Table of Contents
1. IntroductionPART 1: Vegetation status and retrieval of vegetation biophysical variables through EO
2. A review of methods, approaches and techniques in LAI/FPAR(FVC/CHLa
3. Machine learning and cloud computing for trait parameter estimation
4. Agricultural crop monitoring with C-band polarimetric SAR features derived from the linear basis and compact polarimetry
5. Biophysical variables estimation with Hyperspectral data and applications
6. Toward standardized validation of satellite-based biophysical variables: current status and needs
7. Biophysical variables from LiDAR data
PART 2: Estimating Carbon and water fluxes for ecosystem assessment
8. Emerging needs for Carbon fluxes assessment
9. A review of methods, approaches and techniques in water fluxes
10. 20 year of GPP estimates from EUMETSAT geostationary satellites
11. Long-term study of water and carbon fluxes in a Mediterranean pine forest through the use of multiple remotely sensed datasets and bio-geochemical modelling
???????12. Linking biophysical variables and carbon fluxes in Earth Observation data assimilation
Authors
Manuel Campos-Taberner Senior Researcher, Universitat de Valencia, Val�ncia, Spain.Manuel Campos-Taberner works at the Universitat de Valencia as Senior Researcher teaching in different science degrees as well as in the Master's Degree in Remote Sensing. He was responsible for the development of ERMES (FP7-SPACE) operational processing chains for biophysical parameters estimation over European rice plantations. In addition, he was in charge of developing a methodology for land use classification in Spain using deep learning from Copernicus Sentinel-1/2 data in the Common Agricultural Policy (CAP). He is currently working with the EUMETSAT Satellite Application Facility on Land Surface Analysis (LSA SAF). He is developing, implementing, and validating hybrid algorithms (physical + data-driven) for a set of biophysical variables, allowing their operational use from EUMETSAT geostationary and polar observations.
Beatriz Mart�nez Universitat de Val�ncia, Valencia, Spain.Beatriz Mart�nez has been teaching and working as a researcher at the Environmental Remote Sensing group in the Universitat de Val�ncia since 2004 in Remote Sensing. Currently, she serves as assistant professor at the Faculty of Physics. Her mainly studies of work has been focused on the estimation and validation of biophysical satellite products (fAPAR, LAI and FVC), development of methodologies to detect vegetation changes using long satellite time-series and more recently the development of coarse satellite derived carbon flux products. She has been involved in operational initiatives for monitoring land surface within LSA SAF (EUMETSAT) and different Spanish dedicated to monitoring CO2 fluxes in Spain.
Sergio S�nchez-Ruiz Earth Physics and Thermodynamics Department, University of Valencia, Valencia, Spain.Sergio S�nchez-Ruiz is PI-Invest Doct Uv Senior in the Earth Physics and Thermodynamics deparmtnet. He started his research with thermal remote sensing on the estimation of atmospheric water content and temperature-emissivity separation algorithm. After his M.Sc, he worked for a year in the validation of soil moisture from the SMOS mission in the REMEDHUS network, Salamanca, Spain. In 2014, he started working in the Environmental Remote Sensing Group in Universitat de Val�ncia on the optimization of models for the estimation of carbon fluxes between biosphere and atmosphere through the combination of remote sensing data and ecosystem process models. Currently, he serves there as a senior researcher and teaches different science degrees as well as the Remote Sensing Masters degree.
