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SISTER: AVIRIS Classic L2B Vegetative Biochemical Traits 30 m V001

Overview

DOIhttps://doi.org/10.3334/ORNLDAAC/2170
Version1
Project
Published2023-05-11
Updated2023-06-04
Usage35 downloads

Description

Generated by the Space-based Imaging Spectroscopy and Thermal pathfindER (SISTER) activity in support of the NASA Earth System Observatory's Surface Biology and Geology (SBG) mission, this dataset utilizes existing airborne and spaceborne sources to generate prototype data products spanning terrestrial ecosystems, inland and coastal aquatic ecosystems, hydrology, and geology. The objective of SISTER is to mature many of the workflows, algorithms, and data products envisioned for SBG, lay the groundwork to develop a robust cal/val network, and build a vigorous and expansive user community ahead of launch. This dataset contains experimental Level 2B vegetative biochemical traits (nitrogen concentration, leaf mass area, and chlorophyll content) at 30-m spatial resolution derived from data measured by the Airborne Visible/Infrared Imaging Spectrometer-Classic (AVIRIS or AVIRIS-CL) instrument during various campaigns (https://aviris.jpl.nasa.gov/). For the purposes of SISTER, only a handful of scenes have been selected from these campaigns, with a temporal range between 2011-05-26 and 2021-03-26 and spatial coverage entirely within the United States of America. AVIRIS-CL measures reflected radiance at 10-nanometer (nm) intervals in the visible to shortwave infrared spectral range between 400 and 2500 nm. The raw AVIRIS data is first processed to L1B orthocorrected calibrated radiance by the Imaging Spectroscopy Group at Jet Propulsion Laboratory (JPL) and then ingested into the SISTER platform for further downstream analysis. This collection was derived from corrected surface reflectance and fractional cover datasets using partial least squares regression (PLSR) models. Permuted PLSR models for estimating chlorophyll content, nitrogen concentration, and leaf mass per area were developed using coincident NEON AOP canopy spectra, downsampled to 10nm, and field data collected by Wang et al. (2020). Biochemical trait estimates were only calculated for pixels with greater than 50% vegetation cover. In addition to mean biochemical trait estimates, per-pixel uncertainties were calculated along with a quality assurance mask which flags pixels with trait estimates outside of the range of data used to build the model. The output products are provided in GeoTIFF format in the following units: chlorophyll content (micrograms/cm2), nitrogen concentration (milligrams/gram), and leaf mass per area (grams/m2).

Science Keywords

  • BIOSPHERE
  • VEGETATION

Data Use and Citation

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Townsend, P., M.M. Gierach, C. Ade, A.M. Chlus, H. Hua, O. Kwoun, M.J. Lucas, N. Malarout, D.F. Moroni, S. Neely, W. Olson-Duvall, J.K. Pon, S. Shah, and D. Yu. 2023. SISTER: AVIRIS Classic L2B Vegetative Biochemical Traits 30 m V001. ORNL DAAC, Oak Ridge, Tennessee, USA. https://doi.org/10.3334/ORNLDAAC/2170

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Data Files

Access is restricted for SISTER: AVIRIS Classic L2B Vegetative Biochemical Traits 30 m V001. If you have questions about this product, please email the ORNL DAAC User Support Office.

Companion Files

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Dataset has 1 companion files.

  • SISTER_AVCL_L2B_VEGBIOCHEM.pdf