Atmospheric observational datasets: Ozone vertical profiles in the polar middle atmosphere north of Ny Ålesund, Spitsbergen

The data are from a study investigating ozone (O3) variability in the polar mesosphere and lower thermosphere and uncertainties / biases in satellite ozone profile measurements. The datasets include 1) processed atmospheric datasets derived from O3 observations by the ground-based Ny Ålesund Ozone i...

Full description

Bibliographic Details
Main Author: Newnham, David
Format: Dataset
Language:English
Published: NERC EDS UK Polar Data Centre 2022
Subjects:
Online Access:https://dx.doi.org/10.5285/19845e8e-d6ef-4f95-8961-4da60f8294d3
https://data.bas.ac.uk/full-record.php?id=GB/NERC/BAS/PDC/01566
Description
Summary:The data are from a study investigating ozone (O3) variability in the polar mesosphere and lower thermosphere and uncertainties / biases in satellite ozone profile measurements. The datasets include 1) processed atmospheric datasets derived from O3 observations by the ground-based Ny Ålesund Ozone in the Mesosphere Instrument (NAOMI), an 11.072 GHz ozone radiometer making atmospheric observations from Ny Ålesund, Spitsbergen since 4 July 2017, 2) processed atmospheric datasets derived from selected O3 observations by the SABER satellite instrument, and 3) ancillary atmospheric datasets used for NAOMI retrievals, derived from model (WACCM-D) and reanalysis (MERRA-2) datasets. Supported in part by UK Research and Innovation (UKRI) / Natural Environment Research Council (NERC) Technologies Proof-of-Concept grant reference NE/P003478/1 "Satellite TV-based Ozone and OH Observations using Radiometric Measurements (STO3RM)". MOSAIC instrument testing and deployment was supported by the Royal Society Newton Fund reference NI150103 "The Effect of High Energy Particle Precipitation from Space on the Earth's Atmosphere". Pekka T. Verronen was supported by Academy of Finland project no. 335555 "ICT-Solutions to Understand Variability of Arctic Climate (ICT-SUNVAC)". : -Ny Ålesund Ozone in the Mesosphere Instrument (NAOMI) data were binned according to the local solar zenith angle (SZA) at 90 km into night time (SZA >110°), twilight (75° < SZA < 110°), and daytime (SZA <75°) observations. Binned ozone (O3) records between 15 August 2017 and 15 March 2020 were averaged for the following three periods: 15 December-15 March, 15 April-15 July, and 15 August-15 November, hereafter identified as 'winter', 'summer', and 'autumn' respectively. Mesospheric O3 profiles were retrieved from the NAOMI observations during 'winter' night and twilight, and 'autumn' twilight periods using version 2.2.58 of the Atmospheric Radiative Transfer Simulator (ARTS) (available at http://www.radiativetransfer.org/) and the Qpack2 (a part of atmlab v2.2.0) software package using the optimal estimation method (OEM). Vertical profiles of O3 VMR were calculated using a 10-year dataset from WACCM-D covering 2000-2009. WACCM-D is a 3-D global atmospheric model that incorporates a detailed representation of D-region chemistry in the specified dynamics (SD) version of the Whole Atmosphere Community Climate Model (WACCM 4). The WACCM-D data at 78.632 °N and 12.500 °E, the model grid point closest to Ny Ålesund, were used. Water vapour (H2O) VMR profiles were a combination of 6 hourly, model level Modern-Era Retrospective analysis for Research and Applications, Version 2 (MERRA-2) data and WACCM-D data. Temperature profiles were constructed by combining MERRA-2 data, SABER version 2.0 data, and WACCM D data. SABER temperature, O3 VMR, and water vapour VMR profiles overlapping NAOMI observations were binned into night time, twilight, and daytime datasets for 'winter', 'summer', and 'autumn', as was done for the NAOMI data. The 'winter' night and twilight, and 'autumn' twilight O3 VMR profiles from NAOMI and SABER 9.6 µm observations were compared, as well as the SABER 9.6µm and 1.27µm observations for 'summer' day and twilight, and 'autumn' twilight periods. : Ozone (O3) vertical profile uncertainties for NAOMI and SABER have been estimated from the retrieval diagnostics and published SABER validation data respectively.