Science Mission Directorate Understanding and Protecting Our Home Planet: NASA and Earth Science Cheryl Yuhas Suborbital Science Program Manager.

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Presentation transcript:

Science Mission Directorate Understanding and Protecting Our Home Planet: NASA and Earth Science Cheryl Yuhas Suborbital Science Program Manager

2 Earth Science in NASA’s Mission Understand and Protect Our Home Planet by using our view from space to study the Earth system and improve prediction of Earth system change Help Explore the Universe and Search for Life by applying our scientific understanding of the Earth system to the identification and study of Earth-like planets around other stars Inspire the Next Generation of Earth Explorers by providing Earth system science content and training to educators, and by sponsoring the education and early careers of Earth scientists

3 How is the global Earth system changing? What are the primary forcings of the Earth system? How does the Earth system respond to natural and human-induced changes? What are the consequences of changes in the Earth system for human civilization? How well can we predict future changes in the Earth system? How is the Earth changing and what are the consequences of life on Earth? Overarching Science Questions

4

5 Earth Observation from Space Today ERBS Terra Aqua GRACE QuikScat SAGE III SeaWinds TRMM TOMS-EP UARS Jason Landsat 7 SORCE ACRIMSAT EO-1 TOPEX/Poseidon SeaWiFS ICESat We have given the world its first capability to study the Earth as a system

6 But Much More Remains to Be Done to Achieve a Comprehensive, Coordinated & Sustained Global Observing System A Comprehensive Global Observing System

7 Suborbital Science Programs Objectives Development of new space sensors and new remote-sensing techniques. Satellite calibration/validation. Targeted observations of ephemeral phenomena with variable temporal and spatial scales. Atmosphere/near-space in-situ observations. Improvement and validation of predictive Earth process models using satellite data. Next-generation scientists with hands- on sensor hardware and field experiment experience. To understand and protect our home planet, we need data from multiple perspectives. Suborbital fills time and space gap between surface observing networks and orbital platforms. Sounding Rocket Program Balloon Program Aircraft & UAV Programs

8 Higher altitude rockets with high resolution instruments opened the door to a whole new class of auroral physics phenomena. Field Aligned Electron Bursts Ion Conics Lower Hybrid Solitary Structures Large Amplitude Alfvén Waves Intense Langmuir Waves Shock-Like Electric Fields New Physics New Capabilities on Sounding Rockets Enabled New Studies of Auroral Physics Early Rocket Observations (1960’s, 70’s) Discovered the source of auroral light is due to keV electron beams Explored auroral optical emissions, Ionosphere fields, currents, effects, etc. Auroral Optical Emissions Altitude (km)

9 Suborbital Observing Capabilities: Aircraft/UAVs DC8 GH Pr ALTUS-II L ALTUS-I P Range (nm) Altitude (km) Payload is proportional to font size (truncated at 2000 lb. and 600 lb.) Bold indicates payload greater than 2000 lb. Tropical Tropopause Polar Tropopause Troposphere Synoptic Scale Planetary Scale Stratosphere Walker Circulation ITCZ WidthMesoscale Convective Detrainment Boundary Layer GH = Global Hawk Pr = Proteus L = Lear Jet UAV Performance Envelope ALTAIR WB57 ER2 Cirrus (ALTUS I) (ALTUS II) (ALTAIR) Newman & Schoeberl, GSFC

10 NASA Suborbital Science Missions of the Future Workshop: 31 Mission Concepts in 6 Science Focus Areas Multiple requirements for cloud data Vertical resolution data through atmosphere & into ocean Almost universal OTH requirements Real-time data to the scientist on the ground, at least for QA Many, many missions with multiple, coordinated platforms Interesting combinations of mother/daughter platforms, sondes Intelligent, autonomous tracking of events or phenomena Synergy with satellite activities. Interagency Workshop for UAV Collaboration: 11 Proposals to Demonstrate UAV Enhancement of Science Objectives. 3 areas identified as high-value demonstration missions High Impact Events Carbon Fluxes Climate Profiles Results from Previous Workshops

11 Satellites Provide Global Observations - Suborbital Provides Key In-Situ/Local Observations Internal Structure of Hurricane Bonnie from NASA research aircraft Hurricane winds as an ocean anomaly from QuikSCAT Hurricane size and landfall observation from GOES Combining Global, Regional, and Local Scale Views Improves Understanding of Processes and Variability Trends