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Comprehensive In Situ Validation of Five Satellite Land Surface Temperature Data Sets over Multiple Stations and Years

Martin, Maria ; Ghent, Darren ; Pires, Ana ; [et al.]

MDPI AG ; 2019

In: Remote Sensing Vol. 11, No. 5 ( 2019-02-26), p. 479-

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In: Remote Sensing, MDPI AG, Vol. 11, No. 5 ( 2019-02-26), p. 479-

Abstract: Global land surface temperature (LST) data derived from satellite-based infrared radiance measurements are highly valuable for various applications in climate research. While in situ validation of satellite LST data sets is a challenging task, it is needed to obtain quantitative information on their accuracy. In the standardised approach to multi-sensor validation presented here for the first time, LST data sets obtained with state-of-the-art retrieval algorithms from several sensors (AATSR, GOES, MODIS, and SEVIRI) are matched spatially and temporally with multiple years of in situ data from globally distributed stations representing various land cover types in a consistent manner. Commonality of treatment is essential for the approach: all satellite data sets are projected to the same spatial grid, and transformed into a common harmonized format, thereby allowing comparison with in situ data to be undertaken with the same methodology and data processing. The large data base of standardised satellite LST provided by the European Space Agency’s GlobTemperature project makes previously difficult to perform LST studies and applications more feasible and easier to implement. The satellite data sets are validated over either three or ten years, depending on data availability. Average accuracies over the whole time span are generally within ±2.0 K during night, and within ± 4.0 K during day. Time series analyses over individual stations reveal seasonal cycles. They stem, depending on the station, from surface anisotropy, topography, or heterogeneous land cover. The results demonstrate the maturity of the LST products, but also highlight the need to carefully consider their temporal and spatial properties when using them for scientific purposes.

Type of Medium: Online Resource

ISSN: 2072-4292

URL: Article

DOI: 10.3390/rs11050479

Language: English

Publisher: MDPI AG

Publication Date: 2019

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Long Term Validation of Land Surface Temperature Retrieved from MSG/SEVIRI with Continuous in-Situ Measurements in Africa

Göttsche, Frank-M. ; Olesen, Folke-S. ; Trigo, Isabel ; [et al.]

MDPI AG ; 2016

In: Remote Sensing Vol. 8, No. 5 ( 2016-05-13), p. 410-

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In: Remote Sensing, MDPI AG, Vol. 8, No. 5 ( 2016-05-13), p. 410-

Type of Medium: Online Resource

ISSN: 2072-4292

URL: Article

DOI: 10.3390/rs8050410

Language: English

Publisher: MDPI AG

Publication Date: 2016

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Artificial Neural Networks to Retrieve Land and Sea Skin Temperature from IASI

Safieddine, Sarah ; Parracho, Ana Claudia ; George, Maya ; [et al.]

MDPI AG ; 2020

In: Remote Sensing Vol. 12, No. 17 ( 2020-08-26), p. 2777-

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In: Remote Sensing, MDPI AG, Vol. 12, No. 17 ( 2020-08-26), p. 2777-

Abstract: Surface skin temperature (Tskin) derived from infrared remote sensors mounted on board satellites provides a continuous observation of Earth’s surface and allows the monitoring of global temperature change relevant to climate trends. In this study, we present a fast retrieval method for retrieving Tskin based on an artificial neural network (ANN) from a set of spectral channels selected from the Infrared Atmospheric Sounding Interferometer (IASI) using the information theory/entropy reduction technique. Our IASI Tskin product (i.e., TANN) is evaluated against Tskin from EUMETSAT Level 2 product, ECMWF Reanalysis (ERA5), SEVIRI observations, and ground in situ measurements. Good correlations between IASI TANN and the Tskin from other datasets are shown by their statistic data, such as a mean bias and standard deviation (i.e., [bias, STDE]) of [0.55, 1.86 °C] , [0.19, 2.10 °C], [−1.5, 3.56 °C] , from EUMETSAT IASI L-2 product, ERA5, and SEVIRI. When compared to ground station data, we found that all datasets did not achieve the needed accuracy at several months of the year, and better results were achieved at nighttime. Therefore, comparison with ground-based measurements should be done with care to achieve the ±2 °C accuracy needed, by choosing, for example, a validation site near the station location. On average, this accuracy is achieved, in particular at night, leading to the ability to construct a robust Tskin dataset suitable for Tskin long-term spatio-temporal variability and trend analysis.

Type of Medium: Online Resource

ISSN: 2072-4292

URL: Article

DOI: 10.3390/rs12172777

Language: English

Publisher: MDPI AG

Publication Date: 2020

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Retrieval Consistency between LST CCI Satellite Data Products over Europe and Africa

Pérez-Planells, Lluís ; Ghent, Darren ; Ermida, Sofia ; [et al.]

MDPI AG ; 2023

In: Remote Sensing Vol. 15, No. 13 ( 2023-06-26), p. 3281-

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In: Remote Sensing, MDPI AG, Vol. 15, No. 13 ( 2023-06-26), p. 3281-

Abstract: The assessment of satellite-derived land surface temperature (LST) data is essential to ensure their high quality for climate applications and research. This study intercompared seven LST products (i.e., ATSR_3, MODISA, MODIST, SLSTRA, SLSTRB, SEVIR2 and SEVIR4) of the European Space Agency’s (ESA) LST Climate Change Initiative (LST_cci) project, which are retrieved for polar and geostationary orbit satellites, and three operational LST products: NASA’s MODIS MOD11/MYD11 LST and ESA’s AATSR LST. All data were re-gridded on to a common spatial grid of 0.05° and matched for concurrent overpasses within 5 min. The matched data were analysed over Europe and Africa for monthly and seasonally aggregated median differences and studied for their dependence on land cover class and satellite viewing geometry. For most of the data sets, the results showed an overall agreement within ±2 K for median differences and robust standard deviation (RSD). A seasonal variation of median differences between polar and geostationary orbit sensor data was observed over Europe, which showed higher differences in summer and lower in winter. Over all land cover classes, NASA’s operational MODIS LST products were about 2 K colder than the LST_cci data sets. No seasonal differences were observed for the different land covers, but larger median differences between data sets were seen over bare soil land cover classes. Regarding the viewing geometry, an asymmetric increase of differences with respect to nadir view was observed for day-time data, which is mainly caused by shadow effects. For night-time data, these differences were symmetric and considerably smaller. Overall, despite the differences in the LST retrieval algorithms of the intercompared data sets, a good consistency between the LST_cci data sets was determined.

Type of Medium: Online Resource

ISSN: 2072-4292

URL: Article

DOI: 10.3390/rs15133281

Language: English

Publisher: MDPI AG

Publication Date: 2023

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