NASA Airborne Missions in Support of Coastal Ecosystems and Water Quality Research

Liane S Guild1, Stanford B Hooker2, Raphael Martin Kudela3, Philip B Russell4, John H Morrow5, Sherry L. Palacios6, Jeffrey S Myers7, John M Livingston8, Meloe S Kacenelenbogen9, Kirk D Knobelspiesse2, Jens Redemann1, Nicholas E Clinton10, Juan Luis Torres-Perez9 and Kendra Negrey3, (1)NASA Ames Research Center, Moffett Field, CA, United States, (2)NASA Goddard Space Flight Center, Greenbelt, MD, United States, (3)University of California Santa Cruz, Ocean Sciences, Santa Cruz, CA, United States, (4)Retired - NASA Ames Research Center, Moffett Field, CA, United States, (5)Biospherical Instruments Inc, San Diego, CA, United States, (6)Bay Area Environmental Research Institute at NASA/ARC, Moffett Field, CA, United States, (7)University of California Santa Cruz, Santa Cruz, CA, United States, (8)SRI International Palo Alto, Palo Alto, CA, United States, (9)Bay Area Environmental Research Institute Moffett Field, Moffett Field, CA, United States, (10)Google, Mountain View, CA, United States
Abstract:
Worldwide, coastal marine ecosystems are exposed to land-based sources of pollution and sedimentation from anthropogenic activities including agriculture and coastal development. Ocean color products from satellite sensors provide information on chlorophyll (phytoplankton pigment), sediments, and colored dissolved organic material. Further, ship-based in-water measurements and emerging airborne measurements provide in situ data for the vicarious calibration of current and next generation satellite ocean color sensors and to validate the algorithms that use the remotely sensed observations. Recent NASA airborne missions over Monterey Bay, CA, have demonstrated novel above- and in-water measurement capabilities supporting a combined airborne sensor approach (imaging spectrometer, microradiometers, and a sun photometer). The results characterize coastal atmospheric and aquatic properties of seasonal algal blooms through an end-to-end assessment of image acquisition, atmospheric correction, algorithm application, plus sea-truth observations from state-of-the-art instrument systems.
Back to: Present and Future Coastal and Inland Aquatic Remote Sensing for Science and Societal Benefit III Posters