Abstract
Global warming is expected to result in earlier emergence of tree seedlings that may experience higher damages and mortality due to late frost in spring. We monitored emergence, characteristics, and survival of seedlings across ten tree species in temperate mixed deciduous forests of Central Europe over one and a half year. We tested whether the timing of emergence represents a trade‐off for seedling survival between minimizing frost risk and maximizing the length of the growing period. Almost two‐thirds of the seedlings died during the first growing period. The timing of emergence was decisive for seedling survival. Although seedlings that emerged early faced a severe late frost event, they benefited from a longer growing period resulting in increased overall survival. Larger seedling height and higher number of leaves positively influenced survival. Seedlings growing on moss had higher survival compared to mineral soil, litter, or herbaceous vegetation. Synthesis. Our findings demonstrate the importance of emergence time for survival of tree seedlings, with early‐emerging seedlings more likely surviving the first growing period.
Highlights
Global temperatures are rising concurrent with an increase in the magnitude and frequency of extreme weather events (Intergovernmental Panel on Climate Change, 2014)
The frost resistance of seedlings differs across species (Hofmann, Jager, & Bruelheide, 2014), that is, mortality may vary in response to late frost events, because seedlings of different species have different survival strategies and react differently to environmental influ‐ ences due to different
We addressed the following research questions: (a) Does the timing of emergence influence tree seedling survival? (b) Does survival over the first growing period vary among tree species? (c) Does seedling survival differ across species in response to biotic variables and abiotic variables?
Summary
Global temperatures are rising concurrent with an increase in the magnitude and frequency of extreme weather events (Intergovernmental Panel on Climate Change, 2014). Higher mean temperatures typically accelerate biological processes such as stem elongation or leaf unfolding in plants, or development of seedlings (Matías & Jump, 2014; Saxe, Cannell, Johnsen, Ryan, & Vourlitis, 2001). These processes respond to weather extremes, to means (Fisichelli, Vor, & Ammer, 2014; Inouye, 2000). Damage in unfolding leaves of plants is likely to occur in response to frost events even under global warming (Cannell & Smith, 1986; Rigby & Porporato, 2008). The frost resistance of seedlings differs across species (Hofmann, Jager, & Bruelheide, 2014), that is, mortality may vary in response to late frost events, because seedlings of different species have different survival strategies and react differently to environmental influ‐ ences (e.g., frost, drought, shading, and substrate) due to different
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