2023
DOI: 10.1126/science.adf5098
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Effect of climate warming on the timing of autumn leaf senescence reverses after the summer solstice

Abstract: Climate change is shifting the growing seasons of plants, affecting species performance and biogeochemical cycles. Yet how the timing of autumn leaf senescence in Northern Hemisphere forests will change remains uncertain. Using satellite, ground, carbon flux, and experimental data, we show that early-season and late-season warming have opposite effects on leaf senescence, with a reversal occurring after the year’s longest day (the summer solstice). Across 84% of the northern forest area, increased temperature … Show more

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Cited by 54 publications
(31 citation statements)
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“…The best models for strongly shifting leaf senescence are arguably least biased towards the mean. These models simulated the senescence process based on precipitation and/or temperature during the growing season, or the timing of spring leaf phenology, which constitute legacy effects (e.g., Bigler & Vitasse, 2021; Dox et al., 2022; Xie et al., 2015; Zohner et al., 2023). Thus, our study shows the importance of legacy effects for the leaf senescence process, and further studies are needed for their quantification (Chuine & Régnière, 2017).…”
Section: Discussionmentioning
confidence: 99%
“…The best models for strongly shifting leaf senescence are arguably least biased towards the mean. These models simulated the senescence process based on precipitation and/or temperature during the growing season, or the timing of spring leaf phenology, which constitute legacy effects (e.g., Bigler & Vitasse, 2021; Dox et al., 2022; Xie et al., 2015; Zohner et al., 2023). Thus, our study shows the importance of legacy effects for the leaf senescence process, and further studies are needed for their quantification (Chuine & Régnière, 2017).…”
Section: Discussionmentioning
confidence: 99%
“…Following Zohner et al. (2023), who identify pre‐solstice vegetation activity/temperature and autumn temperature as the main drivers of autumn phenology, two additional analyses were performed. First, for each derivation methodology, a multiple linear regression was calculated with the respective EOS as the dependent variable and growing season first half‐NEP (N 1 ) and autumn temperature ( T AU ) as predictors.…”
Section: Methodsmentioning
confidence: 99%
“…Following Zohner et al (2023), who identify pre-solstice vegetation activity/temperature and autumn temperature as the main drivers of autumn phenology, two additional analyses were performed.…”
Section: Statistical Analysesmentioning
confidence: 99%
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