Estimating Infrared Radiometric Satellite Sea Surface Temperature Retrieval Cold Biases in the Tropics due to Unscreened Optically Thin Cirrus Clouds

Abstract: Passive longwave infrared radiometric satellite-based retrievals of sea surface temperature (SST) at instrument nadir are investigated for cold bias caused by unscreened optically thin cirrus (OTC) clouds [cloud optical depth (COD) # 0.3]. Level 2 nonlinear SST (NLSST) retrievals over tropical oceans (308S-308N) from Moderate Resolution Imaging Spectroradiometer (MODIS) radiances collected aboard the NASA Aqua satellite (Aqua-MODIS) are collocated with cloud profiles from the Cloud-Aerosol Lidar with Orthogona… Show more

“…Consistent with Marquis et al (), we see that the MxD35‐like cloud mask is in strong agreement with the CPL for clear skies. On the other hand, when CPL detects a cloud, the MxD35‐like cloud mask misses about 25%, with 17% denoted to be entirely clear of clouds.…”

“…In other words, the high AOD bias, when compared to AERONET is not explained by low‐cloud contamination (unmasked low cloud) in the eMAS retrieval. It may also be possible that both the cloud products and DT cloud mask may be missing optically thin cirrus cloud (e.g., Holz et al, ; Marquis et al, ). We note that AERONET is also susceptible to unscreened thin cirrus (e.g., Chew et al, ).…”

“…Side scattering into the lidar's field of view from adjacent objects provides negligible enhancement as compared with the active return from the target. Therefore, a lidar can help to validate imager cloud masks, as demonstrated by the many studies that have used lidar data from CALIPSO to validate cloud identification schemes from different imagers (e.g., Hutchison et al, ; Kim et al, ; Kopp et al, ; Marquis et al, ; Wang et al, ).…”

Exploring Aerosols Near Clouds With High‐Spatial‐Resolution Aircraft Remote Sensing During SEAC⁴RS

“…Consistent with Marquis et al (), we see that the MxD35‐like cloud mask is in strong agreement with the CPL for clear skies. On the other hand, when CPL detects a cloud, the MxD35‐like cloud mask misses about 25%, with 17% denoted to be entirely clear of clouds.…”

“…In other words, the high AOD bias, when compared to AERONET is not explained by low‐cloud contamination (unmasked low cloud) in the eMAS retrieval. It may also be possible that both the cloud products and DT cloud mask may be missing optically thin cirrus cloud (e.g., Holz et al, ; Marquis et al, ). We note that AERONET is also susceptible to unscreened thin cirrus (e.g., Chew et al, ).…”

“…Side scattering into the lidar's field of view from adjacent objects provides negligible enhancement as compared with the active return from the target. Therefore, a lidar can help to validate imager cloud masks, as demonstrated by the many studies that have used lidar data from CALIPSO to validate cloud identification schemes from different imagers (e.g., Hutchison et al, ; Kim et al, ; Kopp et al, ; Marquis et al, ; Wang et al, ).…”

Exploring Aerosols Near Clouds With High‐Spatial‐Resolution Aircraft Remote Sensing During SEAC⁴RS

“…Currently, most satellite-derived SST producers are using the TWA/SST4 algorithm or at least one of the MWIR channels (3.7, 3.9, and 4 μm) for nighttime retrieval in their operational chain. However, MWIR channel/s are rarely used in operational daytime SST retrieval; at the same time, two-channel SWT is still applied for daytime and nighttime to retain a consistent record [14].…”

“…Retrieval errors of PDSST in terms of SD (dashed line) and RMSD (solid) with respect to the percentage of total matches using EXF new and different channel combinations. Sixteen channels of MODIS in the thermal infrared band are indicated as 1-16 (e.g., [3.7, 3.9, 4, 4.5, 8.7, 11, 12, 13.4, 13.6] μm -> [1,3,4,6,9,11,12,13,14]). AE stands for analytical error values.…”

Daytime Sea Surface Temperature Retrieval Incorporating Mid-Wave Imager Measurements: Algorithm Development and Validation

Slower long-term coastal warming drives dampened trends in coastal marine heatwave exposure