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Dangerous human-made interference with climate: a GISS modelE study

by J. Hansen, M. Sato, R. Ruedy, P. Kharecha, A. Lacis, R. Miller, L. Nazarenko, K. Lo, G. A. Schmidt, G. Russell, I. Aleinov, S. Bauer, E. Baum, B. Cairns, V. Canuto, M. Chandler, Y. Cheng, A. Cohen, A. Del Genio, G. Faluvegi, E. Fleming, A. Friend, T. Hall, C. Jackman, J. Jonas, M. Kelley, N. Y. Kiang, D. Koch, G. Labow, J. Lerner, S. Menon, T. Novakov, V. Oinas, Ja. Perlwitz, Ju. Perlwitz, D. Rind, A. Romanou, R. Schmunk, D. Shindell, P. Stone, S. Sun, D. Streets, N. Tausnev, D. Thresher, N. Unger, M. Yao, S. Zhang show all authors
Atmos. Chem. Phys. ()
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Abstract. We investigate the issue of “dangerous humanmade interference with climate” using simulations with GISS modelE driven by measured or estimated forcings for 1880– 2003 and extended to 2100 for IPCC greenhouse gas scenarios as well as the “alternative” scenario of Hansen and Sato (2004). Identification of “dangerous” effects is partly subjective, but we find evidence that added global warming of more than 1 C above the level in 2000 has effects that may be highly disruptive. The alternative scenario, with peak added forcing 1.5 W/m2 in 2100, keeps further global warming under 1 C if climate sensitivity is 3 C or less for doubled CO2. The alternative scenario keeps mean regional seasonal warming within 2 (standard deviations) of 20th century variability, but other scenarios yield regional changes of 5–10 , i.e. mean conditions outside the range of local experience. We conclude that a CO2 level exceeding about 450 ppm is “dangerous”, but reduction of non-CO2 forcings can provide modest relief on the CO2 constraint. We discuss three specific sub-global topics: Arctic climate change, tropical storm intensification, and ice sheet stability. We suggest that Arctic climate change has been driven as much by pollutants (O3, its precursor CH4, and soot) as by CO2, offering hope that dual efforts to reduce pollutants and slow CO2 growth could minimize Arctic change. Simulated recent ocean warming in the region of Atlantic hurricane formation is comparable to observations, suggesting that greenhouse gases (GHGs) may have contributed to a trend toward greater hurricane intensities. Increasing GHGs cause significant warming in our model in submarine regions of ice shelves and shallow methane hydrates, raising concern about the potential for accelerating sea level rise and future positive feedback from methane release. Growth of non-CO2 forcings has slowed in recent years, but CO2 emissions are now surging well above the alternative scenario. Prompt actions to slow CO2 emissions and decrease non-CO2 forcings are required to achieve the low forcing of the alternative scenario. Correspondence to: J. Hansen (

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