Changes in heat stress considering temperature, humidity, and wind over East Asia under <scp>RCP8</scp>.5 and <scp>SSP5</scp>‐8.5 scenarios

Juzbašić, Ana; Ahn, Joong‐Bae; Cha, Dong‐Hyun; Chang, Eun‐Chul; Min, Seung‐Ki

doi:10.1002/joc.7636

Cited by 15 publications

(9 citation statements)

References 47 publications

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“…Sørland et al 2021). Several studies analyzed these simulations to assess RCM performances in tropical cyclones (Lee et al 2020) and East Asian mean climate (Kim et al 2020) as well as future projections in heat stress (Juzbašic et al 2022), Köppen-Trewartha climate-type (Jo et al 2019), potential for solar energy production (Park et al 2022), and mean and extreme ocean wave heights (Li et al 2022).…”

Section: Introductionmentioning

confidence: 99%

Uncertainty analysis of future summer monsoon duration and area over East Asia using a multi-GCM/multi-RCM ensemble

Lee

Min

Ahn

et al. 2023

Environ. Res. Lett.

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This study examines spatio-temporal characteristics of the summer monsoon rainy season over East Asia using six regional climate models (RCMs) participating in the “Coordinated Regional Domain Experiment” (CORDEX) East Asia Phase II project. The combination of multiple global climate models (GCMs) × RCMs framework produces a larger spread in summer monsoon characteristics than those from driving GCMs only, enabling a better quantification of uncertainty factors. The RCM simulations on average reproduce the observed summer monsoon duration and area better than the corresponding boundary GCMs, implying the added values of downscaling. Both area and duration of the East Asian summer monsoon are projected to increase by the late 21st century, more strongly in the high emission scenarios than in the low emission ones, particularly in China. Different responses between scenarios, which indicate warming mitigation benefits become significant only in the late 21st century due to large inter-simulation uncertainties. Analysis of Variance (ANOVA) results show that uncertainty in future monsoon area and duration is larger between boundary GCMs than between RCMs over East Asia and its coastal sub-regions. A strong inter-simulation relationship between RCMs and GCMs supports that the boundary GCMs substantially diversify downscaled RCM projections through different climate sensitivities. Further, the distinct sub-regional responses in future monsoon area and duration emphasize the importance of fine-resolution projections with appropriate uncertainty measures for better preparing region-specific adaptation plans.

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Section: Introductionmentioning

confidence: 99%

Uncertainty analysis of future summer monsoon duration and area over East Asia using a multi-GCM/multi-RCM ensemble

Lee

Min

Ahn

et al. 2023

Environ. Res. Lett.

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“…Further modifications included the effect of winds and extended its use to cold conditions (Hentschel, 1987; Li & Chan, 2000). The presently well‐established formula for NET is as follows (Gao et al., 2018; Juzbašić et al., 2022; Wu et al., 2017):

\mathrm{N}\mathrm{E}\mathrm{T}=37-\frac{37-T}{0.68-0.0014RH+\frac{1}{1.76{+1.4v}^{0.75}}}-0.29T(1-0.01RH)

where T , RH , and v are daily mean near‐surface temperature (°C), relative humidity (%), and wind speed (m/s), respectively. NET considers the aggregate effects of temperature, relative humidity, and wind on human thermal perception.…”

Section: Methodsmentioning

confidence: 99%

“…Further modifications included the effect of winds and extended its use to cold conditions (Hentschel, 1987;Li & Chan, 2000). The presently well-established formula for NET is as follows (Gao et al, 2018;Juzbašić et al, 2022;Wu et al, 2017):…”

Section: Thermal Comfort Metricsmentioning

confidence: 99%

Inequality of Global Thermal Comfort Conditions Changes in a Warmer World

et al. 2023

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Changes in the thermal comfort condition of the living environment of human beings are one of the main concerns related to global warming. While previous studies largely focused on mean temperature and warm/cold extremes, changes in thermal comfort conditions (both comfort and discomfort conditions) have not been adequately revealed. Based on climate projections from the Coupled Model Intercomparison Project phase 6 (CMIP6), future thermal comfort conditions over global land using net effective temperature index that considers the aggregate effects of temperature, relative humidity, and wind on human thermal perception were investigated. The focus was on the projected changes in thermal comfort conditions in different regions based on gross domestic product per capita, an indicator of adaptive capacity. An inequitable impact of escalating global warming on thermal comfort conditions emerges: in high‐income regions (mostly distributed in cool mid‐high latitudes), a diminishing number of cold‐uncomfortable days and an increasing number of comfort days collectively would contribute to an improvement in thermal comfort conditions; however, in low‐income regions (mostly distributed in warmer low latitudes), thermal comfort conditions are expected to worsen as a result of a dramatic increase in the number of warm‐uncomfortable days that greatly exceeds the decrease in the number of cold‐uncomfortable days and a decrease in the number of comfortable days. Moreover, analysis accounting for population exposure suggests that the overall impact of future changes in thermal comfort conditions on the global population is negative. Therefore, prioritized support for climate mitigation and adaptation to developing nations is justified and urgently needed.

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“…Two GCMs (single member from each GCM as indicated) are selected in accord with the CORDEX East Asia Phase II experiments (cf. Juzbašić et al., 2022). First, we dynamically downscaled coarse resolution GCM outputs (at ∼200 and ∼250 km resolutions for MPI and UKE, respectively) into 25 km resolution for the CORDEX‐East Asia Phase II domain using RCM configuration.…”

Section: Models and Methodsmentioning

confidence: 99%

Enhanced Role of Convection in Future Hourly Rainfall Extremes Over South Korea

Lee

Min

Park

et al. 2022

Geophysical Research Letters

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An increasing number of studies have examined the dependence of sub-daily extreme rainfall intensity on the surface air temperature, so-called extreme precipitation-temperature (EP-T) scaling as reviewed by Fowler et al. ( 2021). The scaling rates identified in the observations were found to be larger than the theoretical limit of the Clausius-Clapeyron (C-C) relation, suggesting disproportionate intensification of sub-daily precipitation extremes in a warmer condition. Several observational studies confirmed this short-term EP-T relationship over various regions:

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Changes in heat stress considering temperature, humidity, and wind over East Asia under RCP8.5 and SSP5‐8.5 scenarios

Cited by 15 publications

References 47 publications

Uncertainty analysis of future summer monsoon duration and area over East Asia using a multi-GCM/multi-RCM ensemble

Uncertainty analysis of future summer monsoon duration and area over East Asia using a multi-GCM/multi-RCM ensemble

Inequality of Global Thermal Comfort Conditions Changes in a Warmer World

Enhanced Role of Convection in Future Hourly Rainfall Extremes Over South Korea

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