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• W757317082 abstract "-_i /Revised for Journal of Geophysical Research., Sept., 2000, Accepted Oct. 31,2000.Chemistry-climate interactions in the GISS GCM. Part 1:Tropospheric chemistry model description and evaluationDrew T. Shindelll, J. Lee Grenfelll, David Rind1, Colin Price2, and Volker Grewel,31 NASA Goddard Institute for Space Studies and Center for Climate Systems Research, ColumbiaUniversity, New York, New York2 Department of Geophysics and Planetary Sciences, Tel Aviv University, Ramat Aviv, Israel3 DLR Institut fur Physik der Atmosphare, Oberpfaffenhofen, GermanyAbstract. A tropospheric chemistry module has been developed for use within the God.dardInstitute for Space Studies (GISS) general circulation model (GCM) to study interactions betweenchemistry and climate change. The model uses a simplified chemistry scheme based on CO-NOx-HOx-Ox-CH4 chemistry, and also includes a parameterization for emissions of isoprene, the mostimportant non-methane hydrocarbon. The model reproduces present day annual cycles and meandistributions of key trace gases fairly well, b_sed on extensive comparfsons with availableobservations. Examining the simulated change b_ tween present day and pre-industrial conditions,we find that the model has a similar response tc that seen in other simulations. It shows a 45%increase in the global tropospheric ozone burden, _,ithin the 25% - 57% range seen in other studies.Annual average zonal mean ozone increases by r, iore than 125% at Northern Hemisphere middlelatitudes near the surface. Comparison of model ru is that allow the ca!culated ozone to interact withthe GCM's radiation and meteorology with those that do not shows only minor differences forozone. The common usage of ozone fields that are aot calculated interactively seems to be adequateto simulate both the present day and the pre-industdal ozone distributions. However, use of coupledchemistry does alter the change in tropospheric oxidation capacity, enlarging the overall decrease inOH concentrations from the pre-industrial to tile present by about 10% (-5.3% global annualaverage in uncoupled mode, -5.9% in coupled mode). This indicates that there may be systematicbiases in the simulation of the pre-industrial to present day decrease in the oxidation capacity of thetroposphere (though a ten percent difference is well within the total uncertainty). Global annualaverage radiative forcing from pre-industrial to present day oz.me change is 0.32 W/m2. Theforcing seems to be increased by about 10% when the chemistry is coupled to the GCM. Forcingvalues greater than 0.8 W/m2 are seen over large areas of the United States, Southern Europe, NorthAfrica, the Middle East, Central Asia, and the Arctic. Radiative forcing is greater than 1.5 W/m2over parts of these areas during Northern summer. Though there are local differences, the radiativeforcing is overall in good agreement with the results of other modeling studies in both its magnitudeand spatial distribution, demonstrating that the simplified chemistry is adequate for climate studies.1. IntroductionThe buildup of both greenhouse gases and ozone precursors in the Earth's atmosphere due toanthropogenic emissions is well documented (e.g. IPCC, 1996). Since pre-industrial times, carbondioxide has increased by ~30%, methane by about 150%, and NOx is thought to have more thandoubled. Just since the 1950s, carbon monoxide levels have increased by 50% at NorthernHemisphere mid-latitudes. The direct radiative influence of the well-mixed greenhouse gases hasbeen studied intensely, and is now considered to be one of the lesser sources of uncertainty forrecent climate change (e.g. Hansen et al., 1998). Induced changes in chemistry are much less clear.These changes have an indirect radiative effect by chemically altering the abundance of radiativelyabsorbing species such as ozone and methane.The major chemical impacts of increasing emissions of greenhouse gases and ozone precursorgases such as nitrogen oxides (NOx) are to produce tropospheric ozone, and to alter tropospheric" @default.
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• W757317082 date "2000-01-01" @default.
• W757317082 modified "2023-09-27" @default.
• W757317082 title "Chemistry-climate interactions in the GISS GCM. Part 1: Tropospheric chemistry model description and evaluation" @default.
• W757317082 cites W147562291 @default.
• W757317082 cites W1504598141 @default.
• W757317082 cites W1602642938 @default.
• W757317082 cites W1967511707 @default.
• W757317082 cites W1970099391 @default.
• W757317082 cites W1970839677 @default.
• W757317082 cites W1970921489 @default.
• W757317082 cites W1971819596 @default.
• W757317082 cites W1972209767 @default.
• W757317082 cites W1973423110 @default.
• W757317082 cites W1978621069 @default.
• W757317082 cites W1980373419 @default.
• W757317082 cites W1982091605 @default.
• W757317082 cites W1986127040 @default.
• W757317082 cites W1990496791 @default.
• W757317082 cites W1991228613 @default.
• W757317082 cites W1994512044 @default.
• W757317082 cites W2000194817 @default.
• W757317082 cites W2001012574 @default.
• W757317082 cites W2009953494 @default.
• W757317082 cites W2011397260 @default.
• W757317082 cites W2014067085 @default.
• W757317082 cites W2017234652 @default.
• W757317082 cites W2017772294 @default.
• W757317082 cites W2021646456 @default.
• W757317082 cites W2022435121 @default.
• W757317082 cites W2026123903 @default.
• W757317082 cites W2029466409 @default.
• W757317082 cites W2032073492 @default.
• W757317082 cites W2032935715 @default.
• W757317082 cites W2034836408 @default.
• W757317082 cites W2038254493 @default.
• W757317082 cites W2043986368 @default.
• W757317082 cites W2045480320 @default.
• W757317082 cites W2048131838 @default.
• W757317082 cites W2051245287 @default.
• W757317082 cites W2052164035 @default.
• W757317082 cites W2063774097 @default.
• W757317082 cites W2066747199 @default.
• W757317082 cites W2072425326 @default.
• W757317082 cites W2072871947 @default.
• W757317082 cites W2072992577 @default.
• W757317082 cites W2074019514 @default.
• W757317082 cites W2074435632 @default.
• W757317082 cites W2075609411 @default.
• W757317082 cites W2081772780 @default.
• W757317082 cites W2082443156 @default.
• W757317082 cites W2082742827 @default.
• W757317082 cites W2086979792 @default.
• W757317082 cites W2087167697 @default.
• W757317082 cites W2092625175 @default.
• W757317082 cites W2095427266 @default.
• W757317082 cites W2121443354 @default.
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• W757317082 cites W266644360 @default.
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