1 November 2021 Sensitivity of Landsat NDVI to subpixel vegetation and topographic components in glacier forefields: assessment from high-resolution multispectral UAV imagery
Arthur Bayle, Erwan Roussel, Bradley Z. Carlson, Franck Vautier, Claire Brossard, Elise Fovet, Géraud de Bouchard d’Aubeterre, Dov Corenblit
Author Affiliations +
Abstract

Recently, deglaciated landscapes are ideal natural arenas to investigate ecological succession processes. However, ground data acquisition remains complicated as glacier forefields are often difficult to access and fieldwork possibilities remain limited. Remote sensing offers an opportunity to bypass this issue and increase spatial and temporal coverage of ecological parameters. The Landsat satellites (5 to 8) provide reflectance data for the past 40 years, which align with recent phenomena of glacier retreat and related ecological and geomorphological dynamics in glacier forefields. Difficulties remain as information retrieved from 30-m Landsat pixels are the result of a mixture of objects influencing reflectance signals. Here, we used a submeter multispectral unmanned aerial vehicle (UAV) image of the Glacier noir foreland, France, to assess the sensitivity of Landsat normalized difference vegetation index (NDVI) to subpixel vegetation and topographic components. We found a twofold linear relationship (a  =  0.456) and high sensitivity between fractional vegetation cover (FVC) and Landsat NDVI with detection of low vegetation changes (FVC  >  5  %  ) at low NDVI values (<0.1) (F-score  =  0.75). We also showed that vegetation height and subpixel topographic heterogeneity leads to misestimation of vegetation cover as quantified by Landsat NDVI. Overall, our comparative analysis using very-high resolution UAV imagery provides support for the use of widely available Landsat imagery for investigating vegetation dynamics in glacier forefields.

© 2021 Society of Photo-Optical Instrumentation Engineers (SPIE) 1931-3195/2021/$28.00 © 2021 SPIE
Arthur Bayle, Erwan Roussel, Bradley Z. Carlson, Franck Vautier, Claire Brossard, Elise Fovet, Géraud de Bouchard d’Aubeterre, and Dov Corenblit "Sensitivity of Landsat NDVI to subpixel vegetation and topographic components in glacier forefields: assessment from high-resolution multispectral UAV imagery," Journal of Applied Remote Sensing 15(4), 044508 (1 November 2021). https://doi.org/10.1117/1.JRS.15.044508
Received: 12 August 2021; Accepted: 18 October 2021; Published: 1 November 2021
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Cited by 2 scholarly publications.
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KEYWORDS
Vegetation

Earth observing sensors

Landsat

Unmanned aerial vehicles

Reflectivity

Data modeling

Near infrared

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