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www.atmos-meas-tech-discuss.net/4/3877/2011/
doi:10.5194/amtd-4-3877-2011
© Author(s) 2011. This work is distributed
under the Creative Commons Attribution 3.0 License.
Correcting orbital drift signal in the time series of AVHRR derived convective cloud fraction using rotated empirical orthogonal function
1Atmospheric Remote Sensing, Swedish Meteorological and Hydrological Institute, Norrköping, Sweden
2Max-Planck Institute for Meteorology, Hamburg, Germany
*now at: the Leipziger Institut für Meteorologie, Universität Leipzig, Germany
Abstract. The AVHRRs instruments onboard the series of NOAA satellites offer the longest available meteorological data records from space. These satellites have drifted in orbit resulting in shifts in the local time sampling during the life span of sensors onboard. Depending on the amplitude of a diurnal cycle of the geophysical parameters derived, orbital drift may cause spurious trends in their time series. We investigate tropical deep convective clouds, which show pronounced diurnal cycle amplitude, to bracket an upper bound of the impact of orbital drift on their time series. We carry out a rotated empirical orthogonal function analysis and show that the REOFs are useful in delineating orbital drift signal and, more importantly, in correcting this signal in the time series of convective cloud amount. These results will help facilitate the derivation of homogenized data series of cloud amount from NOAA satellite sensors and ultimately analyzing trends from them. However, we suggest detailed comparison of various methods and their rigorous testing before applying final orbital drift corrections.
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Notice on Discussion StatusCitation: Devasthale, A., Karlsson, K., Quaas, J., and Grassl, H.: Correcting orbital drift signal in the time series of AVHRR derived convective cloud fraction using rotated empirical orthogonal function, Atmos. Meas. Tech. Discuss., 4, 3877-3890, doi:10.5194/amtd-4-3877-2011, 2011. Bibtex EndNote Reference Manager XML
