Optimal estimation of tropospheric H 2 O and δD with IASI/METOP
TLDR
In this article, the IASI spectra were used to retrieve H2O profiles between the surface and the upper troposphere as well as middle tro- pospheric D values.Abstract:
We present optimal estimates of tropospheric H2O and D derived from radiances measured by the instrument IASI (Infrared Atmospheric Sounding Interferometer) flown on EUMETSAT's polar orbiter METOP. We document that the IASI spectra allow for retrieving H2O profiles between the surface and the upper troposphere as well as middle tro- pospheric D values. A theoretical error estimation suggests a precision for H2O of better than 35 % in the lower tro- posphere and of better than 15 % in the middle and upper troposphere, respectively, whereby surface emissivity and atmospheric temperature uncertainties are the leading error sources. For the middle tropospheric D values we estimate a precision of 15-20 ‰ with the measurement noise being the dominating error source. The accuracy of the IASI products is estimated to about 20-10 % and 10 ‰ for lower to upper tropospheric H2O and middle tropospheric D, respectively. It is limited by systematic uncertainties in the applied spec- troscopic parameters and the a priori atmospheric tempera- ture profiles. We compare our IASI products to a large num- ber of near coincident radiosonde in-situ and ground-based FTS (Fourier Transform Spectrometer) remote sensing mea- surements. The bias and the scatter between the different H2O and D data sets are consistent with the combined theo- retical uncertainties of the involved measurement techniques.read more
Citations
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Journal ArticleDOI
Stable isotopes in atmospheric water vapor and applications to the hydrologic cycle
Joseph Galewsky,Hans Christian Steen-Larsen,Robert D. Field,Robert D. Field,John Worden,Camille Risi,Matthias Schneider +6 more
TL;DR: Improved measurement and modeling of water vapor isotopic composition opens the door to new advances in the understanding of the atmospheric water cycle, in processes ranging from the marine boundary layer, through deep convection and tropospheric mixing, and into the water cycle of the stratosphere.
Journal ArticleDOI
FORLI radiative transfer and retrieval code for IASI
Daniel Hurtmans,Pierre-François Coheur,Catherine Wespes,Lieven Clarisse,Oliver Scharf,Cathy Clerbaux,Cathy Clerbaux,Juliette Hadji-Lazaro,Maya George,Solène Turquety +9 more
TL;DR: In this article, the authors lay down the theoretical bases and the methods used in the Fast Optimal Retrievals on Layers for IASI (FORLI) software, which is developed and maintained at the Universite Libre de Bruxelles (ULB) with the support of the "Laboratoire Atmospheres, Milieux, Observations Spatiales" (LATMOS) to process radiance spectra from the Infrared Atmospheric Sounding Interferometer (IASI) in the perspective of local to global chemistry applications.
Journal ArticleDOI
Profiles of CH 4 , HDO, H 2 O, and N 2 O with improved lower tropospheric vertical resolution from Aura TES radiances
John Worden,Susan S. Kulawik,Christian Frankenberg,Vivienne Payne,Kevin W. Bowman,K. Cady-Peirara,K. Wecht,Jung-Eun Lee,David Noone +8 more
TL;DR: In this paper, the TES profile retrieval algorithm used a "spectral-window" approach to minimize uncertainty from interfering species at the expense of reduced vertical resolution and sensitivity; however, the results of this approach are not consistent with actual uncertainties.
Journal ArticleDOI
Role of continental recycling in intraseasonal variations of continental moisture as deduced from model simulations and water vapor isotopic measurements
TL;DR: In this article, the role of continental recycling in the intraseasonal variability of continental moisture was investigated using water isotopic measurements to observeally constrain this role, and it was shown that low-level water vapor is a good tracer for continental recycling, due to the enriched signature of transpiration.
Journal ArticleDOI
A meta‐analysis of water vapor deuterium‐excess in the midlatitude atmospheric surface layer
Lisa R. Welp,Xuhui Lee,Xuhui Lee,Timothy J. Griffis,Xue Fa Wen,Wei Xiao,Shenggong Li,Xiaomin Sun,Zhongmin Hu,Maria Val Martin,Jianping Huang,Jianping Huang +11 more
TL;DR: In this article, the authors analyzed d of water vapor (d(v) from six sites, all between 37 and 44 degrees N, to examine patterns in the atmospheric surface layer and identify the main drivers of variability.
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