Region‐specific phenological sensitivities and rates of climate warming generate divergent temporal shifts in flowering date across a species' range

Premise Forecasting how species will respond phenologically to future changes in climate is a major challenge. Many studies have focused on estimating species‐ and community‐wide phenological sensitivities to climate to make such predictions, but sensitivities may vary within species, which could re...

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Bibliographic Details
Published in:American journal of botany 2021-10, Vol.108 (10), p.1873-1888
Main Authors: Love, Natalie L. R., Mazer, Susan J.
Format: Article
Language:English
Subjects:
Brassicaceae
California
Climate change
Climate prediction
Divergence
Flowering
flowering time
Global warming
herbarium specimens
montane
Mountains
phenological shifts
Sensitivity
Species
Streptanthus tortuosus
Variation
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Summary:Premise Forecasting how species will respond phenologically to future changes in climate is a major challenge. Many studies have focused on estimating species‐ and community‐wide phenological sensitivities to climate to make such predictions, but sensitivities may vary within species, which could result in divergent phenological responses to climate change. Methods We used 743 herbarium specimens of the mountain jewelflower (Streptanthus tortuosus, Brassicaceae) collected over 112 years to investigate whether individuals sampled from relatively warm vs. cool regions differ in their sensitivity to climate and whether this difference has resulted in divergent phenological shifts in response to climate warming. Results During the past century, individuals sampled from warm regions exhibited a 20‐day advancement in flowering date; individuals in cool regions showed no evidence of a shift. We evaluated two potential drivers of these divergent responses: differences between regions in (1) the degree of phenological sensitivity to climate and (2) the magnitude of climate change experienced by plants, or (3) both. Plants sampled from warm regions were more sensitive to temperature‐related variables and were subjected to a greater degree of climate warming than those from cool regions; thus our results suggest that the greater temporal shift in flowering date in warm regions is driven by both of these factors. Conclusions Our results are among the first to demonstrate that species exhibited intraspecific variation in sensitivity to climate and that this variation can contribute to divergent responses to climate change. Future studies attempting to forecast temporal shifts in phenology should consider intraspecific variation.
ISSN:0002-9122
1537-2197
DOI:10.1002/ajb2.1748