281 captures

17 Dec 2006 - 04 Oct 2025

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2010	2011	2012

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About this capture

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Organization: Internet Archive

The Internet Archive discovers and captures web pages through many different web crawls. At any given time several distinct crawls are running, some for months, and some every day or longer. View the web archive through the Wayback Machine.

Collection: Wikipedia Outlinks July 2011

Crawl of outlinks from wikipedia.org started July, 2011. These files are currently not publicly accessible.

TIMESTAMPS

Nuclear winter article in Encyclopedia of Earth (July 21, 2008)

One Page Summary: Congressional Briefing (June 12, 2008)
 

PowerPoint Presentation, May, 2009:

Climatic Consequences of Nuclear Conflict (38 Mb) (by Alan Robock) presented multiple times - includes quotes from Mikhail Gorbachev on how important nuclear winter was in his decision to end the nuclear arms race (e.g., see answer to first question in his interview at http://dir.salon.com/story/news/feature/2000/09/07/gorbachev/)

PowerPoint Presentations, June, 2008:

Casualties and smoke emissions from regional and global nuclear conflict (8 Mb)  (by Brian Toon, June 12, 2008) presented to Congressional briefings

Climatic Consequences of Nuclear Conflict (8 Mb) (by Alan Robock, June 12, 2008) presented to Congressional briefings

PowerPoint Presentations, October, 2007:

Climatic Consequences of Regional Nuclear Conflict (31 Mb) (by Alan Robock, October 4, 2007)
        You will also need the movies, pin.AVI and effct01a.mov

Consequences of Regional-Scale Nuclear Conflicts: Understanding and Avoiding Nuclear Catastrophe (2 Mb)  (by Brian Toon, October 9, 2007)

Publications:

Mills, Michael J., Owen B. Toon, Richard P. Turco, Douglas E. Kinnison, and Rolando R. Garcia, 2008:  Massive global ozone loss predicted following regional nuclear conflict.  Proc. National Acad. Sci., 105, 5307–5312.   PDF file
 

Robock, Alan, 2007:  Climate effects of a regional nuclear conflict. IPRC Climate, 7, no. 1, 16-18.   PDF file

 

Robock, Alan, 2008:  Time to bury a dangerous legacy – part II: Climatic catastrophe would follow regional nuclear conflict.  YaleGlobal Online

 

Robock, Alan, 2008:  Nuclear winter. In: Encyclopedia of Earth. Cutler J. Cleveland, Ed. (Washington, D.C.: Environmental Information Coalition, National Council for Science and the Environment). [First published in the Encyclopedia of Earth July 21, 2008; Last revised July 22, 2008].  http://www.eoearth.org/article/Nuclear_winter

 

Robock, Alan, 2010: Nuclear winter. Wiley Interdisciplinary Reviews: Climate Change, 1, 418-427. (Invited paper)   PDF file

 

Robock, Alan, 2010: New START, Eyjafjallajökull, and Nuclear Winter. Eos, 91 (47), 444-445, doi:10.1029/2010ES003201.   PDF file

 

Robock, Alan, 2011: Nuclear winter is a real and present danger. Nature, 473, 275-276.   PDF file

 

Robock, Alan, Luke Oman, Georgiy L. Stenchikov, Owen B. Toon, Charles Bardeen, and Richard P. Turco, 2007a:  Climatic consequences of regional nuclear conflicts.  Atm. Chem. Phys., 7, 2003-2012.  PDF file   Supplement caption  Supplement   This paper supersedes the previous discussion version.  Russian translation (по русский)  (See below for most important figures.)

 

Robock, Alan, Luke Oman, and Georgiy L. Stenchikov, 2007b:  Nuclear winter revisited with a modern climate model and current nuclear arsenals: Still catastrophic consequences.  J. Geophys. Res., 112, D13107, doi:2006JD008235.  PDF file  Russian translation (по русский)  Featured as a Research Highlight in Nature.

 

Robock, Alan, Owen B. Toon, Richard P. Turco, Luke Oman, Georgiy L. Stenchikov, and Charles Bardeen, 2007c: The continuing environmental threat of nuclear weapons:  Integrated policy responses needed.  EOS, 88, 228, 231, doi:10.1029/2007ES001816.  PDF file

Robock, Alan, and Owen Brian Toon, 2010:  Local nuclear war, global suffering.  Scientific American, 302, 74-81.  PDF file

Toon, Owen B., Richard P. Turco, Alan Robock, Charles Bardeen, Luke Oman, and Georgiy L. Stenchikov, 2007:  Atmospheric effects and societal consequences of regional scale nuclear conflicts and acts of individual nuclear terrorism.  Atm. Chem. Phys., 7, 1973-2002.  PDF file  This paper supersedes the previous discussion version.   Russian translation (по русский)

