Typicality of the 2021 Western North America summer heatwave

Lucarini, Valerio; Gálfi, Vera Melinda; Messori, Gabriele; Riboldi, Jacopo

doi:10.1088/1748-9326/acab77

Cited by 20 publications

(21 citation statements)

References 71 publications

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“…In the intermediate 15-day case, trajectories including 2021 analogues lead to a much higher probability of reaching or surpassing the event, but 4% of the trajectories are higher even with analogues taken from other years, showing that events of comparable or larger magnitude at this time scale are rare but not impossible in the current climate. This largely supports the very recent findings of Lucarini et al (2023) based on a large deviation analysis. When considering a 15-day temperature average, the authors argued that the 2021 event is an unlikely but possible manifestation of climate variability, whose probability of occurrence is greatly amplified by the ongoing climate change.…”

Section: Discussionsupporting

confidence: 91%

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Simulating the West Pacific Heatwave of 2021 with Analog Importance Samping

Pons¹,

Yiou²,

Jézéquel³

2023

Preprint

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<p>During the summer of 2021, the North American Pacific Northwest was affected by an extreme heatwave that broke previous temperature records by several degrees and lasted almost two months after the initial peak. The event caused severe impacts on human life and ecosystems, and was associated with the superposition of concurrent extreme drivers, whose effects were amplified by climate change. We evaluate whether this record-breaking heatwave could be anticipated prior to 2021, and how climate change affects North American Pacific Northwest worst case heatwave scenarios. We use a stochastic weather generator &#160;with empirical importance sampling. The generator simulates temperature sequences with realistic statistics using circulation analogues, chosen with an importance sampling based on the daily maximum temperature over the region that recorded the most extreme impacts. We show how some of the large-scale drivers of the event can be obtained form the circulation analogues, even if such information is not directly given to the stochastic weather generator.</p>

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Section: Discussionsupporting

confidence: 91%

“…Extreme value and large deviation analyses have shown that human-induced global warming has increased both the likelihood and the intensity of this heatwave (Philip et al, 2021;Lucarini et al, 2023).…”

Section: Introductionmentioning

confidence: 99%

Simulating the West Pacific Heatwave of 2021 with Analog Importance Samping

Pons¹,

Yiou²,

Jézéquel³

2023

Preprint

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“…These findings can enrich our understanding of the 2021 WNA heatwave and help countries in this region to make appropriate adaptation measures to future climate change to a certain degree. Finally, previous studies indicated that some specific synoptic conditions with amplified ridge, offshore/downsloping flow, and regional soil moisture deficiency amplified the 2021 heatwave in cities over WNA (Bartusek et al., 2022; Lucarini et al., 2022; Neal et al., 2022; Qian et al., 2022). However, it is unclear with confidence whether these conditions associated with the 2021 WNA heatwave will be enhanced accordingly in the future, which deserves further study.…”

Section: Conclusion and Discussionmentioning

confidence: 90%

“…The findings of this study are basically consistent with those reported in recent studies (i.e., Philip et al., 2021; McKinnon & Simpson, 2022; Thompson et al., 2022) that a higher occurrence likelihood of future heatwave similar to the 2021 one is expected over WNA in a warmer world. In these studies, the conclusions are primarily based on the analysis of one state‐of‐the‐art earth system model (i.e., Lucarini et al., 2022; McKinnon & Simpson, 2022; Terray, 2022; Thompson et al., 2022) or a specific warming scenario (i.e., Philip et al., 2021; Bartusek et al., 2022). As such, these approaches may not fully quantify future prospects of a heatwave similar to that observed in 2021 over WNA, considering the possible biases of a single climate model and the divergent possibilities of future trajectories.…”

Section: Conclusion and Discussionmentioning

confidence: 99%

Heatwaves Similar to the Unprecedented One in Summer 2021 Over Western North America Are Projected to Become More Frequent in a Warmer World

Dong

Wang

et al. 2023

Earth's Future

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Western North America (WNA) experienced an unprecedented heatwave from late June to early July 2021, which lies far outside the historical range. Based on the model outputs from Coupled Model Intercomparison Project Phase 6, we find that the likelihood of a heatwave over WNA similar to the 2021 one increases with global warming. Such a heatwave is projected to occur more frequently with increased extreme temperature and shortened return period. It means that a rare event in the current climate will be a more common event in a warmer climate, especially under a high‐emission scenario like the Shared Socioeconomic Pathways 585 (SSP5‐8.5). Moreover, we show a large expansion of areas over WNA that will break the 2021 record in the future with an increasing level of emission scenario. Nevertheless, some heatwave records west of the Rocky Mountains are still difficult to break, highlighting the specific extremity of the 2021 WNA heatwave.

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“…Western North America (WNA), including parts of Canada and the US, experienced an unprecedented temperature extreme in late June to early July 2021 that broke historical records (Bartusek et al., 2022; Bercos‐Hickey et al., 2022; Dong et al., 2023; Heeter et al., 2023; Lin et al., 2022; Loikith & Kalashnikov, 2023; Lucarini et al., 2023; McKinnon & Simpson, 2022; Qian et al., 2022; Thompson et al., 2022; White et al., 2023). For example, Lytton in British Columbia set a new Canadian record of 49.6°C (ECCC, 2021) and Hanford in Washington state set a new state record of 48.98°C (Loikith & Kalashnikov, 2023).…”

Section: Introductionmentioning

confidence: 97%

Unprecedented Human‐Perceived Heat Stress in 2021 Summer Over Western North America: Increasing Intensity and Frequency in a Warming Climate

Jeong,

Yu,

Cannon

2023

Geophysical Research Letters

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The unprecedented 2021 June‐July heatwave in Western North America resulted in record‐breaking human‐perceived heat stress across the region, measured by the humidex considering both air temperature and humidity. During extended summer (June‐September), both 95th percentiles of daily maximum humidex (HX95) and air temperature (TX95) have increased over the 1940–2022 period, with even faster intensification in the last two decades (2001–2022). HX95 has increased more than TX95 because of the positive monotonic nonlinear relationship between humidex and air temperature at a given level of relative humidity. The Canadian Earth System Model version 5 (CanESM5) projects a larger increase in human‐perceived heat stress than air temperature across the region under low to high emission scenarios (HX95 increases 4.40–7.04°C and TX95 increases 2.92–4.65°C between 1981–2010 and 2041–2060). Moreover, CanESM5 projects significant increases in the frequency of HX and TX conditions that exceed the levels reached in 2021 under intermediate and high emission scenarios.

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Typicality of the 2021 Western North America summer heatwave

Cited by 20 publications

References 71 publications

Simulating the West Pacific Heatwave of 2021 with Analog Importance Samping

Simulating the West Pacific Heatwave of 2021 with Analog Importance Samping

Heatwaves Similar to the Unprecedented One in Summer 2021 Over Western North America Are Projected to Become More Frequent in a Warmer World

Unprecedented Human‐Perceived Heat Stress in 2021 Summer Over Western North America: Increasing Intensity and Frequency in a Warming Climate

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