Exponential increases in high-temperature extremes in North America

Ali Davariashtiyani; Mohsen Taherkhani; Seyyedfaridoddin Fattahpour; Sean Vitousek

doi:10.1038/s41598-023-41347-3

Exponential increases in high-temperature extremes in North America

Sci Rep. 2023 Nov 6;13(1):19177. doi: 10.1038/s41598-023-41347-3.

Authors

Ali Davariashtiyani¹, Mohsen Taherkhani², Seyyedfaridoddin Fattahpour¹, Sean Vitousek^{1

3}

Affiliations

¹ Department of Civil, Materials, and Environmental Engineering, University of Illinois Chicago, Chicago, IL, USA.
² Department of Civil and Construction Engineering, Oregon State University, Corvallis, OR, USA. taherkhm@oregonstate.edu.
³ Currently employed at Pacific Coastal and Marine Science Center, U.S. Geological Survey, Santa Cruz, CA, USA.

Abstract

Global warming in the 21st century will alter the frequency of extreme climatic events, such as high-temperature anomalies and "heat waves". Observations of extreme high temperatures during recent decades have detected upward trends in their frequency of occurrence, and recent state-of-the-art Global Climate Models (GCMs), e.g., Climate Model Intercomparison Projects (CMIPs), notably CMIP5 and CMIP6, have predicted acceleration of temperature trends and high-temperature events by 2100 under projected greenhouse-gas emission scenarios. Hence, the 21st century is expected to experience substantial shifts in the occurrence of extreme events, where present-day, extreme-but-rare high-temperature events will become common during the summer months. The increasing frequency of extreme heat may affect the health and resiliency of social, biological, and infrastructure systems in many regions worldwide, underscoring the need for accurate and reliable long-term assessments of climatic change across global and regional scales. So far, many investigations of high-temperature extremes have been carried out under end-point scenarios, e.g., by comparing GCM-projected changes in the frequency of high-temperature extremes expected in the late 21st century to the late 20th century. In this study, we use extreme value theory and decades of observations of high-temperature extremes at thousands of meteorological stations across North America to investigate continuous shifts in the frequency of extreme high-temperature events due to projected local warming trends. We find that the odds of exceedance of 50-year extreme high-temperature events increases exponentially with increases in mean local temperature. At a majority of the stations studied here, a local mean temperature increase of 0.5-1 [Formula: see text]C can double the odds of exceedance of 50-year extreme high-temperature events. Based on time-dependent temperature projections, the odds of exceedance of 50-year extreme high-temperature events doubles approximately every 20 years (or sooner) for [Formula: see text] 96% of the stations. Moreover, we find that, for [Formula: see text] 80% of the stations in North America, investigated here, the 50-year extreme high-temperature events will be exceeded annually before 2100.