1. Liane Guild, Brad Lobitz, Randy Berthold, Jeremy Kerr Biospheric Science Branch, NASA Ames Research Center, CA Roy Armstrong, James Goodman, Yasmine Detres, Fernando Gilbes, Stacey Williams University of Puerto Rico at Mayaguez, PR Collaborators: AVIRIS Team at NASA JPL Airborne Science and Technology Lab at NASA Ames Fireball Information Technologies Funding: NASA Interdisciplinary Research in Earth Science NASA Ocean Biology and Biogeochemistry Program Contact: Liane.S.Guild@nasa.gov http://earthscience.arc.nasa.gov/sge/coral-health/ Imaging Spectroscopy and Field Data in Support of Coral Reef Biodiversity and Change Research in Puerto Rico

2. Use NASA’s 2005 AVIRIS imagery over La Parguera, PR to map coral reef benthic types and variability Establish permanent reef monitoring transects to track change annually Use AVIRIS data and field measurements to assess the ecological impact of the 2005 coral bleaching event in Southwestern Puerto Rico Hurricane Dean in August 2007 Improve the interpretation of reef habitat variability and biodiversity from imaging spectroscopy (hyperspectral) data Processing algorithms could be used for future HyspIRI data Science Objectives

3. Climate Change Threats: Increased Sea Temperatures Bleached A. palmata Healthy Acropora palmata Mostly dead A. cervicornis Healthy A. cervicornis Due to sustained high sea temperatures, zooxanthellae (photosynthetic algae of coral) are expelled, leaving the coral “bleached”. Coral species of interest: Acroporids (elkhorn and staghorn coral) were listed as threatened in 2006 under the US Endangered Species Act (ESA). This year 7 additional Caribbean coral reef species (75 Pacific spp) are under review for listing; all found in PR

4. NOAA Coral Reef Watch: SST Degree Heating Weeks Oct. 22, 2005

5. NASA Airborne Missions of Coral Reefs Using AVIRIS and DCS AVIRIS (Airborne Visible Infrared Imaging Spectrometer): Operated by NASA Jet Propulsion Lab NASA Wallops Twin Otter 224 contiguous spectral channels (370-2500 nm) Visible range: 410-700 nm (31 bands) 10 nm nominal channel bandwidth High signal to noise ratio Altitude: ~ 3.5 km (Twin Otter) AVIRIS spatial resolution: ~ 3 m (Twin Otter), ~16 m (ER-2) Cirrus and Kodak DCS (Digital Camera System) on low altitude aircraft Cirrus: Operated by UC Santa Cruz Airborne Sensor Facility at NASA Ames Kodak: Operated by NASA Ames and Fireball Information Technologies Spatial resolution: <1 m

6. NASA Airborne Mission of the 2005 Caribbean Coral Reef Bleaching Event Using AVIRIS and DCS AVIRIS flight lines over La Parguera, PR December 12-13, 2005 Twin Otter Platform, Altitude ~3.5 km Pixel Size ~3 m

7. Kodak DCS Imagery of San Cristobal, La Parguera AVIRIS 3 m resolution ETM+ ~30 m resolution 30 cm resolution

8. Airborne reflectance spectra are composites of reflectance from: 1.the atmosphere (air molecules, particulates, aerosols); 2.the sea surface; 3.the water column (water molecules, phytoplankton, colored dissolved organic matter); and 4.the bottom (sediments, seagrass, corals). Atmospheric constituents are measured with sunphotometers. Water column optical properties are measured with spectrophotometers. Spectroradiometers are used to measure light reflected from the sea surface, the coral reef bottom types, and within the water column. water optics spectrophotometer Spectroradiometer field spectra radiance 1 2 3 4 Field Measurements

9. Reef benthic type spectra Photogrids GPS Spectra of calibration targets Aeronet station – AOD atmospheric correction Water optical profiler –Upwelling radiance, Lu –Downwelling irradiance, Ed –Surface Ed, Es Field Measurements

10. Coral Rubble Montastraea annularis Siderastrea siderea Porites spp. Acropora cervicornis Thalassia testudinum Dictyota spp. Coral Reef Ecosystem Benthic Types Acropora palmata Gorgonians

11. Field Spectra and Spectral Resolution

12. Spectra normalized to unity at 550nm show differences in spectral shape between benthic cover types Live coral has a broad peak between green and red wavelength Most features show a chlorophyll absorption feature at 680nm

13. AVIRIS Dec. 2005 (3 m Resolution) Mosaic of La Parguera, PR

14. LiDAR Bathymetry and Field Measurement Locations Airborne data collection 2006 Bathymetry 50m 4m spatial resolution

15. 2005 AVIRIS: Preprocessing and Inversion Model J. Goodman (UPRM) Inversion Model Spectral Input Parameters Aquatic Absorption Properties Generic Bottom Reflectance Image Preprocessing Correct Stray Light Anomaly Hedley Glint Removal Tafkaa Atmospheric Correction Inversion Output Water Properties Bathymetry Bottom Albedo (550 nm) Raw AVIRIS Imagery Image Geometry Explicit pixel by pixel subsurface angles View (AVIRIS) Illumination (solar)

