The Importance of Incorporating Landscape Change for Predictions of Climate-Induced Plant Phenological Shifts
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Warming in the high Arctic is occurring at the fastest rate on the planet, raising concerns over how this global change driver will influence plant community composition, the timing of vegetation phenological events, and the wildlife that rely on them. In this region, as much as 50% of near-surface permafrost is composed of thermally sensitive ground ice that when melted produces substantial changes in topography and microbiome conditions. We take advantage of natural variations in permafrost melt to conduct a space-for-time study on Ellesmere Island in northern Canada. We demonstrate that phenological timing can be delayed in thermokarst areas when compared to stable ground, and that this change is a function of shifting species composition in these vegetation communities as well as delayed timing within species. These findings suggest that a warming climate could result in an overall broadening of blooming and leafing windows at the landscape level when these delayed timings are taken into consideration with the projected advance of phenological timings in ice-poor areas. We emphasize that the impacts of geomorphic processes on key phenological drivers are essential for enhancing our understanding of community response to climate warming in the high Arctic, with implications for ecosystem functioning and trophic interactions.
|Journal||Frontiers in Plant Science|
|Number of pages||13|
|Publication status||Published - 2020|
- leaf phenology, flower phenology, permafrost, geomorphology, ground stability, Arctic, plant ecology, ICE-WEDGE DEGRADATION, GROUND ICE, TUNDRA PLANTS, PERMAFROST, RESPONSES, PATTERNS, MISMATCH, GROWTH, VOLUME, ISLAND