2017
DOI: 10.1002/2017jd026888
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Sensitivity of Aerosol Distribution and Climate Response to Stratospheric SO2 Injection Locations

Abstract: Injection of SO2 into the stratosphere has been proposed as a method to, in part, counteract anthropogenic climate change. So far, most studies investigated injections at the equator or in a region in the tropics. Here we use Community Earth System Model version 1 Whole Atmosphere Community Climate Model (CESM1(WACCM)) to explore the impact of continuous single grid point SO2 injections at seven different latitudes and two altitudes in the stratosphere on aerosol distribution and climate. For each of the 14 lo… Show more

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Cited by 122 publications
(228 citation statements)
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“…A comparison between the linear prediction and actual simulation is shown for several cases in Figure ; this figure also illustrates the zonal‐mean response patterns that result from some of the single‐latitude injection cases. As described by Tilmes et al (), the dominant mechanism of nonlinearity is due to increased aerosol size through condensation and coagulation close to the injection point in the region of new particle formation. Figure (left column) corresponds to simultaneous injection of 12 TgSO 2 per year each at 15°N and 15°S.…”
Section: Discussion Of Linearity Assumptionmentioning
confidence: 92%
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“…A comparison between the linear prediction and actual simulation is shown for several cases in Figure ; this figure also illustrates the zonal‐mean response patterns that result from some of the single‐latitude injection cases. As described by Tilmes et al (), the dominant mechanism of nonlinearity is due to increased aerosol size through condensation and coagulation close to the injection point in the region of new particle formation. Figure (left column) corresponds to simultaneous injection of 12 TgSO 2 per year each at 15°N and 15°S.…”
Section: Discussion Of Linearity Assumptionmentioning
confidence: 92%
“…The spatial distribution of aerosols that results from small‐amplitude injection will depend primarily on the baseline stratospheric circulation. However, as the injection rate increases, the aerosol size, lifetime, and spatial distribution will shift due to nonlinearities (Tilmes et al, ). There are two main sources of nonlinearity: higher SO 2 injection rates lead to larger aerosols and hence a reduction in AOD per unit injection, and aerosol heating and other radiative and chemical interactions will change stratospheric circulation and transport, altering the spatial distribution as the injection rate increases.…”
Section: Discussion Of Linearity Assumptionmentioning
confidence: 98%
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“…Different injection scenarios have been proposed and adopted in modelling experiments, the most used being the one with a constant sulfur injection rate at the equator for a certain number of years, in order to understand the climate response to such an atmospheric perturbation. Simulations have also been performed to identify the magnitude and location of the sulfur injection, in order to obtain the highest ratio between radiative forcing (RF) and injection magnitude (Niemeier and Schmidt (2017); Tilmes et al (2017) ;Kleinschmitt 10 et al (2017)). …”
mentioning
confidence: 99%