Germination responses to winter warm spells and warming vary widely among woody plants in a temperate forest

Flanigan, N. P.; Bandara, Ridma G.; Wang, F.; Jastrzębowski, Szymon; Hidayati, Siti N.; Walck, Jeffrey L.

doi:10.1111/plb.13152

Cited by 11 publications

(20 citation statements)

References 41 publications

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“…After 63 days from the start of incubation, the germination capacity of seeds from each population (except two cases) was no longer dependent on the occurrence of a warm spell, both in terms of its duration and the time during stratification when it occurred. This type of response was consistent with what was documented for non-native species by Flanigan et al [10]. Those authors analyzed the effects of winter warm spells and warming on germination of selected native and non-native species of woody plants in middle Tennessee (USA).…”

Section: Discussionsupporting

confidence: 86%

“…Hence, germination occurs during late winter or early spring, thereby allowing seedlings to grow in a period before a hot and dry summer [9]. The consequences of winter warm spells in connection with the forecasted increasing temperatures during the dormancy break and germination periods have not been widely described in the literature, especially for trees [1,10]. Faster and enhanced germination of seeds from exotic (non-native) species in comparison to the native ones indicates that seeds of the former feature possess weak dormancy and could react more strongly to winter warm spells [10][11][12][13].…”

Section: Introductionmentioning

confidence: 99%

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Current and Predicted Future Winter Warm Spells Would Affect Douglas Fir (Pseudotsuga menziesii (Mirb.), Franco) Seeds in the Early Stage of Germination More Than in the Late Stage of Germination

Jastrzębowski

Ukalska

Guziejko

et al. 2021

Forests

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Most tree species in the temperate climatic zone (including Douglas fir) disperse seeds in autumn. Some of them must be exposed to cold (0–10 °C) and moist conditions (cold stratification) to overcome dormancy and trigger germination. In the Northern Hemisphere, winter warm spells occur more frequently and last longer than in recent decades from eastern Canada to Europe. Our main research objective was to investigate the influence of current (1 or 3 days at day/night temperatures: 15 °C/10 °C) and future predicted (5 days at day/night temperatures: 25 °C/15 °C) winter warm spells on dormancy breaking and germination traits (germination energy—GE; germination capacity—GC; final germination capacity—FGC) of Douglas fir seeds from four old-growth stands in northern Poland. For this purpose, we interrupted cold stratification of seeds at different time points, i.e., after 3 weeks; 6 weeks; 9 or 3 weeks and 6 weeks; 3 and 9 weeks; 6 and 9 weeks; 3 and 6 weeks and 9 weeks. We found that for GE and GC, all main effects (populations—P; days of warm spell—D; stratification duration—W) and interactions were significant (except interaction P×D). FGC was significantly affected by the effects P and D and interactions of D × W and P × D × W. In addition, we found that the predicted warm spells negatively affected the early germination stage (GE and GC) of Douglas fir, but both current and future predicted winter conditions will not negatively affect the late germination stage (FGC).

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Section: Discussionsupporting

confidence: 86%

Section: Introductionmentioning

confidence: 99%

Current and Predicted Future Winter Warm Spells Would Affect Douglas Fir (Pseudotsuga menziesii (Mirb.), Franco) Seeds in the Early Stage of Germination More Than in the Late Stage of Germination

Jastrzębowski

Ukalska

Guziejko

et al. 2021

Forests

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Section: Introductionmentioning

confidence: 99%

“…Late winter and early spring warm spells accelerate plant growth and consequently affect the timing of the onset of phenological seasons [22][23][24][25][26]. On the other hand, premature vegetation growth increases the vulnerability of plants to late spring frost spells [23,27,28]. Interestingly, research by Siegmund et al [25] shows that phenological processes in spring are also affected by warm extremes in the preceding autumn.…”

Section: Introductionmentioning

confidence: 99%

Seasonal Variability of Trends in Regional Hot and Warm Temperature Extremes in Europe

Sulikowska

Wypych

2021

Atmosphere

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Extremely hot or warm weather over the course of the year may have significant impacts on many aspects of human life, the economy, and the natural environment. Until now a thorough assessment of changes of extreme heat or warm events in Europe was hindered by the number of metrics employed, time periods examined, and most studies being conducted in the summer season only. Here, we employ the Extremity Index (EI) to investigate long-term trends in extremely hot or warm days in Europe over the course of the year, with a special focus on their frequency, spatial extent, and intensity. An extreme temperature event (ETE) is defined as a day with an unusually high temperature for a given location and season, even if such a temperature would not be considered extremely high in an absolute sense. The research is conducted in five spatial domains that together cover a large portion of Europe. The period of the most recent 70 years is considered. In all examined regions, mainly significant increasing trends since 1950 are evident for seasonal EI; therefore, also for ETE frequency, intensity, and spatial range. Yet, every region is characterized by its own event pattern, and trends across the continent strongly vary geographically and seasonally. Our study highlights that examined trends of temperature extremes are accelerating and in the last 40 years the rate of change has been even more than three times greater than in the entire study period. The greatest changes were noted for the summer season in Central Europe and Eastern Europe for the most recent 40-year period.

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“…Moreover, in our study, the warming treatment was only applied during the growing season and some plants might respond to growing season length or warming outside the growing season for dormancy breaking or seed germination (Walck et al ., 2011; Orru et al ., 2012; Flanigan et al ., 2020; Newton et al ., 2020), affecting species’ reproduction and the community composition over a longer time period. Additionally, experimental warming inherently reduces soil moisture (Ettinger et al ., 2019), as in our experiment (Fig.…”

Section: Discussionmentioning

confidence: 99%

Forest understorey communities respond strongly to light in interaction with forest structure, but not to microclimate warming

et al. 2021

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Forests harbour large spatiotemporal heterogeneity in canopy structure. This variation drives the microclimate and light availability at the forest floor. So far, we do not know how light availability and sub-canopy temperature interactively mediate the impact of macroclimate warming on understorey communities.We therefore assessed the functional response of understorey plant communities to warming and light addition in a full factorial experiment installed in temperate deciduous forests across Europe along natural microclimate, light and macroclimate gradients. Furthermore, we related these functional responses to the species' life-history syndromes and thermal niches.We found no significant community responses to the warming treatment. The light treatment, however, had a stronger impact on communities, mainly due to responses by fastcolonizing generalists and not by slow-colonizing forest specialists. The forest structure strongly mediated the response to light addition and also had a clear impact on functional traits and total plant cover.The effects of short-term experimental warming were small and suggest a time-lag in the response of understorey species to climate change. Canopy disturbance, for instance due to drought, pests or logging, has a strong and immediate impact and particularly favours generalists in the understorey in structurally complex forests.

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Germination responses to winter warm spells and warming vary widely among woody plants in a temperate forest

Cited by 11 publications

References 41 publications

Current and Predicted Future Winter Warm Spells Would Affect Douglas Fir (Pseudotsuga menziesii (Mirb.), Franco) Seeds in the Early Stage of Germination More Than in the Late Stage of Germination

Current and Predicted Future Winter Warm Spells Would Affect Douglas Fir (Pseudotsuga menziesii (Mirb.), Franco) Seeds in the Early Stage of Germination More Than in the Late Stage of Germination

Seasonal Variability of Trends in Regional Hot and Warm Temperature Extremes in Europe

Forest understorey communities respond strongly to light in interaction with forest structure, but not to microclimate warming

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