16. 2005 AVIRIS: Unmixing Model J. Goodman (UPRM) Forward Model Preprocessed AVIRIS Imagery Spectral Input Parameters Aquatic Absorption Properties Generic Bottom Reflectance Image Geometry Explicit pixel by pixel subsurface angles View (AVIRIS) Illumination (solar) Inversion Output Water Properties Bathymetry Unmixing Model Spectral Endmembers Unmixing Output Benthic Composition Sand Algae/ Seagrass Coral

17. 2005 AVIRIS: From Imagery to Information Preprocessed AVIRIS Image Unmixing End-Member-Index Classification Inversion and UnmixingHydrolight Transformation Preprocessed Spectral Classification Hydrolight Spectral Classification Mixed live/dead branching Mixed live/dead massive coral Solitary colonies, SAV, sand SAV coral mix SAV Sand Breaker

18. Acropora cervicornis (staghorn coral) Transects 2004-2007 2004 2005 2006 2007

19. Acropora cervicornis (staghorn coral) Transects 2008 2008 2009

20. Reef Bottom Type Biodiversity (Percent Cover) Coral Point Count with Excel Extensions (CPCe)

21. Reef Bottom Type Biodiversity (Percent Cover) Coral and gorgonian cover was not significantly different from 2007 to 2009 Sponge cover has increased Macroalgae increased in 2008 then decreased in 2009 Sand cover decreased from 2007 to 2008 and 2009 level Recovery possibly beginning in benthic communities at some sites Results are similar to other studies following disturbances in coral reefs Need at least two more years of monitoring to confirm occurrence of recovery

22. Summary and Next Steps  Generalized spectral categories (coral, sand, and SAV) used as inputs to the models still allowed for detailed output classes (ecological zones)  Use detailed benthic spectral library for unmixing end members  Compare spectral transects with Hydrolight-transformed AVIRIS data  Substantial image preprocessing may have affected the modeling results  Biodiversity analysis, based on percent cover within photogrids acquired in 2007-2009, showed recovery possibly beginning in benthic communities at some sites  Complete photogrid analysis for other patch reefs and relate 2005 transects with AVIRIS classifications  Complete assessment of changes in biodiversity, perhaps related to recovery from 2005 bleaching event and 2007 hurricane  Critical need for hyperspectral data for studies in shallow water  Procedures relevant to HyspIRI http://earthscience.arc.nasa.gov/sge/coral-health/

23. Remote Sensing Challenges: Spatial Resolution Montastraea annularis (pale) following 2005 bleaching

24. Background Coral reefs are in peril: –rapidly growing local populations –regional to global atmospheric, oceanographic and climatic changes increased sea temperatures, rising CO 2 and falling pH (ocean acidification) –increased frequencies, intensities and distributions of bleaching, disease and other disturbances –deteriorating biologically and physically loss of hard corals, increased abundance of algae, replacement of corals by algae, predation and microbial outbreaks –2 species listed as “threatened” under the US Endangered Species Act (2006) and 83 additional species are proposed for listing (2009) with final determination in 2010

25. Cirrus DCS Imagery (< 1m resolution) Buck Island, St. Croix, USVI December 16, 2005 Calibration tarp and boat are visible! Field Data Collection

26. Airborne Mission 2005 Culebra, PR, Dec. 12 La Parguera, PR, Dec. 12-13 Buck Island, St. Croix, Dec. 15-16 St. John, Dec. 19 Vieques Is., PR, Dec. 20 Research Objective Assess the ecological impact of coral bleaching in Puerto Rico and the USVI US Coral Reef Task Force: NASA Airborne Mission of the 2005 Caribbean Coral Reef Bleaching Event Using AVIRIS and DCS DCS imagery of Buck Island, USVI, December 2005 This collaborative effort was in support of the US Coral Reef Task Force’s (USCRTF) November 2005 resolution to mobilize and assess coral reef bleaching, coral mortality, coral recovery, and the ecological impact of the September-October 2005 coral bleaching event in Puerto Rico (PR) and the US Virgin Islands (USVI).

27. Water Column Spectral Attenuation Spectral attenuation coefficients (Kd) can be determined by using Satlantic Hyperpro downwelling irradiance (Ed) profiles. These measurements can be expressed as a function of depth.

29. 2005 AVIRIS: From Imagery to Information J. Goodman (UPRM) Bottom Albedo Bathymetry Benthic Composition Raw Image

30. 2005 AVIRIS: From Imagery to Information J. Goodman (UPRM) Benthic Composition Sand Algae/ Seagrass Coral AVIRIS Data Field Data + DCS Images

31. 89 categories –Corals: 52 species –Macroalgae: 13 genera –Gorgonians: 11 genera –Dead coral with algae (4); Zoanthids (2); Coralline algae (1); Sponges (1); Other live (1); Diseased corals (1)