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Coupled Aerosol-Chemistry–Climate Twentieth-Century Transient Model Investigation: Trends in Short-Lived Species and Climate Responses

Koch, Dorothy ; Bauer, Susanne E. ; Del Genio, Anthony ; [et al.]

American Meteorological Society ; 2011

In: Journal of Climate Vol. 24, No. 11 ( 2011-06-01), p. 2693-2714

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In: Journal of Climate, American Meteorological Society, Vol. 24, No. 11 ( 2011-06-01), p. 2693-2714

Abstract: The authors simulate transient twentieth-century climate in the Goddard Institute for Space Studies (GISS) GCM, with aerosol and ozone chemistry fully coupled to one another and to climate including a full dynamic ocean. Aerosols include sulfate, black carbon (BC), organic carbon, nitrate, sea salt, and dust. Direct and BC-snow-albedo radiative effects are included. Model BC and sulfur trends agree fairly well with records from Greenland and European ice cores and with sulfur deposition in North America; however, the model underestimates the sulfur decline at the end of the century in Greenland. Global BC effects peak early in the century (1940s); afterward the BC effects decrease at high latitudes of the Northern Hemisphere but continue to increase at lower latitudes. The largest increase in aerosol optical depth occurs in the middle of the century (1940s–80s) when sulfate forcing peaks and causes global dimming. After this, aerosols decrease in eastern North America and northern Eurasia leading to regional positive forcing changes and brightening. These surface forcing changes have the correct trend but are too weak. Over the century, the net aerosol direct effect is −0.41 W m−2, the BC-albedo effect is −0.02 W m−2, and the net ozone forcing is +0.24 W m−2. The model polar stratospheric ozone depletion develops, beginning in the 1970s. Concurrently, the sea salt load and negative radiative flux increase over the oceans around Antarctica. Net warming over the century is modeled fairly well; however, the model fails to capture the dynamics of the observed midcentury cooling followed by the late century warming. Over the century, 20% of Arctic warming and snow–ice cover loss is attributed to the BC-albedo effect. However, the decrease in this effect at the end of the century contributes to Arctic cooling. To test the climate responses to sulfate and BC pollution, two experiments were branched from 1970 that removed all pollution sulfate or BC. Averaged over 1970–2000, the respective radiative forcings relative to the full experiment were +0.3 and −0.3 W m−2; the average surface air temperature changes were +0.2° and −0.03°C. The small impact of BC reduction on surface temperature resulted from reduced stability and loss of low-level clouds.

Type of Medium: Online Resource

ISSN: 0894-8755 , 1520-0442

URL: Article

DOI: 10.1175/2011JCLI3582.1

RVK:

UA 4548

Language: English

Publisher: American Meteorological Society

Publication Date: 2011

detail.hit.zdb_id: 246750-1

detail.hit.zdb_id: 2021723-7

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Severe Global Cooling After Volcanic Super-Eruptions? The Answer Hinges on Unknown Aerosol Size

McGraw, Zachary ; DallaSanta, Kevin ; Polvani, Lorenzo M. ; [et al.]

American Meteorological Society ; 2024

In: Journal of Climate Vol. 37, No. 4 ( 2024-02-15), p. 1449-1464

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In: Journal of Climate, American Meteorological Society, Vol. 37, No. 4 ( 2024-02-15), p. 1449-1464

Abstract: Volcanic super-eruptions have been theorized to cause severe global cooling, with the 74 kya Toba eruption purported to have driven humanity to near-extinction. However, this eruption left little physical evidence of its severity and models diverge greatly on the magnitude of post-eruption cooling. A key factor controlling the super-eruption climate response is the size of volcanic sulfate aerosol, a quantity that left no physical record and is poorly constrained by models. Here we show that this knowledge gap severely limits confidence in model-based estimates of super-volcanic cooling, and accounts for much of the disagreement among prior studies. By simulating super-eruptions over a range of aerosol sizes, we obtain global mean responses varying from extreme cooling all the way to the previously unexplored scenario of widespread warming. We also use an interactive aerosol model to evaluate the scaling between injected sulfur mass and aerosol size. Combining our model results with the available paleoclimate constraints applicable to large eruptions, we estimate that global volcanic cooling is unlikely to exceed 1.5°C no matter how massive the stratospheric injection. Super-eruptions, we conclude, may be incapable of altering global temperatures substantially more than the largest Common Era eruptions. This lack of exceptional cooling could explain why no single super-eruption event has resulted in firm evidence of widespread catastrophe for humans or ecosystems. Significance Statement Whether volcanic super-eruptions pose a threat to humanity remains a subject of debate, with climate models disagreeing on the magnitude of global post-eruption cooling. We demonstrate that this disagreement primarily stems from a lack of constraint on the size of volcanic sulfate aerosol particles. By evaluating the range of aerosol size scenarios, we demonstrate that eruptions may be incapable of causing more than 1.5°C cooling no matter how much sulfur they inject into the stratosphere. This could explain why archaeological records provide no evidence of increased human mortality following the Toba super-eruption. Further, we raise the unexplored possibility that the largest super-eruptions could cause global-scale warming.

Type of Medium: Online Resource

ISSN: 0894-8755 , 1520-0442

URL: Article

DOI: 10.1175/JCLI-D-23-0116.1

RVK:

UA 4548

Language: Unknown

Publisher: American Meteorological Society

Publication Date: 2024

detail.hit.zdb_id: 246750-1

detail.hit.zdb_id: 2021723-7

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Present-Day Atmospheric Simulations Using GISS ModelE: Comparison to In Situ, Satellite, and Reanalysis Data

Schmidt, Gavin A. ; Ruedy, Reto ; Hansen, James E. ; [et al.]

American Meteorological Society ; 2006

In: Journal of Climate Vol. 19, No. 2 ( 2006-01-15), p. 153-192

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In: Journal of Climate, American Meteorological Society, Vol. 19, No. 2 ( 2006-01-15), p. 153-192

Abstract: A full description of the ModelE version of the Goddard Institute for Space Studies (GISS) atmospheric general circulation model (GCM) and results are presented for present-day climate simulations (ca. 1979). This version is a complete rewrite of previous models incorporating numerous improvements in basic physics, the stratospheric circulation, and forcing fields. Notable changes include the following: the model top is now above the stratopause, the number of vertical layers has increased, a new cloud microphysical scheme is used, vegetation biophysics now incorporates a sensitivity to humidity, atmospheric turbulence is calculated over the whole column, and new land snow and lake schemes are introduced. The performance of the model using three configurations with different horizontal and vertical resolutions is compared to quality-controlled in situ data, remotely sensed and reanalysis products. Overall, significant improvements over previous models are seen, particularly in upper-atmosphere temperatures and winds, cloud heights, precipitation, and sea level pressure. Data–model comparisons continue, however, to highlight persistent problems in the marine stratocumulus regions.

Type of Medium: Online Resource

ISSN: 1520-0442 , 0894-8755

URL: Article

DOI: 10.1175/JCLI3612.1

RVK:

UA 4548

Language: English

Publisher: American Meteorological Society

Publication Date: 2006

detail.hit.zdb_id: 246750-1

detail.hit.zdb_id: 2021723-7

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