Near-term climate mitigation by short-lived forcers

Smith, Steven J.; Mizrahi, Andrew H.

doi:10.1073/pnas.1308470110

Cited by 76 publications

(68 citation statements)

References 24 publications

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“…1A shows these contributions to the net transient temperature response. SLCP impacts dominate the response for the first half of the century, whereas the GHG impacts, particularly CO2, become increasingly important by 2100, consistent with previous studies of other types of mitigation (29)(30)(31). Cooling caused by removal of the absorptive species (BC, CO2, and CH4) outweighs the warming from removal of reflective aerosols (OC and sulfate, the latter from coal), with BC contributing the most to the surface temperature impact.…”

Section: Resultssupporting

confidence: 84%

Transient climate and ambient health impacts due to national solid fuel cookstove emissions

Henze

Lee

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

119

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Residential solid fuel use contributes to degraded indoor and ambient air quality and may affect global surface temperature. However, the potential for national-scale cookstove intervention programs to mitigate the latter issues is not yet well known, owing to the spatial heterogeneity of aerosol emissions and impacts, along with coemitted species. Here we use a combination of atmospheric modeling, remote sensing, and adjoint sensitivity analysis to individually evaluate consequences of a 20-y linear phase-out of cookstove emissions in each country with greater than 5% of the population using solid fuel for cooking. Emissions reductions in China, India, and Ethiopia contribute to the largest global surface temperature change in 2050 [combined impact of −37 mK (11 mK to −85 mK)], whereas interventions in countries less commonly targeted for cookstove mitigation such as Azerbaijan, Ukraine, and Kazakhstan have the largest per cookstove climate benefits. Abatement in China, India, and Bangladesh contributes to the largest reduction of premature deaths from ambient air pollution, preventing 198,000 (102,000-204,000) of the 260,000 (137,000-268,000) global annual avoided deaths in 2050, whereas again emissions in Ukraine and Azerbaijan have the largest per cookstove impacts, along with Romania. Global cookstove emissions abatement results in an average surface temperature cooling of −77 mK (20 mK to −278 mK) in 2050, which increases to −118 mK (−11 mK to −335 mK) by 2100 due to delayed CO 2 response. Health impacts owing to changes in ambient particulate matter with an aerodynamic diameter of 2.5 µm or less (PM 2.5 ) amount to ∼22.5 million premature deaths prevented between 2000 and 2100.aerosols | climate | human health | cookstoves | atmospheric modeling G lobally over 3 billion people presently use solid fuel for meal preparation (1). The extent of this activity and the associated air quality pollutant emissions have led to numerous cookstove intervention studies and programs, such as the Global Alliance for Clean Cookstoves work to implement 60 million clean cookstoves by 2017 (cleancookstoves.org/about/news/11-20-2014-market-enabling-roadmap-phase-2-2015-2017.html). A primary goal of these efforts is to improve indoor air quality, estimated to cause ∼4.3 million premature deaths annually, along with enhancing livelihood of woman and children via reprieval from fuel collection and other solid fuel cookingrelated tasks (2).The magnitude of the emissions of aerosols, aerosol precursors, and greenhouse gases from solid fuel use has also motivated studies of the impact of these emissions on climate and ambient air quality. An estimated 370,000-500,000 global premature deaths in adults occur annually owing to ambient exposure to fine particulate matter associated with residential cookstoves (3-5), and there are as many as 1.0 million global annual premature deaths of adults and children under the age of 5 y from combined residential and commercial energy generation (which includes solid fuel use for cooking) (6). Thi...

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Section: Resultssupporting

confidence: 84%

Transient climate and ambient health impacts due to national solid fuel cookstove emissions

Henze

Lee

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

119

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“…A key point here is that many of the air pollutants also impact radiative forcing as they form aerosols or act as precursors of aerosols or GHGs. There is, however, great uncertainty in the estimates (38,63,(72)(73)(74)(75). Studies focusing on the cobenefits of air pollution policies for mitigation show that they can potentially reduce net radiative forcing and midterm temperature change by up to 0.2…”

Section: Integrated Model Results On the Coeffects Of Mitigation Pathmentioning

confidence: 99%

“…This can only occur, however, under somewhat debatable assumptions, such as limited or no improvements in the control of air pollutants that cool Earth (e.g., SO 2 , NO x ) (58,69,75). Current science indicates that such climate benefits decrease with increasing mitigation efforts and, more generally, depend greatly on which air pollutants are reduced and to what extent.…”

Section: Integrated Model Results On the Coeffects Of Mitigation Pathmentioning

confidence: 99%

Integrating Global Climate Change Mitigation Goals with Other Sustainability Objectives: A Synthesis

Stechow

McCollum

Riahi

et al. 2015

Annu. Rev. Environ. Resour.

