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Sicherstellung der SCIAMACHY-Datenqualität in den Bereichen: Referenzspektren und Red Grass-Korrektur : Schlussbericht ; Vorhabenszeitraum: 1.10.99 - 30.9.2000 (2000)

Bovensmann, Heinrich ; Gurlit, W. ; Burrows, J. P. ; [et al.]

Bremen : Inst. für Fernerkundung

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Keywords: Forschungsbericht ; Atmosphäre ; Spurengas ; Satellitenfernerkundung

Type of Medium: Online Resource

Pages: Online-Ressource ([54] p. = 1,18 MB) , graphs

Edition: [Elektronische Ressource]

URL: https://edocs.tib.eu/files/e01fb02/358994659.pdf

URL: https://edocs.tib.eu/files/e01fb02/358994659l.pdf

Language: German , English

Note: Contract BMBF 50 EE 9931. - Differences between the printed and electronic version of the document are possible. - nBibliography p. [9]. - nIndex , Also available as printed version , Anhang 1: Improvedwavelength calibration of the SCIAMACHY PFM spectrometer using molecular absorption spectra, IFE-TN-120201 / K. Bogumil ...; Anhang 2: Temperature dependent absorption cross sections of O3, NO2 and other atmospheric trace gases measured with the SCIAMACHY spectrometer ... / K. Bogumil ...; Anhang 3: Study of the REDGRASS phenomenon / W. Gurlit , Systemvoraussetzungen: Acrobat Reader.

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Passive solar remote sensing of trace atmospheric constituents from satellite and aircraft platforms: progress and challenges (2023)

Burrows, J.

In: XXVIII General Assembly of the International Union of Geodesy and Geophysics (IUGG)

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Publication Date: 2023-07-05

Description: A new age for passive remote sensing of atmospheric trace constituents began with the launch of the nadir viewing spectrometers, GOME on ESA ERS-2 (1995-2011)) and SCIAMACHY on ESA Envisat (2002-2012)). Spectrometers, having improving spatial resolution and signal to noise have followed: the most recent being TROPOMI, on the Copernicus Sentinel-5 Precursor, EU-ESA-S5P (2017 to present). In addition, the Geostationary Environment Monitoring Spectrometer, GEMS, on the Korean Aerospace Research Institute GEO-KOMPSAT-2B satellite was launched in 2020. The aircraft family of instruments called AIRMAP and MAMAP family has been developed at the University of Bremen to measure in the ultraviolet/visible and the near-infrared/shortwave-infrared and are used to determine high spatial resolution trace column amounts. Using differential optical absorption spectroscopy, DOAS, total column amounts of key trace gases (e.g. ozone, O3, nitrogen dioxide, NO2, bromine monoxide, BrO, chlorine dioxide OClO, iodine oxide, IO, formaldehyde, HCHO, glyoxal, CHO.CHO, and water vapour H2O) are retrieved from the measurements in the UV and visible ranges. In the near and shortwave infrared. CO columns and the dry columns of methane, XCH4, and carbon dioxide, XCO2, are retrieved. This presentation focuses on recent results addressing: i) the validation of TROPOMI and the estimation of urban emissions of NO2; ii) ozone measurements; iii) the validation of the GEMS data products; iii) the emissions of CH4 from TROPOMI and CH4 and CO2 from the new MAMAP 2D Light instrument. The contributions will be discussed in the context of the evolving global observing system.

Language: English

Type: info:eu-repo/semantics/conferenceObject

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Investigating zonal asymmetry in stratospheric ozone trends at northern high latitudes using satellite limb observations and CTM simulations (2023)

Arosio, C. ; Chipperfield, M. ; Rozanov, A. ; [et al.]

In: XXVIII General Assembly of the International Union of Geodesy and Geophysics (IUGG)

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Publication Date: 2023-08-09

Description: The aim of this study is the investigation of a vertically consistent pattern in longitude-resolved stratospheric ozone trends at northern mid- and high-latitudes, where large positive trends are found over the Atlantic sector, whereas close-to-zero changes are detected over Siberia. This pattern was found in the SCIA+OMPS data set produced at the University of Bremen, which is obtained by merging observations from two limb sounders: SCIAMACHY and OMPS-LP. Recently, the OMPS-LP data set has been re-processed by using a new release of L1 data, which mitigated the long-term drift affecting its time series. To investigate the origin of the zonal asymmetry in trends, we performed full-chemistry simulations of the TOMCAT global 3-D chemistry transport model, forced by ERA5 reanalysis, for the 2003-2020 period. We applied a multi-linear regression model including dynamical proxies to both satellite observations and TOMCAT simulations. After checking the consistency of the trends between the two, we studied seasonally resolved trends, finding the largest variability with longitude occurring in winter- and springtime, and a good consistency between observations and TOMCAT. By comparing ozone changes with trends in temperature and meridional winds from ERA5, we investigated potential mechanisms driving the observed asymmetry. Dedicated TOMCAT simulations showed the negligible role of photochemical processes for the observed pattern. We therefore consider the behavior to be mainly dynamically driven. A composite analysis supports the hypothesis that the long-term change in the position of the polar vortex has influenced the winter- and springtime ozone concentrations, leading to the identified zonal asymmetry.

Language: English

Type: info:eu-repo/semantics/conferenceObject

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Stratospheric aerosol characteristics from SCIAMACHY limb observations and their evolution after volcanic eruptions (2023)

Pohl, C. ; Wrana, F. ; Niemeier, U. ; [et al.]

In: XXVIII General Assembly of the International Union of Geodesy and Geophysics (IUGG)

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Publication Date: 2023-07-01

Description: Stratospheric aerosols play a key role in atmospheric chemistry and climate. They are considered a catalyst for ozone depletion, serve as condensation nuclei for polar stratospheric cloud formation, and, in large amounts, have a short-term impact on the Earth's radiative budget. The aerosol effects depend strongly on the aerosol particle size distribution (PSD). Despite its importance, available observations on PSD are rather limited, restricting the knowledge of chemical and climate aerosol feedback mechanisms. We present a novel aerosol climatology including the PSD, the effective radius, and the extinction coefficient from limb observations of SCIAMACHY (Scanning Imaging Absorption Spectrometer for Atmospheric Cartography) operated aboard Envisat between 2002 and 2012. The aerosol climatology is successfully evaluated with in-situ balloon-borne measurements from Wyoming and global aerosol products from different satellite instruments (SAGE II, SAGE III, OSIRIS). The data set significantly expands the limited knowledge of stratospheric aerosol properties and serves to a better understanding of aerosol microphysical processes. We demonstrate its potential by comparing the simulated and observed aerosol plume evolution after the volcanic eruptions of Manam (Jan 2005) and Sarychev (Jun 2009).

Language: English

Type: info:eu-repo/semantics/conferenceObject

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