Zoe A. Panchen scite author profile

Warmer temperatures are accelerating the phenology of organisms around the world. Temperature sensitivity of phenology might be greater in colder, higher latitude sites than in warmer regions, in part because small changes in temperature constitute greater relative changes in thermal balance at colder sites. To test this hypothesis, we examined up to 20 years of phenology data for 47 tundra plant species at 18 high-latitude sites along a climatic gradient. Across all species, the timing of leaf emergence and flowering was more sensitive to a given increase in summer temperature at colder than warmer high-latitude locations. A similar pattern was seen over time for the flowering phenology of a widespread species, Cassiope tetragona. These are among the first results highlighting differential phenological responses of plants across a climatic gradient and suggest the possibility of convergence in flowering times and therefore an increase in gene flow across latitudes as the climate warms.

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Leaf out times of temperate woody plants are related to phylogeny, deciduousness, growth habit and wood anatomy

Panchen

et al. 2014

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SummaryLeaf out phenology affects a wide variety of ecosystem processes and ecological interactions and will take on added significance as leaf out times increasingly shift in response to warming temperatures associated with climate change. There is, however, relatively little information available on the factors affecting species differences in leaf out phenology.An international team of researchers from eight Northern Hemisphere temperate botanical gardens recorded leaf out dates of c. 1600 woody species in 2011 and 2012.Leaf out dates in woody species differed by as much as 3 months at a single site and exhibited strong phylogenetic and anatomical relationships. On average, angiosperms leafed out earlier than gymnosperms, deciduous species earlier than evergreen species, shrubs earlier than trees, diffuse and semi-ring porous species earlier than ring porous species, and species with smaller diameter xylem vessels earlier than species with larger diameter vessels. The order of species leaf out was generally consistent between years and among sites.As species distribution and abundance shift due to climate change, interspecific differences in leaf out phenology may affect ecosystem processes such as carbon, water, and nutrient cycling. Our open access leaf out data provide a critical framework for monitoring and modelling such changes going forward.

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Herbarium specimens, photographs, and field observations show Philadelphia area plants are responding to climate change

Panchen

Primack

Anisko

et al. 2012

American J of Botany

140

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Of the species studied, woody plants with short flowering duration are the best indicators of a warming climate. For monthly minimum temperatures, temperatures 1 or 2 mo prior to flowering are most significantly correlated with flowering time. Studies combining herbarium specimens, photographs, and field observations are an effective method for detecting the effects of climate change on flowering times.

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Warming shortens flowering seasons of tundra plant communities

et al. 2018

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Substantial variation in leaf senescence times among 1360 temperate woody plant species: implications for phenology and ecosystem processes

Panchen¹,

Primack²,

Gallinat³

et al. 2015

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The results suggest that, in contrast to the broader temperature effects that determine leaf out times, leaf senescence times are probably determined by a larger or different suite of local environmental effects, including temperature, soil moisture, frost and wind. Determining the importance of these factors for a wide range of species represents the next challenge for understanding how climate change is affecting the end of the growing season and associated ecosystem processes.

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Zoe A. Panchen

Greater temperature sensitivity of plant phenology at colder sites: implications for convergence across northern latitudes

Leaf out times of temperate woody plants are related to phylogeny, deciduousness, growth habit and wood anatomy

Herbarium specimens, photographs, and field observations show Philadelphia area plants are responding to climate change

Warming shortens flowering seasons of tundra plant communities

Substantial variation in leaf senescence times among 1360 temperate woody plant species: implications for phenology and ecosystem processes

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