Unlocking ecological insights from sub-seasonal visible-to-shortwave infrared imaging spectroscopy: The SHIFT campaign

Creators: Chadwick, K. Dana¹; Davis, Frank²; Miner, Kimberley R.¹; Pavlick, Ryan^{1, 3}; Reynolds, Mark⁴; Townsend, Philip A.⁵; Brodrick, Philip G.¹; Ade, Christiana¹; Allen, Jean²; Anderegg, Leander²; Angel, Yoseline^{6, 7}; Boving, Indra²; Byrd, Kristin B.⁸; Campbell, Petya^{6, 7}; Carberry, Luke²; Cavanaugh, Katherine C.⁹; Cavanaugh, Kyle C.⁹; Easterday, Kelly⁴; Eckert, Regina¹; Gierach, Michelle¹; Gold, Kaitlin¹; Hestir, Erin¹⁰; Huemmrich, Fred^{6, 7}; Klope, Maggie²; Kokaly, Raymond F¹¹; Lovegreen, Piper²; Luis, Kelly¹; McMahon, Conor²; Nidzieko, Nicholas²; Ochoa, Francisco⁹; Ongjoco, Anna Jiselle⁹; Ordway, Elsa⁹; Pascolini-Campbell, Madeleine¹; Queally, Natalie⁵; Roberts, Dar A.²; Saiki, Clare M.²; Schneider, Fabian D.¹; Shiklomanov, Alexey N.⁶; Silva, Germán D.²; Snyder, Jordan²; Thornton, Michele¹²; Trugman, Anna T.²; Vinod, Nidhi⁹; Zheng, Ting⁵; Avouris, Dulcinea M.¹⁰; Baker, Brianna²; Baskaran, Latha¹; Bell, Tom¹³; Berg, Megan⁵; Bernas, Michael²; Bohn, Niklas¹; Braghiere, Renato K.^{1, 14}; Breuer, Zach⁵; Brooks, Andrew J.²; Burkard, Nolan⁵; Burmistrova, Julia¹⁰; Cawse-Nicholson, Kerry¹; Chapman, John¹; Chazaro‐Haraksin, Johana¹⁰; Cryer, Joel⁵; Cushman, K. C.¹; Dahlin, Kyla¹⁵; Dao, Phuong D.^{5, 16}; DiBartolo, Athena²; Eastwood, Michael¹; Elder, Clayton D.^{1, 17}; Giordani, Angela²; Grant, Kathleen¹⁸; Green, Robert O.¹; Hanson, Alexa⁵; Heberlein, Brendan⁵; Helmlinger, Mark¹; Hook, Simon¹; Jensen, Daniel¹; Johnson, Emma⁵; Johnson, Marie¹⁹; Kiper, Michael¹; Kibler, Christopher²; King, Jennifer Y.²; Kovach, Kyle R.⁵; Kreisberg, Aaron²; Lacey, Daniel⁵; Lang, Evan⁶; Lee, Christine¹; Lopez, Amanda M.¹; Lopez Barreto, Brittany¹⁰; Maguire, Andrew¹; Marsh, Elliott⁵; Miller, Charles¹; Nguyen, Dieu My T.⁶; Nickles, Cassandra¹; Ocón, Jonathan P.^{9, 20}; Papen, Elijah P.²¹; Park, Maria²²; Poulter, Benjamin⁶; Raiho, Ann⁶; Reim, Porter⁵; Robinson, Timothy H.²¹; Romero Galvan, Fernando E.²³; Shafron, Ethan¹; Skalitzky, Brenen R.⁵; Stroschein, Sydney⁵; Taylor, Niky C.⁷; Thompson, David R.¹; Thompson, Kate⁵; Tye, Cecily²; Van Beek, Joelie⁵; Vanden Heuvel, Cecilia⁵; Vellanoweth, Jonathan²⁰; Vermeer, Evert²; Villanueva-Weeks, Claire¹; Zumdahl, Kristen²; Schimel, David¹

1. Jet Propulsion Lab
2. University of California, Santa Barbara
3. National Aeronautics and Space Administration
4. The Nature Conservatory, San Francisco, California, USA
5. University of Wisconsin–Madison
6. Goddard Space Flight Center
7. University of Maryland, College Park
8. U.S. Geological Survey Western Geographic Science Center, Moffett Field, California, USA
9. University of California, Los Angeles
10. University of California, Merced
11. United States Geological Survey
12. Oak Ridge National Laboratory
13. Woods Hole Oceanographic Institution
14. California Institute of Technology
15. Michigan State University
16. Colorado State University
17. Ames Research Center
18. University of Southern California
19. University of Montana
20. Cahuma Operation and Maintenance Board, Santa Barbara, California, USA
21. University of Minnesota
22. Cornell University
23. California State University Los Angeles

Abstract

We stand at the threshold of a transformative era in Earth observation, marked by space-borne visible-to-shortwave infrared (VSWIR) imaging spectrometers that promise consistent global observations of ecosystem function, phenology, and inter- and intra-annual change. However, the full value of repeat spectroscopy, the information embedded within different temporal scales, and the reliability of existing algorithms across diverse ecosystem types and vegetation phenophases have remained elusive due to the absence of suitable sub-seasonal spectroscopy data. In response, the Surface Biology and Geology (SBG) High-Frequency Time Series (SHIFT) campaign was initiated during late February 2022 in Santa Barbara County, California. SHIFT, designed to support NASA's SBG mission, addressed mission scoping, scientific advancement, applications development, and community building. This ambitious endeavor included weekly Airborne Visible InfraRed Imaging Spectrometer-Next Generation (AVIRIS-NG) imagery acquisitions for 13 weeks (spanning February 24 to May 29, 2022), accompanied by coordinated terrestrial vegetation and coastal aquatic data collection. We describe the rich datasets collected and illustrate how the complex sub-seasonal patterns of change can be linked to biological science and applications, surpassing insights from multispectral observations. Leveraging open-source processing methods and cloud-based analysis tools, the SHIFT campaign showcases the readiness of the scientific community to harness ecological insights from remotely sensed hyperspectral time series. We provide an overview of SHIFT's goals, data collections, preliminary results, and the collaborative efforts of early career scientists committed to unlocking the transformative potential of high-frequency time series data from space-borne VSWIR imaging spectrometers.

Copyright and License

This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

Acknowledgement

Sedgwick staff: Lyza Johnsen, Angela Giordani, Brenda Juarez, and Nicole Evans for logistical and administrative support. Frank Davis acknowledges the La Kretz Center for Research at Sedgwick. Some of the research described in this paper was carried out at the Jet Propulsion Laboratory, California Institute of Technology, under contract with the National Aeronautics and Space Administration. Government sponsorship is acknowledged. This study was also supported by the Surface Biology and Geology (SBG) mission's pre-Phase A activites, a NASA Earth Science Designated Observable. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government. Renato K. Braghiere acknowledges support by Resnick Sustainability Institute. Kyla Dahlin acknowledges support from National Science Foundation award #2044818. We acknowledge the support from Richard Smalldon from the Santa Barbara Museum of Natural History Sea Center. On behalf of all participants from the University of Wisconsin, Philip A. Townsend acknowledges support from the NASA SBG project through JPL award 1673139 and the NSF ASCEND Biology Integration Institute (BII) award DBI 2021898. Natalie Queally was additionally supported by NASA FINESST fellowship 80NSSC22K1532. Katie Gold acknowledges support from JPL Strategic University Research Partnership awarded to Cornell Univeristy and NASA Acres.

Data Availability

Supplemental Material

Appendix S1

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