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Constraining terrestrial carbon fluxes through assimilation of SMOS products
Communication dans un congrès -
Mean European Carbon Sink Over 2010-2015 Estimated by Simultaneous Assimilation of Atmospheric CO2, Soil Moisture, and Vegetation Optical Depth
(Geophysical Research Letters. vol. 46, n° 13, pp. 796-803, 2019)Article de revue -
An evaluation of SMOS L-band vegetation optical depth (L-VOD) data sets: high sensitivity of L-VOD to above-ground biomass in Africa
(Biogeosciences. vol. 15, n° 14, pp. 4627-4645, 2018)Article de revue -
Merging two passive microwave remote sensing (SMOS and AMSR_E) datasets to produce a long term record of soil moisture
Communication dans un congrès -
Smos L-Band vegetation optical depth is highly sensitive to aboveground biomass
Communication dans un congrès -
SMOS-IC vegetation optical depth index in monitoring aboveground carbon changes in the tropical continents during 2010–2016
Communication dans un congrès -
Recent divergence in the contributions of tropical and boreal forests to the terrestrial carbon sink
(Nature Ecology & Evolution. vol. 4, n° 2, pp. 202-209, 2020)Article de revue -
Considering combined or separated roughness and vegetation effects in soil moisture retrievals
(International Journal of Applied Earth Observation and Geoinformation. vol. 55, pp. 73-86, 2017)Article de revue -
Comparison of SMOS and AMSR-E vegetation optical depth to four MODIS-based vegetation indices
(Remote Sensing of Environment. vol. 172, pp. 87-100, 2016)Article de revue -
L’indice L-VOD pour le suivi du fonctionnement et de la biomasse de la végétation
(Bulletin Données et Services pour les Surfaces Continentales. n° 11, pp. 11-12, 2019)Article de revue