Abstract
Abstract. This study examines the trustworthiness of the Advanced Along-Track Scanning Radiometer (AATSR) and the Infrared Atmospheric Sounding Interferometer (IASI-A), as on-orbit reference instruments that are useful in re-calibrating the Advanced Very High Resolution Radiometer (AVHRR) series (Mittaz and Harris, 2011). To do this, a 39-month period (1 January 2008 to 31 March 2011) of AATSR and IASI-A inter-comparisons of top-of-atmosphere (TOA) radiance measurements is examined. Our inter-comparison reveals features of the AATSR and IASI-A bias with respect to scan angle, scene temperature, time and orbital maneuvers, and gives insight into their trustworthiness as an in-orbit reference instruments. The first feature that our study reveals is that the AATSR (nadir view) and IASI-A are both stable (have no perceptible trends in the period of study). The second feature is that IASI-A is perhaps more accurate ( ∼ 0.05 K) than its stated accuracy (0.5 K). In fact the AATSR and IASI-A bias is close to the AATSR pre-launch bias (plus a small offset of +0.07 K) implying that IASI-A can get close to pre-launch levels of accuracy. Third, a very small scan angular dependence of AATSR and IASI-A bias indicates that the IASI-A response vs. scan angle algorithm is robust, while the instrument is in orbit. Inter-comparisons of AATSR with IASI-A further reveal the impact of orbital maneuvers of the ENVISAT, the platform carrying AATSR, done in October 2011 and not anticipated previously. Our study reveals that this maneuver introduced a temperature-dependent bias in the AATSR measurements for low temperatures (< 240 K) in the period following this maneuver (Cocevar et al., 2011). Our study also shows that the known AATSR 12 µm channel offset is in fact temperature dependent, grows up to 0.4 K, varies seasonally and is correlated with instrument temperature and cannot be corrected by shifting the spectral response function (SRF) of AATSR. We also present a set of recommendations to help identify the parameters under which these instruments can provide the most trustworthy observations for the AVHRR re-calibration.
Highlights
The launch of ENVISAT in 2002 and the launch of MetOp-A in 2006 put two highly accurate instruments in space to measure the top-of-atmosphere (TOA) radiances
Our study shows that the known Advanced Along-Track Scanning Radiometer (AATSR) 12 μm channel offset is temperature dependent, grows up to 0.4 K, varies seasonally and is correlated with instrument temperature and cannot be corrected by shifting the spectral response function (SRF) of AATSR
As a first step in this study we focus on the period from 2002 onwards and evaluate the trustworthiness of the AATSR and IASI-A in their role as a reference for re-calibration of Advanced Very High Resolution Radiometer (AVHRR)
Summary
The launch of ENVISAT in 2002 and the launch of MetOp-A in 2006 put two highly accurate instruments in space to measure the top-of-atmosphere (TOA) radiances. Mittaz and Harris (2011) developed a new calibration scheme for the AVHRR series of instruments This scheme uses IASI-A as a reference source and the intercomparison of IASI-A with AVHRR to detect time, temperature and viewing-angle-dependent biases in AVHRR TOA radiance measurements. By researching additional evidences this study would attempt to piece together evidences to zero in on goodness of the instruments and in case of anomalies, figure out the most likely source (AATSR or IASI-A) of the anomalies in the bias In our analysis, this evidence is obtained (1) by comparing pre-launch characterization of the instruments with post launch intercomparison results and by (2) independent inter-comparison with stable instruments, for example, with AIRS and ATSR2. Several contemporary studies of IASI-A and AATSR such as Smith et al (2012), Illingworth et al (2009) etc are cited extensively during the analysis
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