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Achieving a truly sustainable energy transition requires progress across multiple dimensions beyond climate change mitigation goals. This article reviews and synthesizes results from disparate strands of literature on the coeffects of mitigation to inform climate policy choices at different governance levels. The literature documents many potential cobenefits of mitigation for nonclimate objectives, such as human health and energy security, but little is known about their overall welfare implications. Integrated model studies highlight that climate policies as part of well-designed policy packages reduce the overall cost of achieving multiple sustainability objectives. The incommensurability and uncertainties around the quantification of coeffects become, however, increasingly pervasive the more the perspective shifts from sectoral and local to economy wide and global, the more objectives are analyzed, and the more the results are expressed in economic rather than nonmonetary terms. Different strings of evidence highlight the role and importance of energy demand reductions for realizing synergies across multiple sustainability objectives.

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“…Due to their relatively short lifetimes (e.g. aerosol lifetime in the troposphere is about 1 week, Pruppacher and Klett, 1997), the impact of SLP (as well as ozone precursor) emission reductions on near-term reductions in the rate of climate warming has been examined in several recent studies (Ramanathan and Carmichael, 2008;Jackson, 2009;Penner et al, 2010;Shoemaker et al, 2013;Smith and Mizrahi, 2013;Rogelj et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

Multi-model evaluation of short-lived pollutant distributions over east Asia during summer 2008

et al. 2016

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Abstract. The ability of seven state-of-the-art chemistryaerosol models to reproduce distributions of tropospheric ozone and its precursors, as well as aerosols over eastern Asia in summer 2008, is evaluated. The study focuses on the performance of models used to assess impacts of pollutants on climate and air quality as part of the EU ECLIPSE project. Models, run using the same ECLIPSE emissions, are compared over different spatial scales to in situ surface, vertical profiles and satellite data. Several rather clear biases are found between model results and observations, including overestimation of ozone at rural locations downwind of the main emission regions in China, as well as downwind over the Pacific. Several models produce too much ozone over polluted regions, which is then transported downwind. Analysis points to different factors related to the ability of models to simulate VOC-limited regimes over polluted regions and NO x limited regimes downwind. This may also be linked to biases compared to satellite NO 2 , indicating overestimation of NO 2 over and to the north of the northern China Plain emission region. On the other hand, model NO 2 is too low to the south and west of this region and over South Korea/Japan. Overestimation of ozone is linked to systematic underestimation of CO particularly at rural sites and downwind of the main Chinese emission regions. This is likely to be due to enhanced destruction of CO by OH. Overestimation of Asian ozone and its transport downwind impliesPublished by Copernicus Publications on behalf of the European Geosciences Union. With regard to aerosols, most models reproduce the satellite-derived AOD patterns over eastern China. Our study nevertheless reveals an overestimation of ECLIPSE model mean surface BC and sulphate aerosols in urban China in summer 2008. The effect of the short-term emission mitigation in Beijing is too weak to explain the differences between the models. Our results rather point to an overestimation of SO 2 emissions, in particular, close to the surface in Chinese urban areas. However, we also identify a clear underestimation of aerosol concentrations over northern India, suggesting that the rapid recent growth of emissions in India, as well as their spatial extension, is underestimated in emission inventories. Model deficiencies in the representation of pollution accumulation due to the Indian monsoon may also be playing a role. Comparison with vertical aerosol lidar measurements highlights a general underestimation of scattering aerosols in the boundary layer associated with overestimation in the free troposphere pointing to modelled aerosol lifetimes that are too long. This is likely linked to too strong vertical transport and/or insufficient deposition efficiency during transport or export from the boundary layer, rather than chemical processing (in the case of sulphate aerosols). Underestimation of sulphate in the boundary layer implies potentially large errors in simulated aerosol-cloud interactions, via impacts on boundary-layer clouds...

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Near-term climate mitigation by short-lived forcers

Cited by 76 publications

References 24 publications

Transient climate and ambient health impacts due to national solid fuel cookstove emissions

Transient climate and ambient health impacts due to national solid fuel cookstove emissions

Integrating Global Climate Change Mitigation Goals with Other Sustainability Objectives: A Synthesis

Multi-model evaluation of short-lived pollutant distributions over east Asia during summer 2008

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