Inter-Comparison of Field- and Laboratory-Derived Surface Emissivities of Natural and Manmade Materials in Support of Land Surface Temperature (LST) Remote Sensing

Autor:	Mark C. de Jong, Martin J. Wooster, Simon J. Hook, Thomas P. F. Dowling, Gerardo Rivera, Mary F. Langsdale, William R. Johnson, James Johnson, Mark J. Grosvenor
Jazyk:	angličtina
Rok vydání:	2020
Předmět:	010504 meteorology & atmospheric sciences Land surface temperature Field (physics) Infrared Science 0211 other engineering and technologies land surface temperature 02 engineering and technology 01 natural sciences land surface emissivity measurement uncertainties emissivity box method Fourier transform infrared spectrometer portable spectrometer Emissivity 021101 geological & geomatics engineering 0105 earth and related environmental sciences Remote sensing Spectrometer Longwave Remote sensing (archaeology) Infrared window General Earth and Planetary Sciences Environmental science
Zdroj:	Remote Sensing; Volume 12; Issue 24; Pages: 4127 Remote Sensing, Vol 12, Iss 4127, p 4127 (2020)
ISSN:	2072-4292
DOI:	10.3390/rs12244127
Popis:	Correct specification of a target’s longwave infrared (LWIR) surface emissivity has been identified as one of the greatest sources of uncertainty in the remote sensing of land surface temperature (LST). Field and laboratory emissivity measurements are essential for improving and validating LST retrievals, but there are differing approaches to making such measurements and the conditions that they are made under can affect their performance. To better understand these impacts we made measurements of fourteen manmade and natural samples under different environmental conditions, both in situ and in the laboratory. We used Fourier transform infrared (FTIR) spectrometers to deliver spectral emissivities and an emissivity box to deliver broadband emissivities. Field- and laboratory-measured spectral emissivities were generally within 1–2% in the key 8–12 micron region of the LWIR atmospheric window for most samples, though greater variability was observed for vegetation and inhomogeneous samples. Differences between laboratory and field spectral measurements highlighted the importance of field methods for these samples, with the laboratory setup unable to capture sample structure or inhomogeneity. The emissivity box delivered broadband emissivities with a consistent negative bias compared to the FTIR-based approaches, with differences of up to 5%. The emissivities retrieved using the different approaches result in LST retrieval differences of between 1 and 4 °C, stressing the importance of correct emissivity specification.
Databáze:	OpenAIRE
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