Greater capacity to exploit warming temperatures in northern populations of European beech is partly driven by delayed leaf senescence
2019
One of the most widespread consequences of climate change is the disruption of trees phenological cycles. The extent to which tree phenology varies with local climate is largely genetically determined, and while a combination of temperature and photoperiodic cues are typically found to trigger bud burst (BB) in spring, it has
provenharder to identify the main cues driving leaf senescence (LS) in autumn. We used 925 individual field-observations of BB and LS from six
Fagus sylvatica
provenances, covering the range of environmental conditions found across the species distribution, to: (i) estimate the dates of BB and LS of these
provenances; (ii) assess the main drivers of LS; and (iii) predict the likely variation in the growing season length (GSL; defined by BB and LS timing) across populations under current and future climate scenarios. To this end, we first calibrated linear mixed-effects models for LS as a function of temperature,
insolationand BB date. Secondly, we calculated the GSL for each
provenanceas the number of days between BB and LS. We found that: i) there were larger differences among
provenancesin the date of LS than in the date of BB; ii) the temperature through September, October and November was the main determinant of LS in
beech, although covariation of temperature with daily
insolationand precipitation-related variables suggests that all three variables may affect LS timing; and iii) GSL was predicted to increase in northern
beech
provenancesand to shrink in populations from the core and the southern range under climate change. Consequently, the large differences in GSL across
beechrange in the present climate are likely to decrease under future climates where rising temperatures will alter the relationship between BB and LS, with northern populations increasing productivity by extending their growing season to take advantage of warmer conditions.
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