Reviews and syntheses: Ongoing and emerging opportunities to improve environmental science using observations from the Advanced Baseline Imager on the Geostationary Operational Environmental Satellites

Abstract: Abstract. Environmental science is increasingly reliant on remotely-sensed observations of the Earth's surface and atmosphere. Observations from polar-orbiting satellites have long supported investigations on land cover change, ecosystem productivity, hydrology, climate, the impacts of disturbance, and more, and are critical for extrapolating (upscaling) ground-based measurements to larger areas. However, the limited temporal frequency at which polar-orbiting satellites observe the Earth limits our understandi… Show more

“…Correcting for atmospheric attenuation of radiation to derive surface reflectance from TOA reflectance is a crucial prerequisite to studying surface processes for any satellite platform. Current efforts to estimate surface reflectance from ABI, Advanced Himawari Imager (AHI), and the Geostationary Ocean Color Imager (GOCI) onboard the Communication, Ocean, and Meteorological Satellite (COMS) include generating lookup tables from the Second Simulation of the Satellite Signal in the Solar Spectrum (6S) radiative transfer model (He et al, 2019;Tian et al, 2010;Vermote et al, 1997;Yeom et al, 2018Yeom et al, , 2020. Optimal estimation methods that estimate surface BRF from SEVIRI have been extended to estimate surface broadband albedo and surface reflectance from ABI and the AHI on Himawari-8 (Govaerts et al, 2010;He et al, 2019He et al, , 2012Wagner et al, 2010).…”

“…In Australia, compared to NDVI, EVI shows less SZA induced diurnal variation and is less impacted by the midday hot spot effect during times of the year (spring and autumn equinox) when the SZA and AHI VZA are aligned (Tran et al, 2020). NDVI measurements can be normalized to a reference sun-target-sensor geometry by estimating bidirectional reflectance distribution functions (BRDF) to address the impacts of varying sun-sensor geometry (Fensholt et al, 2006;Seong et al, 2020;Tian et al, 2010;Yeom et al, 2018;. Given the SZA sensitivity of NDVI measurements, Wheeler and Dietze (2019)…”

“…The ABI features three longwave infrared bands with spatial resolutions of about 2 km for measuring land surface temperature (LST)the skin temperature of the uppermost layer of the land surfaceincluding correction for atmospheric moisture (Yu et al, 2012). Determination of a physical surface temperature rather than an effective surface temperature is critical for many applications and, as previously discussed, requires knowledge of the surface emissivity (Yu et al, 2009(Yu et al, , 2012.…”

“…The ABI features three longwave infrared bands with spatial resolutions of about 2 km for measuring land surface temperature (LST)the skin temperature of the uppermost layer of the land surfaceincluding correction for atmospheric moisture (Yu et al, 2012). Determination of a physical surface temperature rather than an effective surface temperature is critical for many applications and, as previously discussed, requires knowledge of the surface emissivity (Yu et al, 2009(Yu et al, , 2012. Data sources for land surface emissivity in LST retrievals from geostationary satellites can include spectral libraries given a specific type of environmental surface (Peres and DaCamara, 2005), the MODIS operational land surface emissivity product (MOD11) or the Combined ASTER and MODIS Emissivity over Land (CAMEL) product (Pinker et al, 2019).…”

“…The hourly ABI LST product uses the difference between the brightness temperatures of ABI bands 14 (11.2 μm) and 15 (12.3 μm) in a split-window algorithm with an added term to correct for path length at high view zenith angles (Yu et al, 2009(Yu et al, , 2012. These bands were chosen because they are placed in regions of maximum surface emission with low https://doi.org/10.5194/bg-2020-454 Preprint.…”

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“…Correcting for atmospheric attenuation of radiation to derive surface reflectance from TOA reflectance is a crucial prerequisite to studying surface processes for any satellite platform. Current efforts to estimate surface reflectance from ABI, Advanced Himawari Imager (AHI), and the Geostationary Ocean Color Imager (GOCI) onboard the Communication, Ocean, and Meteorological Satellite (COMS) include generating lookup tables from the Second Simulation of the Satellite Signal in the Solar Spectrum (6S) radiative transfer model (He et al, 2019;Tian et al, 2010;Vermote et al, 1997;Yeom et al, 2018Yeom et al, , 2020. Optimal estimation methods that estimate surface BRF from SEVIRI have been extended to estimate surface broadband albedo and surface reflectance from ABI and the AHI on Himawari-8 (Govaerts et al, 2010;He et al, 2019He et al, , 2012Wagner et al, 2010).…”

“…In Australia, compared to NDVI, EVI shows less SZA induced diurnal variation and is less impacted by the midday hot spot effect during times of the year (spring and autumn equinox) when the SZA and AHI VZA are aligned (Tran et al, 2020). NDVI measurements can be normalized to a reference sun-target-sensor geometry by estimating bidirectional reflectance distribution functions (BRDF) to address the impacts of varying sun-sensor geometry (Fensholt et al, 2006;Seong et al, 2020;Tian et al, 2010;Yeom et al, 2018;. Given the SZA sensitivity of NDVI measurements, Wheeler and Dietze (2019)…”

“…The ABI features three longwave infrared bands with spatial resolutions of about 2 km for measuring land surface temperature (LST)the skin temperature of the uppermost layer of the land surfaceincluding correction for atmospheric moisture (Yu et al, 2012). Determination of a physical surface temperature rather than an effective surface temperature is critical for many applications and, as previously discussed, requires knowledge of the surface emissivity (Yu et al, 2009(Yu et al, , 2012.…”

“…The ABI features three longwave infrared bands with spatial resolutions of about 2 km for measuring land surface temperature (LST)the skin temperature of the uppermost layer of the land surfaceincluding correction for atmospheric moisture (Yu et al, 2012). Determination of a physical surface temperature rather than an effective surface temperature is critical for many applications and, as previously discussed, requires knowledge of the surface emissivity (Yu et al, 2009(Yu et al, , 2012. Data sources for land surface emissivity in LST retrievals from geostationary satellites can include spectral libraries given a specific type of environmental surface (Peres and DaCamara, 2005), the MODIS operational land surface emissivity product (MOD11) or the Combined ASTER and MODIS Emissivity over Land (CAMEL) product (Pinker et al, 2019).…”

“…The hourly ABI LST product uses the difference between the brightness temperatures of ABI bands 14 (11.2 μm) and 15 (12.3 μm) in a split-window algorithm with an added term to correct for path length at high view zenith angles (Yu et al, 2009(Yu et al, , 2012. These bands were chosen because they are placed in regions of maximum surface emission with low https://doi.org/10.5194/bg-2020-454 Preprint.…”

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Multi‐Sensor Approach for High Space and Time Resolution Land Surface Temperature

Constraining plant hydraulics with microwave radiometry in a land surface model: Impacts of temporal resolution