BIODIVERSITY – A new space mission to monitor Earth ecosystems at fine scale

Xavier BRIOTTET; Touria BAJJOUK; Malik CHAMI; Christophe DELACOURT; Jean-Baptiste FERET; Stephane JACQUEMOUD; Audrey MINGHELLI; David SHEEREN; Christiane  WEBER; Sophie FABRE; Karine ADELINE; Emmanuelle VAUDOUR; Sandra LUQUE; Yannick DEVILLE; Kamel SOUDANI; Charles VERPOOTER

doi:10.52638/rfpt.2022.568

BIODIVERSITY – A new space mission to monitor Earth ecosystems at fine scale

Authors

Xavier BRIOTTET https://orcid.org/0000-0002-1229-7396
Touria BAJJOUK IFREMER
Malik CHAMI LATMOS IPSL Université Paris Sorbonne
Christophe DELACOURT Université de Bretagne
Jean-Baptiste FERET INRAE Maison de la Télédétection (Montpellier)
Stephane JACQUEMOUD INSTITUT DE PHYSIQUE DU GLOBE DE PARIS
Audrey MINGHELLI Université de Toulon
David SHEEREN ENSAT Institut Polytechnique de Toulouse
Christiane WEBER Université de Strasbourg
Sophie FABRE ONERA
Karine ADELINE ONERA
Emmanuelle VAUDOUR INRAE Paris Saclay
Sandra LUQUE INRAE Université de Montpellier
Yannick DEVILLE IRAP Observatoire Midi-Pyrénées, Université de Toulouse
Kamel SOUDANI Université Paris Saclay
Charles VERPOOTER Université du Littoral - Côte d'Opale

DOI:

https://doi.org/10.52638/rfpt.2022.568

Keywords:

imaging spectroscopy, hyperspectral, space mission, vegetation, biodiversity, coastal ecosystems, critical zone, soil quality, urban area

Abstract

Imaging spectroscopy has demonstrated its interest in characterizing the biochemical, biophysical and structural properties of vegetation, natural and agricultural soils, as well as artificial surfaces. Following the Hyperion mission, new space missions have emerged (PRISMA, EnMap), or are under study (CHIME, SBG). However, one of their main limitations lies in their spatial resolution that induces a large number of mixed pixels reducing their potential for discrimination for very heterogeneous areas. The BIODIVERSITY mission aims to complement these space missions with better GSD acquisitions (typically 8-10 m) with a 5-day revisit on targeted reference sites with identified and well-located characteristics. It will thus make it possible, in particular, to answer two scientific issues that will design the instrument. The first issue concerns the spatial and temporal distribution of vegetation traits in species assemblages; these traits are associated with the resilience of terrestrial ecosystems, anthropogenic influences, and the biodiversity of ecosystems in terms of species composition and assemblages. The second issue relates to improving our knowledge of coastal areas and inland waters in terms of biodiversity, water quality and bathymetry, in order to assess the impact of human activity on their ecosytems. The scientific challenges as well as the user requirements for such a mission are presented for each application.

Downloads

Download data is not yet available.

Extrait d'image PRISMA sur une zone agricole du PEROU @ASI 2019 Produit du traitement "contenu en eau ". Source: Image gallery Telespazio.

Downloads

05-568 BRIOTTET_et_al

Published

2022-12-22

How to Cite

BRIOTTET, X., BAJJOUK, T., CHAMI, M., DELACOURT, C., FERET, J.-B., JACQUEMOUD, S., MINGHELLI, A., SHEEREN, D., WEBER, C. ., FABRE, S., ADELINE, K., VAUDOUR, E., LUQUE, S., DEVILLE, Y., SOUDANI, K., & VERPOOTER, C. (2022). BIODIVERSITY – A new space mission to monitor Earth ecosystems at fine scale. Revue Française de Photogrammétrie et de Télédétection, 224(1), 33–58. https://doi.org/10.52638/rfpt.2022.568

Download Citation

Issue

Vol. 224 No. 1 (2022): Special Issue Hyperspectral Imagery

Section

Numéro Spécial Imagerie Hyperspectrale

License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under a Creative Commons Attribution (CC-BY) 4.0 License that allows others to share the work with an acknowledgment of the work’s authorship and initial publication in this journal.