Multi-target retrieval (MTR): the simultaneous retrieval of pressure, temperature and volume mixing ratio profiles from limb-scanning atmospheric measurements

• Published in: Journal of quantitative spectroscopy & radiative transfer Vol. 84; no. 2; pp. 141 - 157
• Main Authors: Dinelli, B.M., Alpaslan, D., Carlotti, M., Magnani, L., Ridolfi, M.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.03.2004
• Subjects: Atmosphere; MIPAS; Remote sensing; Retrieval algorithms; Satellite measurements; Satellite measurements; Retrieval algorithms; MIPAS; Atmosphere; Remote sensing
• ISSN: 0022-4073; 1879-1352
• DOI: 10.1016/S0022-4073(03)00137-7

In this paper we describe a retrieval approach for the simultaneous determination of the altitude distributions of p, T and VMR of atmospheric constituents from limb-scanning measurements of the atmosphere. This analysis method, named multi-target retrieval (MTR), has been designed and implemented in a computer code aimed at the analysis of MIPAS-ENVISAT observations; however, the concepts implemented in MTR have a general validity and can be extended to the analysis of all type of limb-scanning observations. In order to assess performance and advantages of the proposed approach, MTR has been compared with the sequential analysis system implemented by ESA as the level-2 processor for MIPAS measurements. The comparison has been performed on a common set of target species and spectral intervals. The performed tests have shown that MTR produces results of better quality than a sequential retrieval. However, the simultaneous retrieval of p, T and water VMR has not lead to satisfactory results below the tropopause, because of the high correlation occurring between p and water VMR in the troposphere. We have shown that this problem can be fixed extending the MTR analysis to at least one further target whose spectral features decouple the retrieval of pressure and water VMR. Ozone was found to be a suitable target for this purpose. The advantages of the MTR analysis system in terms of systematic errors have also been discussed.