RT Journal Article
T1 Assessing the Projected Changes in European Air Stagnation due to Climate Change
A1 Maddison, Jacob William
A1 Ábalos Álvarez, Marta
A1 Barriopedro Cepero, David
A1 García Herrera, Ricardo Francisco
A1 Garrido Pérez, José Manuel
A1 Ordóñez García, Carlos
A1 Simpson, Isla R
AB Air pollution is a major environmental threat to human health. Pollutants can reach extreme levels in the lower atmosphere when weather conditions permit. As pollutant concentrations depend on scales and processes that are not fully represented in current global circulation models (GCMs), and it is often too computationally expensive to run models with atmospheric chemistry and aerosol processes, air stagnation is often used as a proxy for pollution events with particular success in Europe. However, the variables required to identify air stagnation can have biases in GCM output, which adds uncertainty to projected trends in air stagnation. Here, the representation of air stagnation in GCMs is assessed for Europe in the historical period and in end-of-century projections based on a high-emission scenario using three methods for identifying air stagnation. The monthly frequency of stagnation during summer and autumn is projected to increase with climate change when stagnation is identified by a well-established index. However, this increase is not present when air-stagnation frequency is estimated using a statistical model based on the synoptic- to large-scale atmospheric circulation. This implies that the projected increases in air stagnation are not driven by an increase in frequency or severity of large-scale circulation events that are conducive to stagnation. Indeed, projected changes to the atmospheric circulation in GCMs, in particular a reduction in atmospheric block frequency, would suggest a reduction in future air stagnation. Additional analyses indicate that the projected increases in stagnation frequency follow the trend toward more frequent dry days, which is apparently unrelated to the large-scale drivers of air stagnation.
PB American Meteorological Society
SN 0894-8755
YR 2023
FD 2023-02-01
LK https://hdl.handle.net/20.500.14352/91051
UL https://hdl.handle.net/20.500.14352/91051
LA eng
NO Ministerio de Economía, Industria y Competitividad
NO Ministerio de Ciencia Innovación y Universidades
NO Ministerio de Educación, Cultura y Deporte
NO National Science Foundation
DS Docta Complutense
RD 6 oct 2024