 

Toon, Owen B., Alan Robock, Richard P. Turco, Charles Bardeen, Luke Oman, and Georgiy L. Stenchikov, 2007:  Consequences of regional-scale nuclear conflicts.  Science, 315, 1224-1225.  PDF file

 

Toon, Owen B., Alan Robock, and Richard P. Turco, 2008:  Environmental consequences of nuclear war.  Physics Today, 61, No. 12, 37-42.  PDF file

Movies:

5 Tg of smoke from a regional nuclear war between India and Pakistan (from Robock et al., 2007a):

BCabsoptdaily.gif is an animation of the smoke distribution as it is spread around the world by the winds.  The smoke is heated by absorbing sunlight, lofted into the upper stratosphere, and blown into the Southern Hemisphere.Animation drawn by Luke Oman.

 

BCabsopred.gif is the same animation as BCabsoptdaily.gif, but in red.Animation drawn by Luke Oman.

 

BCabsoptdailyheight.gif contains the same animation as BCabsoptdaily.gif, but also includes a graph at the side that shows the vertical distribution of the smoke.  Within the first week the smoke in the troposphere, the lowest atmospheric layer, is lofted or washed out, and the remaining smoke is lofted well into the stratosphere, removed from weather where it can remain for years.  The black horizontal line at about 150 mb marks the boundary between the troposphere and stratosphere, at about 12 km (7 miles).  The top of the stratosphere (at 50 km or 30 miles) has a pressure of about 1 mb. (Updated June 14, 2008, to correct small errors.  If you downloaded this before June 14, 2008, please take this new one.)  Animation drawn by Luke Oman.

50 Tg of smoke from a nuclear war between Russia and U.S. using 1/3 of the current arsenal (from Robock et al., 2007b):

BCdaily50tg.gif is an animation of the smoke distribution as it is spread around the world by the winds.  The smoke is heated by absorbing sunlight, lofted into the upper stratosphere, and blown into the Southern Hemisphere.  Annimation drawn by Luke Oman.

150 Tg of smoke from a nuclear war between Russia and U.S. using the entire current arsenal (from Robock et al., 2007b):

BCdaily150tg.gif is an animation of the smoke distribution as it is spread around the world by the winds.  The smoke is heated by absorbing sunlight, lofted into the upper stratosphere, and blown into the Southern Hemisphere.  Annimation drawn by Luke Oman.

Figures from Robock et al. (2007a):

 

Fig3TempPrecip.jpg  Time variation of global average net surface shortwave radiation, surface air temperature, and precipitation changes for the 5 Tg standard case.  The global average precipitation in the control case is 3.0 mm/day, so the changes in years 2-4 represent a 9% global average reduction in precipitation.  The precipitation recovers faster than the temperature, but both lag the forcing.  For comparison the global average net surface shortwave forcing from a model simulation of the 1991 Mt. Pinatubo eruption is shown.  By contrast, volcanic particle last for a much shorter time in the atmosphere, as they are not lofted by solar absorption.  Figure drawn by Luke Oman.

Fig5SummerTempMap.jpg  Surface air temperature changes for the 5 Tg standard case averaged for June, July, and August of the first year following the smoke injection.  Effects are largest over land, but there is substantial cooling over tropical oceans, too.  The warming over Antarctica is for a small area, is part of normal winter interannual variability, and is not significant.  Figure drawn by Luke Oman.

Fig9GISStemperatures.jpg  Global average surface air temperature change from the 5 Tg standard case (red) in the context of the climate change of the past 125 years.  Observations are from the NASA Goddard Institute for Space Studies analysis (Hansen et al., 2001, updated at http://data.giss.nasa.gov/gistemp/2005/).  Figure drawn by Alan Robock.

Fig10HockeyStick.jpg  Northern Hemisphere average surface air temperature change from 5 Tg standard case (red) in the context of the climate change of the past 1000 years.  Black curve is from Mann et al. (1999), and the blue curve is from the latest data from the Climatic Research Unit website (http://www.cru.uea.ac.uk/cru/data/temperature/).  Figure drawn by Alan Robock.

Fig11GrowingSeason.jpg  Change in growing season (period with freeze-free days) in the first year following the 5 Tg standard case smoke injection.    Figure drawn by Luke Oman.

References

 

Hansen, J. E., et al., 2001: A closer look at United States and global surface temperature change, J. Geophys. Res., 106, 23,947-23,963, doi:10.1029/2001JD000354.

 

Mann, M. E., R. S. Bradley, and M. K. Hughes, 1999: Northern Hemisphere temperatures during the past millennium: Inferences, uncertainties, and limitations, Geophys. Res. Lett., 26, 759-762.