科技报告详细信息
Optimizing Umkehr Ozone Profile Retrievals
Petropavlovskikh, I ; Miyagawa, K ; Jordan, A ; McConville, G ; Johnson, B ; Cullis, P ; Strahan, S ; Wargan, K
关键词: AEROSOLS;    ALGORITHMS;    ATMOSPHERIC COMPOSITION;    BIAS;    CALIBRATING;    DATA PROCESSING;    MICROWAVE LANDING SYSTEMS;    OZONE;    SOLAR BACKSCATTER UV SPECTROMETER;    SOLAR POSITION;    STANDARDIZATION;    STRATOSPHERE;    TIME DEPENDENCE;    TIME SERIES ANALYSIS;    UMKEHR EFFECT;    VOLCANOES;    ZENITH;   
RP-ID  :  GSFC-E-DAA-TN72769
学科分类:地球科学(综合)
美国|英语
来源: NASA Technical Reports Server
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【 摘 要 】

NOAA Dobson Umkehr ozone profile records have been collected since the 1970s. Umkehr ozone profiles are used to monitor stratospheric ozone recovery predicted to occur by the 2050s. Current operational Dobson Umkehr profile algorithms produce data that have uncertainty on the order of ~ 5 % in the stratosphere. However, when large volcanic eruptions inject aerosols into the stratosphere, the errors can be as large as 70 %. In order to evaluate Umkehr records for aerosol-related and instrumental artifacts, we compare observations with a Hindcast simulation of the NASA Merra-2 Global Modeling Initiative (GMI) Replay (M2GMI, Orbe et al, 2017; Wargan et al, 2018) and Chemistry Transport Model (GMI CTM, Strahan et al, 2013, Strahan et al, 2016). The biases found between the models and observations are summarized for each Dobson calibration and volcanic eruption period, thus providing a reference tool for homogenization of the Umkehr time series and removal of volcanic aerosol errors.

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