Designing an Observing System to Study the Surface Biology and Geology (SBG) of the Earth in the 2020s

E Natasha Stavros; Jon Chrone; Kerry Cawse-Nicholson; Anthony Freeman; Nancy F Glenn; Liane Guild; Raymond Kokaly; Christine Lee; Jeffrey Luvall; Ryan Pavlick; Benjamin Poulter; Stephanie Schollaert Uz; Shawn Serbin; David R Thompson; Philip A Townsend; Kevin Turpie; Karen Yuen; Kurt Thome; Weile Wang; Shannon-Kian Zareh; Jamie Nastal; David Bearden; Charles E Miller; David Schimel

doi:10.1029/2021JG006471

Designing an Observing System to Study the Surface Biology and Geology (SBG) of the Earth in the 2020s

J Geophys Res Biogeosci. 2023 Jan;128(1):e2021JG006471. doi: 10.1029/2021JG006471. Epub 2023 Jan 18.

Authors

E Natasha Stavros¹, Jon Chrone², Kerry Cawse-Nicholson¹, Anthony Freeman¹, Nancy F Glenn³, Liane Guild⁴, Raymond Kokaly⁵, Christine Lee¹, Jeffrey Luvall⁶, Ryan Pavlick¹, Benjamin Poulter⁷, Stephanie Schollaert Uz⁷, Shawn Serbin⁸, David R Thompson¹, Philip A Townsend^{1

9}, Kevin Turpie^{7

10}, Karen Yuen¹, Kurt Thome⁷, Weile Wang³, Shannon-Kian Zareh¹, Jamie Nastal¹, David Bearden¹, Charles E Miller¹, David Schimel¹

Affiliations

¹ Jet Propulsion Laboratory California Institute of Technology Pasadena CA USA.
² NASA Langley Research Center Hampton VA USA.
³ Boise State University Boise ID USA.
⁴ NASA Ames Research Center Moffett Field CA USA.
⁵ United States Geological Survey Reston VA USA.
⁶ NASA Marshall Space Flight Center Huntsville AL USA.
⁷ NASA Goddard Space Flight Center Greenbelt MD USA.
⁸ Brookhaven National Laboratory Upton NY USA.
⁹ University of Wisconsin-Madison Madison WI USA.
¹⁰ University of Maryland Baltimore County Greenbelt MD USA.

Abstract

Observations of planet Earth from space are a critical resource for science and society. Satellite measurements represent very large investments and United States (US) agencies organize their effort to maximize the return on that investment. The US National Research Council conducts a survey of Earth science and applications to prioritize observations for the coming decade. The most recent survey prioritized a visible to shortwave infrared imaging spectrometer and a multispectral thermal infrared imager to meet a range of needs for studying Surface Biology and Geology (SBG). SBG will be the premier integrated observatory for observing the emerging impacts of climate change by characterizing the diversity of plant life and resolving chemical and physiological signatures. It will address wildfire risk, behavior, and recovery as well as responses to hazards such as oil spills, toxic minerals in minelands, harmful algal blooms, landslides, and other geological hazards. The SBG team analyzed needed instrument characteristics (spatial, temporal, and spectral resolutions, measurement uncertainty) and assessed the cost, mass, power, volume, and risk of different architectures. We present an overview of the Research and Applications trade-study analysis of algorithms, calibration and validation needs, and societal applications with specifics of substudies detailed in other articles in this special collection. We provide a value framework to converge from hundreds down to three candidate architectures recommended for development. The analysis identified valuable opportunities for international collaboration to increase the revisit frequency, adding value for all partners, leading to a clear measurement strategy for an observing system architecture.

Keywords: NASA; applications; biology; geology; imaging spectroscopy; satellite.

© 2022 Jet Propulsion Laboratory. California Institute of Technology. Government sponsorship acknowledged. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.