Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Economic losses due to ozone impacts on human health, forest productivity and crop yield across China
Abstract China's economic growth has significantly increased emissions of tropospheric ozone (O3) precursors, resulting in increased regional O3 pollution. We analyzed data from >1400 monitoring stations and estimated the exposure of population and vegetation (crops and forests) to O3 pollution across China in 2015. Based on WHO metrics for human health protection, the current O3 level leads to +0.9% premature mortality (59,844 additional cases a year) with 96% of populated areas showing O3–induced premature death. For vegetation, O3 reduces annual forest tree biomass growth by 11–13% and yield of rice and wheat by 8% and 6%, respectively, relative to conditions below the respective AOT40 critical levels (CL). These CLs are exceeded over 98%, 75% and 83% of the areas of forests, rice and wheat, respectively. Using O3 exposure–response functions, we evaluated the costs of O3-induced losses in rice (7.5 billion US$), wheat (11.1 billion US$) and forest production (52.2 billion US$) and SOMO35–based morbidity for respiratory diseases (690.9 billion US$) and non–accidental mortality (7.5 billion US$), i.e. a total O3-related cost representing 7% of the China Gross Domestic Product in 2015.
Highlights O3 in China reduces annual forest tree biomass growth by 11–13% and yield of rice and wheat by 8% and 6%, respectively The expected increase in mortality rate in China varies from 0.42% to 1.11% depending on the selected metric, corresponding to 28,000 to 74,000 premature deaths due to O3 pollution Total O3-related cost in China represents 7% of the China Gross Domestic Product in 2015
Economic losses due to ozone impacts on human health, forest productivity and crop yield across China
Abstract China's economic growth has significantly increased emissions of tropospheric ozone (O3) precursors, resulting in increased regional O3 pollution. We analyzed data from >1400 monitoring stations and estimated the exposure of population and vegetation (crops and forests) to O3 pollution across China in 2015. Based on WHO metrics for human health protection, the current O3 level leads to +0.9% premature mortality (59,844 additional cases a year) with 96% of populated areas showing O3–induced premature death. For vegetation, O3 reduces annual forest tree biomass growth by 11–13% and yield of rice and wheat by 8% and 6%, respectively, relative to conditions below the respective AOT40 critical levels (CL). These CLs are exceeded over 98%, 75% and 83% of the areas of forests, rice and wheat, respectively. Using O3 exposure–response functions, we evaluated the costs of O3-induced losses in rice (7.5 billion US$), wheat (11.1 billion US$) and forest production (52.2 billion US$) and SOMO35–based morbidity for respiratory diseases (690.9 billion US$) and non–accidental mortality (7.5 billion US$), i.e. a total O3-related cost representing 7% of the China Gross Domestic Product in 2015.
Highlights O3 in China reduces annual forest tree biomass growth by 11–13% and yield of rice and wheat by 8% and 6%, respectively The expected increase in mortality rate in China varies from 0.42% to 1.11% depending on the selected metric, corresponding to 28,000 to 74,000 premature deaths due to O3 pollution Total O3-related cost in China represents 7% of the China Gross Domestic Product in 2015
Economic losses due to ozone impacts on human health, forest productivity and crop yield across China
Feng, Zhaozhong (Autor:in) / De Marco, Alessandra (Autor:in) / Anav, Alessandro (Autor:in) / Gualtieri, Maurizio (Autor:in) / Sicard, Pierre (Autor:in) / Tian, Hanqin (Autor:in) / Fornasier, Francesca (Autor:in) / Tao, Fulu (Autor:in) / Guo, Anhong (Autor:in) / Paoletti, Elena (Autor:in)
26.06.2019
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Surface ozone , Human health , Wheat , Rice , Forests , Crops , Risk assessment , Impacts , Economic valuation
| DOAJ | 2019