Dear Colleagues,

Well-calibrated, remotely sensed spectral observations acquired from the growing constellation of environmental satellites flown in low-Earth orbit (LEO) and geosynchronous orbit (GEO) provide the vast majority of data for the purpose of observing the global atmosphere and oceans over varying space and timescales. While environmental satellite data have been critical in the improvement of numerical weather forecasts via data assimilation in recent years, a large complement of derived geophysical products and state parameters (e.g., environmental data records, climate data records) retrieved from sensor data records (i.e., spectral radiances) are used for Earth system observation at microscale, mesoscale, synoptic, and global climate scales. Because multiple independent passive and active sensors are sensitive to different portions of the EM spectrum and deployed onboard different satellite platforms, high absolute calibration accuracy is crucial for synergistic observations and data continuity, as well as for specifying reliable uncertainty estimates. Climate change detection, in particular, requires the capability to resolve small global signals over decadal timescales (ΔT ≈ 0.1 K per decade), which fundamentally requires stable sensor data records (SDRs) with high calibration accuracy. Routine monitoring of sensor calibration stability is facilitated via the validation of retrieved geophysical state parameters (i.e., SDRs, environmental (EDRs) and climate data records (CDRs)), which includes assessments of both absolute accuracy and precision with respect to independent reference measurements.

We are pleased to announce this follow-up Part II Special Issue, which will continue on the same path as Part I and focus on the calibration/validation (cal/val) of advanced passive sensors (IR and/or MW) essential for Earth (atmospheric/oceanic) observation onboard operational, experimental, and next-generation environmental satellites, including, but not limited to, JPSS-2, NOAA-20, SNPP, Aqua, Terra, Metop-B,-C, GOES-16,-17, MSG/MTG, Sentinel-5P, OCO-2, Himawari-8, and FY satellites. We invite papers in the areas of sensor (SDR) calibration, algorithm/retrieval (EDR) validation (including intensive campaigns), and sensitivity/impact on derived product (e.g., EDR) applications.

Dr. Nicholas R. Nalli
Dr. Quanhua Liu
Ms. Lori A. Borg
Guest Editors

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• satellite data calibration
• validation
• cal/val
• measurement
• applications