%0 Journal Article
%9 ACL : Articles dans des revues avec comité de lecture répertoriées par l'AERES
%A Chabrillat, S.
%A Ben-Dor, E.
%A Cierniewski, J.
%A Gomez, Cécile
%A Schmid, T.
%A van Wesemael, B.
%T Imaging spectroscopy for soil mapping and monitoring
%D 2019
%L fdi:010075743
%G ENG
%J Surveys in Geophysics
%@ 0169-3298
%K Soil mapping and monitoring ; Imaging spectroscopy ; Hyperspectral ; Soil organic carbon ; Soil mineralogical composition ; Surface roughness ; Soil moisture ; Vegetation cover ; Spaceborne instruments
%M ISI:000468286300004
%N 3
%P 361-399
%R 10.1007/s10712-019-09524-0
%U https://www.documentation.ird.fr/hor/fdi:010075743
%> https://www.documentation.ird.fr/intranet/publi/2019/06/010075743.pdf
%V 40
%W Horizon (IRD)
%X There is a renewed awareness of the finite nature of the world's soil resources, growing concern about soil security and significant uncertainties about the carrying capacity of the planet. Regular assessments of soil conditions from local through to global scales are requested, and there is a clear demand for accurate, up-to-date and spatially referenced soil information by the modelling scientific community, farmers and land users, and policy- and decision-makers. Soil and imaging spectroscopy, based on visible-near-infrared and shortwave infrared (400-2500nm) spectral reflectance, has been shown to be a proven method for the quantitative prediction of key soil surface properties. With the upcoming launch of the next generation of hyperspectral satellite sensors in the next years, a high potential to meet the demand for global soil mapping and monitoring is appearing. In this paper, we briefly review the basic concepts of soil spectroscopy with a special attention to the effects of soil roughness on reflectance and then provide a review of state of the art, achievements and perspectives in soil mapping and monitoring based on imaging spectroscopy from air- and spaceborne sensors. Selected application cases are presented for the modelling of soil organic carbon, mineralogical composition, topsoil water content and characterization of soil crust, soil erosion and soil degradation stages based on airborne and simulated spaceborne imaging spectroscopy data. Further, current challenges, gaps and new directions toward enhanced soil properties modelling are presented. Overall, this paper highlights the potential and limitations of multiscale imaging spectroscopy nowadays for soil mapping and monitoring, and capabilities and requirements of upcoming spaceborne sensors as support for a more informed and sustainable use of our world's soil resources.
%$ 068 ; 020 ; 082 ; 126