. 15; no. 3; p. 468
Main Authors Ciocîrlan, Mihnea Ioan Cezar, Ciocîrlan, Elena, Chira, Dănuț, Radu, Gheorghe Raul, Păcurar, Victor Dan, Beșliu, Emanuel, Zormpa, Ourania Grigoriadou, Gailing, Oliver, Curtu, Alexandru Lucian
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.03.2024
Subjects
Accumulation
Adaptation
Altitude
Altitudes
altitudinal transect
Autumn
Beech
Climate change
Climate prediction
Environmental aspects
Environmental changes
Environmental indicators
Fagus sylvatica
Forest management
Forests
Growing season
High altitude
Humidity
leaf phenology
Leaves
local adaptation
Meteorological data
Mountains
Phenology
Physiological aspects
Physiology
Populations
Seasonal variations
Senescence
Sustainable use
Temperature
Vegetation
Yellowing
Romania
Europe
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Summary:Phenology is considered an indicator of environmental changes, with direct implications in the length of the growing season; therefore, it offers essential information for a better understanding of the tree–environment relationships that could lead to the right decisions for forests’ sustainable use and conservation. A better understanding of how European beech (Fagus sylvatica) phenology responds to predicted climate change effects is important for forest management. This study aimed to assess bud burst and senescence among and within beech populations located along a steep elevational gradient. Phenological observations were carried out on 150 beech individuals along an altitudinal transect in the south-eastern Carpathian Mountains, from 550 to 1450 m, in five study sites in two consecutive years. The start of the bud burst, of senescence, and the duration of the growing season varied inversely proportionally to the elevational gradient in both monitored years. Individuals located at the highest altitude need 28 more days to start the growing season than those at the lowest altitude. There is an average difference of 14 days at the start of the growing season in the same beech populations between the two consecutive years. The first stage of senescence (yellowing of leaves) lasted longer in 2021 (21–32 days) than in 2022 (18–25 days), with a difference of 16%–28%, proportional to the increase in altitude. The association of field phenological data with meteorological data indicates that the start of the growing season occurs when the thermal threshold of 10 °C is exceeded, with an accumulation of a least 60 GDD (growing degree days) with a threshold of 0 °C in the last 7 days as a complementary condition. The appearance of the first stage of senescence, the yellowing of the leaves, was also influenced by the temperature and the accumulation of at least 72 SDD (senescence degree days) with a threshold of 0 °C in the last 7 days. Our results confirm that the temperature is the triggering meteorological factor for the onset of bud burst and leaf senescence in European beech.
ISSN:1999-4907
1999-4907
DOI:10.3390/f15030468