Linkages between Amplified Quasi-stationary Waves and Humid Heat Extremes in Northern Hemisphere Midlatitudes

Humid heat extremes, taking account of both temperature and humidity, have adverse impacts on society, particularly on human health. It has been suggested that quasi-stationary waves (QSWs) with anomalously high amplitudes contribute to the occurrence of near-surface precipitation extremes and temperature extremes in the mid-latitudes of Northern Hemisphere. While little attention is paid to the linkages between amplified QSWs and humid heat extremes. Using the ERA5 dataset, we identify amplified QSWs of zonal wavenumbers 5-7 (Wave 5-7) in summer months from 1979 to 2020. These amplified QSWs show clear circumglobal wave patterns horizontally and nearly barotropic structure vertically. Linking amplified Wave 5-7 to wet-bulb temperature (WBT) extremes, we find that amplified QSWs preferentially induce prominently prolonged WBT extremes in specific regions: north-central North America for amplified Wave 5; western United States, south-central Asia, as well as eastern Asia for amplified Wave 6; western Europe and the Caspian Sea region for amplified Wave 7. Analyses of physical processes indicate that accompanied by the amplification of Wave 5-7, the changes in horizontal temperature advection, adiabatic heating, downward solar radiation, moisture transport and moisture flux convergence, and surface latent heat fluxes largely account for the increase in persistence of WBT extremes.