Satellite Meteorology and Climatology Division (SMCD)

The Soil Moisture Operational Products System (SMOPS) is NESDIS' system for providing soil moisture data for weather models. SMOPS currently uses data from several satellites, including ESA's SMOS. The SMOS soil moisture data has roughly 12-hour latency, which is too long for use in operational weather models. The SMOPS team worked to retrieve soil moisture with a much shorter latency by simplifying the algorithm for deriving brightness temperature from SMOS.

Additionally, SMOPS has been updated with data from GCOM-W1 AMSR2. The extra sensor improves spatial coverage of the available soil moisture fields, especially for the 6-hour images. Read more

Stratospheric temperature trends are a central indicator for anthropogenic global warming. Observations from SSU detected the long-term trends and variability in these temperatures from 1979-2006, while its successor, AMSU-A, covers the period since 1998. Differences in the atmospheric layers measured pose a challenge when attempting to merge SSU with AMSU-A with accuracy high enough for development of climate-quality data record.

STAR scientists developed an approach for merging these records, accounting for matching in both of their temperatures and weighting functions and creating an extended dataset for monitoring changes in the stratospheric temperatures and verifying climate model simulations. Read more

The Suomi NPP VIIRS fire and smoke products are currently distributed to operational users including air quality forecasters through IDEA website. As part of the fire&smoke; initiative the Aerosol team will enhance the IDEA display system with targeted regions and city level interactive zoom capability. Products to be displayed include fire hot spots, fire radiative power, burned area, and smoke and dust plumes. To better serve weather forecast offices, VIIRS fire and smoke products will also be reformatted for AWIPS-II applications. As the first phase of this project implementation, the team gave seminars, interactive tutorials, and live demos of various case studies to the operational weather and air quality forecasting community. Read more

STAR has developed a ground processing system to generate the full spectral resolution SDRs from the CrIS instrument onboard Suomi NPP. The CrIS team implemented a number of improvements to the SDR algorithm in order process FSR data, including upgrades in the computational environment needed to process the data in near-real time. The FSR, which has been produced since December 4, 2014, includes 2211 spectral channels, compared to the 1305 in the operational normal resolution mode. These extra channels are crucial in retrieving products such as atmospheric CO, CO₂, and CH₄ and can also improve numerical weather prediction. Read more