科技报告详细信息
Multidecadal Changes in the UTLS Ozone from the MERRA-2 Reanalysis and the GMI Chemistry Model
Wargan, Krzysztof ; Orbe, Clara ; Pawson, Steven ; Ziemke, Jerald R ; Oman, Luke ; Olsen, Mark ; Coy, Lawrence ; Knowland, Emma
关键词: TROPOSPHERE;    STRATOSPHERE;    ATMOSPHERIC MODELS;    OZONE DEPLETION;    OZONOMETRY;    ATMOSPHERIC CHEMISTRY;    DATA CORRELATION;    STATISTICAL ANALYSIS;    CLIMATE CHANGE;    EARTH OBSERVING SYSTEM (EOS);    DISCONTINUITY;    METEOROLOGICAL SATELLITES;    AURA SPACECRAFT;    CLIMATE MODELS;    SIMULATION;    TIME;    NASA PROGRAMS;   
RP-ID  :  GSFC-E-DAA-TN52672
美国|英语
来源: NASA Technical Reports Server
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【 摘 要 】

Long-term changes of ozone in the UTLS (Upper Troposphere / Lower Stratosphere) reflect the response to decreases in the stratospheric concentrations of ozone-depleting substances as well as changes in the stratospheric circulation induced by climate change. To date, studies of UTLS ozone changes and variability have relied mainly on satellite and in-situ observations as well as chemistry-climate model simulations. By comparison, the potential of reanalysis ozone data remains relatively untapped. This is despite evidence from recent studies, including detailed analyses conducted under SPARC (Scalable Processor Architecture) Reanalysis Intercomparison Project (S-RIP), that demonstrate that stratospheric ozone fields from modern atmospheric reanalyses exhibit good agreement with independent data while delineating issues related to inhomogeneities in the assimilated observations. In this presentation, we will explore the possibility of inferring long-term geographically and vertically resolved behavior of the lower stratospheric (LS) ozone from NASA's MERRA-2 (Modern-Era Retrospective Analysis for Research and Applications -2) reanalysis after accounting for the few known discontinuities and gaps in its assimilated input data. This work builds upon previous studies that have documented excellent agreement between MERRA-2 ozone and ozonesonde observations in the LS. Of particular importance is a relatively good vertical resolution of MERRA-2 allowing precise separation of tropospheric and stratospheric ozone contents. We also compare the MERRA-2 LS ozone results with the recently completed 37-year simulation produced using Goddard Earth Observing System in "replay" mode coupled with the GMI (Global Modeling Initiative) chemistry mechanism. Replay mode dynamically constrains the model with the MERRA-2 reanalysis winds, temperature, and pressure. We will emphasize the areas of agreement of the reanalysis and replay and interpret differences between them in the context of our increasing understanding of model transport driven by assimilated winds.

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