A Silva, Raquel Greg Faluvegi Stig Dalsoren William J Collins Drew T Shindell Jean-François Lamarque Susan C Anenberg Yuqiang Zhang J Jason West Gerd Folberth Estimates of the global PM<sub>2.5</sub> CPD and LC mortality attributed to past climate change (2000–Em2000Cl1850), for PM<sub>2.5</sub> calculated as a sum of species for 5 models (dark blue), and for PM<sub>2.5</sub> as reported by 4 models (dark green) <p><strong>Figure 7.</strong> Estimates of the global PM<sub>2.5</sub> CPD and LC mortality attributed to past climate change (2000–Em2000Cl1850), for PM<sub>2.5</sub> calculated as a sum of species for 5 models (dark blue), and for PM<sub>2.5</sub> as reported by 4 models (dark green). Light-colored bars show the corresponding estimates with a low-concentration threshold (5.8 μg m<sup>−3</sup>). Uncertainty for individual models reflects only the 95% confidence intervals on the CRF (Krewski <em>et al</em> <a href="http://iopscience.iop.org/1748-9326/8/3/034005/article#erl468139bib15" target="_blank">2009</a>). Uncertainty for the multi-model average is a 95% CI including uncertainty in the CRF and across models.</p> <p><strong>Abstract</strong></p> <p>Increased concentrations of ozone and fine particulate matter (PM<sub>2.5</sub>) since preindustrial times reflect increased emissions, but also contributions of past climate change. Here we use modeled concentrations from an ensemble of chemistry–climate models to estimate the global burden of anthropogenic outdoor air pollution on present-day premature human mortality, and the component of that burden attributable to past climate change. Using simulated concentrations for 2000 and 1850 and concentration–response functions (CRFs), we estimate that, at present, 470 000 (95% confidence interval, 140 000 to 900 000) premature respiratory deaths are associated globally and annually with anthropogenic ozone, and 2.1 (1.3 to 3.0) million deaths with anthropogenic PM<sub>2.5</sub>-related cardiopulmonary diseases (93%) and lung cancer (7%). These estimates are smaller than ones from previous studies because we use modeled 1850 air pollution rather than a counterfactual low concentration, and because of different emissions. Uncertainty in CRFs contributes more to overall uncertainty than the spread of model results. Mortality attributed to the effects of past climate change on air quality is considerably smaller than the global burden: 1500 (−20 000 to 27 000) deaths yr<sup>−1</sup> due to ozone and 2200 (−350 000 to 140 000) due to PM<sub>2.5</sub>. The small multi-model means are coincidental, as there are larger ranges of results for individual models, reflected in the large uncertainties, with some models suggesting that past climate change has reduced air pollution mortality.</p> PM 2.5 CPD;model;lc;concentration;1850 air pollution;PM 2.5;ci;air pollution mortality;uncertainty;crf;climate change;ozone;burden;anthropogenic;Environmental Science 2013-07-11
    https://iop.figshare.com/articles/figure/_Estimates_of_the_global_PM_sub_2_5_sub_CPD_and_LC_mortality_attributed_to_past_climate_change_2000_/1011464
10.6084/m9.figshare.1011464.v1