A collaboration that is sure to be out of this world! 🚀🌎🤓

Wednesday, December 13
Doors 7pm / Show 8pm
$10 online / $15 door
Tickets here!

Dr. Kirk David Knobelspiesse of the PACE Mission

PACE stands for Plankton, Aerosol, Cloud, ocean Ecosystem and its data will help us better understand how the ocean and atmosphere exchange carbon dioxide. In addition, it will reveal how aerosols might fuel phytoplankton growth in the surface ocean. Novel uses of PACE data will benefit our economy and society. For example, it will help identify the extent and duration of harmful algal blooms. PACE will extend and expand NASA’s long-term observations of our living planet. By doing so, it will take Earth’s pulse in new ways for decades to come. Come get the details in a nutshell during this presentation!

Dr. Marcela Loria-Salazar

Marcela works at the University of Oklahoma’s School of Meteorology and was one of the first professors in Oklahoma to be hired for the study of air quality.  She studies aerosols and aerosol transport using different platforms. One is with measurements, and one is with satellite retrievals. Marcela has also created applications from plume injection heights and identified ways to use them for air quality monitoring. She also assimilates satellite data to data fishing models. Through working with polar orbiting satellites, she can fill gaps created by clouds. She and her team take the retrievals and try to forecast how to get the AOD full picture by attempting to remove the cloud and create the AOD retrieval from that using polar satellites. She wants to move toward using the scenario data to have more data points and more observations.

Dr. Jeremy Werdell

Jeremy Werdell is an Oceanographer in the Ocean Ecology Laboratory (OEL) at NASA Goddard Space Flight Center (GSFC) and the Project Scientist for the PACE mission. Jeremy currently oversees the SeaWiFS Bio-optical Archive and Storage System (SeaBASS), NASA bio-Optical Marine Algorithm Data set (NOMAD), and OEL in-water bio-optical algorithm development efforts. His research interests extend to the on-orbit calibration of ocean color satellite instruments, the validation of remotely-sensed data products, the collection and analysis of in situ biogeochemical oceanographic measurements, and the assimilation of the above to study how the global ocean and various regional ecosystems are changing with time. When time permits, Jeremy moonlights as a teacher and student mentor (and wannabe chef). He has led several internationally attended workshops on bio-optical algorithm development and helped instruct undergraduate and graduate-level courses on ocean optics and biology.