MIPAS ozone retrieval version 8: middle-atmosphere measurements

IF 3.2 3区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES Atmospheric Measurement Techniques Pub Date : 2023-11-22 DOI:10.5194/amt-16-5609-2023
Manuel López-Puertas, Maya García-Comas, Bernd Funke, Thomas von Clarmann, Norbert Glatthor, Udo Grabowski, Sylvia Kellmann, Michael Kiefer, Alexandra Laeng, Andrea Linden, Gabriele P. Stiller
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引用次数: 2

Abstract

Abstract. We present a new version of O3 data retrieved from the three Michelson Interferometer for Passive Atmospheric Sounding (MIPAS) observation modes that we refer to for simplicity as the modes of the middle atmosphere (middle atmosphere, MA; upper atmosphere, UA; and noctilucent cloud, NLC). The O3 profiles cover altitudes from 20 up to 100 km for the daytime and up to 105 km at nighttime, for all latitudes, and the period 2005 until 2012. The data have been obtained with the IMK–IAA (Institute of Meteorology and Climate Research and Instituto de Astrofísica de Andalucía) MIPAS level-2 data processor and are based on ESA version-8 re-calibrated radiance spectra with improved temporal stability. The processing included several improvements with respect to the previous version, such as the consistency of the microwindows and spectroscopic data with those used in the nominal-mode V8R data, the O3 a priori profiles, and updates of the non-local thermodynamic equilibrium (non-LTE) parameters and the nighttime atomic oxygen. In particular, the collisional relaxation of O3(v1,v3) by the atomic oxygen was reduced by a factor of 2 in order to obtain a better agreement of nighttime mesospheric O3 with “non-LTE-free” measurements. Random errors are dominated by the measurement noise with 1σ values for single profiles for the daytime of < 5 % below ∼ 60 km, 5 %–10 % between 60 and 70 km, 10 %–20 % at 70–90 km, and about 30 % at 95 km. For nighttime, they are very similar below 70 km but smaller above (10 %–20 % at 75–95 km, 20 %–30 % at 95–100 km and larger than 30 % above 100 km). The systematic error is ∼ 6 % below ∼ 60 km (dominated by uncertainties in spectroscopic data) and 8 %–12 % above ∼ 60 km, mainly caused by non-LTE uncertainties. The systematic errors in the 80–100 km range are significantly smaller than in the previous version. The major differences with respect to the previous version are as follows: (1) the new retrievals provide O3 abundances in the 20–50 km altitude range that are larger by about 2 %–5 % (0.2–0.5 ppmv); (2) O3 abundances were reduced by ∼ 2 %–4 % between 50 and 60 km in the tropics and mid-latitudes; (3) O3 abundances in the nighttime O3 minimum just below 80 km were reduced, leading to a more realistic diurnal variation; (4) daytime O3 concentrations in the secondary maximum at the tropical and middle latitudes (∼ 40 %, 0.2–0.3 ppmv) were larger; and (5) nighttime O3 abundances in the secondary maximum were reduced by 10 %–30 %. The O3 profiles retrieved from the nominal mode (NOM) and the middle-atmosphere modes are fully consistent in their common altitude range (20–70 km). Only at 60–70 km does daytime O3 of NOM seem to be larger than that of MA/UA by 2 %–10 %. Compared to other satellite instruments, MIPAS seems to have a positive bias of 5 %–8 % below 70 km. Noticeably, the new version of MIPAS data agrees much better than before with all instruments in the upper mesosphere–lower thermosphere, reducing the differences from ∼± 20 % to ∼± 10 %. Further, the diurnal variation in O3 in the upper mesosphere (near 80 km) has been significantly improved.
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MIPAS臭氧检索版本8:中层大气测量
摘要。本文介绍了从三个迈克尔逊干涉仪被动大气探测(MIPAS)观测模式中检索到的O3数据的新版本,为了简单,我们将其称为中大气模式(middle atmosphere, MA;上层大气,UA;以及夜光云(NLC)。2005年至2012年期间,O3剖面覆盖了所有纬度的白天高度从20公里到100公里,夜间高度从105公里。这些数据是由IMK-IAA(气象与气候研究所和Astrofísica de Andalucía研究所)MIPAS 2级数据处理器获得的,基于ESA版本-8重新校准的辐射光谱,具有更好的时间稳定性。与之前的版本相比,此次处理包括了几项改进,例如微窗口和光谱数据与标称模式V8R数据、O3先验剖面的一致性,以及非局部热力学平衡(非lte)参数和夜间原子氧的更新。特别是,原子氧的O3(v1,v3)的碰撞弛豫被降低了2倍,以获得夜间中间层O3与“非无lte”测量的更好的一致性。在白天,单个剖面的随机误差主要由1σ值的测量噪声控制,≤~ 60 km < 5%,≤60 ~ 70 km为5% ~ 10%,≤70 ~ 90 km为10% ~ 20%,≤95 km为30%左右。在夜间,它们在70公里以下非常相似,但在75-95公里以上则较小(在95-100公里处为10% - 20%,在95-100公里处为20% - 30%,在100公里以上则大于30%)。系统误差在~ 60 km以下为~ 6%(主要受光谱数据的不确定性影响),在~ 60 km以上为8% - 12%,主要由非lte不确定性引起。在80 ~ 100 km范围内的系统误差明显小于以前的版本。与前一版本相比,新版本的O3丰度在海拔20 ~ 50 km范围内增加了约2% ~ 5% (0.2 ~ 0.5 ppmv);(2)在热带和中纬度50 ~ 60 km之间,O3丰度降低了~ 2% ~ 4%;(3) 80 km以下夜间O3最小值的O3丰度降低,使其日变化更为真实;(4)热带和中纬度地区的次生最大值白天O3浓度(~ 40%,0.2 ~ 0.3 ppmv)较大;(5)次生最大值夜间O3丰度降低10% ~ 30%。名义模式(NOM)和中大气模式反演的O3廓线在其共同高度范围(20 ~ 70 km)内是完全一致的。只有在60-70公里处,NOM的白天O3似乎比MA/UA大2% - 10%。与其他卫星仪器相比,MIPAS在70公里以下似乎有5% - 8%的正偏差。值得注意的是,新版本的MIPAS数据与中高层-低层热层的所有仪器的一致性比以前好得多,将差异从~±20%减少到~±10%。此外,中层上层(80 km附近)O3的日变化也得到了显著改善。
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来源期刊
Atmospheric Measurement Techniques
Atmospheric Measurement Techniques METEOROLOGY & ATMOSPHERIC SCIENCES-
CiteScore
7.10
自引率
18.40%
发文量
331
审稿时长
3 months
期刊介绍: Atmospheric Measurement Techniques (AMT) is an international scientific journal dedicated to the publication and discussion of advances in remote sensing, in-situ and laboratory measurement techniques for the constituents and properties of the Earth’s atmosphere. The main subject areas comprise the development, intercomparison and validation of measurement instruments and techniques of data processing and information retrieval for gases, aerosols, and clouds. The manuscript types considered for peer-reviewed publication are research articles, review articles, and commentaries.
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