The key objective of this study is to analyse the usability of vegetation fluorescence observations in addition to other biophysical variables derived from optical and thermal infrared remote sensing for regional dynamic vegetation modelling. The study is also expected to result in a range of quantitative predictions of the link between solar-induced fluorescence, reflectance and photosynthesis at the leaf and canopy level, which could guide future campaigns in the context of the FLEX Earth Explorer Mission, recently selected for evaluation by the European Space Agency
Magnani F. (2007). European Space Agency ESA/ESTEC Contract No. 20678/07/NL/HE "Impact assessment of solar induced fluorescence observations from space for improving dynamic vegetation model".
European Space Agency ESA/ESTEC Contract No. 20678/07/NL/HE "Impact assessment of solar induced fluorescence observations from space for improving dynamic vegetation model"
MAGNANI, FEDERICO
2007
Abstract
The key objective of this study is to analyse the usability of vegetation fluorescence observations in addition to other biophysical variables derived from optical and thermal infrared remote sensing for regional dynamic vegetation modelling. The study is also expected to result in a range of quantitative predictions of the link between solar-induced fluorescence, reflectance and photosynthesis at the leaf and canopy level, which could guide future campaigns in the context of the FLEX Earth Explorer Mission, recently selected for evaluation by the European Space AgencyI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
