Impacts of climate change on ground level gas-phase pollutants and aerosols in the Iberian Peninsula for the late XXI century
- 作者:Pedro Jimé ; nez-Guerrero ; pedro.jimenezguerrero@um.es ; Juan Pedro Montá ; vez ; Juan José ; Gó ; mez-Navarro ; Sonia Jerez ; Raquel Lorente-Plazas
- 关键词:Regional climate modeling ; Air pollution ; Aerosols ; Climate change ; Iberian Peninsula
- 刊名:Atmospheric Environment
- 出版年:2012
- 期刊代码:11_13522310
- 类别:env
- 出版时间:August, 2012
- 卷:55
- 期:Complete
- 页码:483-495
- 文件大小:5808 K
摘要
Climate change alone influences future air pollution levels through modifications of gas-phase chemistry, transport, removal, and natural emissions. Hence, the goal of this study is to determine at what extent concentrations of air pollutants respond to changes over the Iberian Peninsula under a climate change scenario. The methodology includes the use of the regional modeling system MM5 (regional climate model version)-CHIMERE for two nested domains covering Europe and the Iberian Peninsula. Two time slices driven by ECHO-G global circulation model covering from 1991 to 2010 and 2071 to 2100 under the SRES A2 scenario have been compared. Climate change influences the concentrations of both gas-phase pollutants and aerosols through changes in temperature, precipitation, mixing height, transport, humidity, and oxidant levels. The trends of variation of ozone (changes up to 5聽ppb,聽+10%increase during summertime) and aerosols over southwestern Europe are influenced by the higher mean temperature modeled for the future climate (up to聽+5.4聽K), since it favors the formation of secondary gas-phase products. It also enhances sulphates (+2聽渭g聽m鈭?) and secondary organic aerosols (SOA) (+2.5聽渭g聽m鈭? under SRES A2 scenario) and contributes to the decomposition of ammonium nitrate, remaining in the gas phase. Further, the 17%percent decrease of precipitation modeled for 2071-2100 has a strong effect in the frequency of the washout and therefore in the levels of natural aerosols: the concentrations of aerosols decrease with increasing precipitation as wet deposition provides the main aerosol sink.