Projected Changes in Ultraviolet Index and UV Doses over the Twenty-first Century: Impacts of Ozone and Aerosols from CMIP6

Overview

Journal Photochem Photobiol Sci

Publisher Springer

Specialties Biology
Chemistry

Date 2024 May 19

PMID 38762827

Authors

Ana Leticia Campos Yamamoto

Marcelo de Paula Correa

Roger Rodrigues Torres

Fabrina Bolzan Martins

Sophie Godin-Beekmann

Affiliations

Soon will be listed here.

Abstract

This study evaluated the health-related weighted ultraviolet radiation (UVR) due to the total ozone content (TOC) and the aerosol optical depth (AOD) changes. Clear-sky Ultraviolet Index (UVI), daily doses, and exposure times for erythema induction (D and T) and vitamin D synthesis (D and T) were computed by a radiative transfer estimator. TOC and AOD data were provided by six Earth System Models (ESMs) from the Coupled Model Intercomparison Project Phase 6 (CMIP6). For projections, we consider four Shared Socioeconomic Pathways scenarios-SSPs (SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5)-and two time-slices (near: 2041-2060 and far future: 2081-2100). UVR projections showed pronounced changes for the summer hemispheres in the far future. TOC increases in mid- and high latitudes of the Southern Hemisphere caused decreases in UVR at the summer solstice. However, projections did not indicate sun-safe exposure conditions in South America, Australia, and Southern Africa. On the contrary, exposure around solar noon from 10 to 20 min will still be sufficient to induce erythema in skin type III individuals throughout this century. In southern Argentina and Chile, the UVR insufficiency for vitamin D synthesis at solar noon in skin type III remains the same during this century at the winter solstice. In the Northern Hemisphere, UVI and D at the summer solstice should remain high (UVI ≥ 8; D ~ 7.0 kJ m) in highly populated locations. Above 45 °N, UVR levels cannot be enough to synthesize vitamin D in skin type III during the boreal winter. Our results show that climate change will affect human health through excess or lack of solar UVR availability.

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