Chilling outweighs photoperiod in preventing precocious spring development

It is well known that increased spring temperatures cause earlier onset dates of leaf unfolding and flowering. However, a temperature increase in winter may be associated with delayed development when species' chilling requirements are not fulfilled. Furthermore, photosensitivity is supposed to...

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Bibliographic Details
Published in:Global change biology 2014-01, Vol.20 (1), p.170-182
Main Authors: Laube, Julia, Sparks, Tim H., Estrella, Nicole, Höfler, Josef, Ankerst, Donna P., Menzel, Annette
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Applied ecology
asynchrony
Biological and medical sciences
budburst
climate chamber experiment
Climate change
Climatology. Bioclimatology. Climate change
Cold Temperature
Conservation, protection and management of environment and wildlife
dormancy
Earth, ocean, space
Exact sciences and technology
External geophysics
Fundamental and applied biological sciences. Psychology
General aspects
Introduced Species
invasive species
Meteorology
Parks, reserves, wildlife conservation. Endangered species: population survey and restocking
Phenology
Photoperiod
photosensitivity
Plant biology
Plant Development
Plant populations
Seasons
Spring
successional strategy
Trees - growth & development
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Summary:It is well known that increased spring temperatures cause earlier onset dates of leaf unfolding and flowering. However, a temperature increase in winter may be associated with delayed development when species' chilling requirements are not fulfilled. Furthermore, photosensitivity is supposed to interfere with temperature triggers. To date, neither the relative importance nor possible interactions of these three factors have been elucidated. In this study, we present a multispecies climate chamber experiment to test the effects of chilling and photoperiod on the spring phenology of 36 woody species. Several hypotheses regarding their variation with species traits (successional strategy, floristic status, climate of their native range) were tested. Long photoperiods advanced budburst for one‐third of the studied species, but magnitudes of these effects were generally minor. In contrast to prior hypotheses, photosensitive responses were not restricted to climax or oceanic species. Increased chilling length advanced budburst for almost all species; its effect greatly exceeding that of photoperiod. Moreover, we suggest that photosensitivity and chilling effects have to be rigorously disentangled, as the response to photoperiod was restricted to individuals that had not been fully chilled. The results indicate that temperature requirements and successional strategy are linked, with climax species having higher chilling and forcing requirements than pioneer species. Temperature requirements of invasive species closely matched those of native species, suggesting that high phenological concordance is a prerequisite for successful establishment. Lack of chilling not only led to a considerable delay in budburst but also caused substantial changes in the chronological order of species' budburst. The results reveal that increased winter temperatures might impact forest ecosystems more than formerly assumed. Species with lower chilling requirements, such as pioneer or invasive species, might profit from warming winters, if late spring frost events would in parallel occur earlier.
ISSN:1354-1013
1365-2486
DOI:10.1111/gcb.12360