International audienceThe prediction of grasslands plant diversity using satellite image time series is considered in this article. Fifteen months of freely available Sentinel optical and radar data were used to predict taxonomic and functional diversity at the pixel scale (10 m × 10 m) over a large geographical extent (40,000 km2). 415 field measurements were collected in 83 grasslands to train and validate several statistical learning methods. The objective was to link the satellite spectro-temporal data to the plant diversity indices. Among the several diversity indices tested, Simpson and Shannon indices were best predicted with a coefficient of determination around 0.4 using a Random Forest predictor and Sentinel-2 data. The use of Sen...
For the conservation of biodiversity in general and the monitoring of meadow birds in particular, ac...
Detailed spatial data on grassland use intensity is needed in several European policy areas for vari...
Detailed spatial data on grassland use intensity is needed in several European policy areas for vari...
International audienceThe prediction of grasslands plant diversity using satellite image time series...
The aim of this study is to assess the potential of satellite image time series with high spatial an...
International audienceMonitoring grassland plant communities is crucial for understanding and managi...
Grasslands represent a significant source of biodiversity in farmed landscapes because of their plan...
Aims: Remote sensing approaches could be beneficial for monitoring and compiling essential biodivers...
Assessing the level of diversity in plant communities from field‐based data is difficult for a numbe...
International audienceGrasslands represent a significant source of biodiversity that is important to...
Grasslands represent a significant source of biodiversity that is important to monitor over large ex...
Semi-natural grasslands are amongst the most biodiverse ecosystems in Europe, though their importanc...
For the conservation of biodiversity in general and the monitoring of meadow birds in particular, ac...
Detailed spatial data on grassland use intensity is needed in several European policy areas for vari...
Detailed spatial data on grassland use intensity is needed in several European policy areas for vari...
International audienceThe prediction of grasslands plant diversity using satellite image time series...
The aim of this study is to assess the potential of satellite image time series with high spatial an...
International audienceMonitoring grassland plant communities is crucial for understanding and managi...
Grasslands represent a significant source of biodiversity in farmed landscapes because of their plan...
Aims: Remote sensing approaches could be beneficial for monitoring and compiling essential biodivers...
Assessing the level of diversity in plant communities from field‐based data is difficult for a numbe...
International audienceGrasslands represent a significant source of biodiversity that is important to...
Grasslands represent a significant source of biodiversity that is important to monitor over large ex...
Semi-natural grasslands are amongst the most biodiverse ecosystems in Europe, though their importanc...
For the conservation of biodiversity in general and the monitoring of meadow birds in particular, ac...
Detailed spatial data on grassland use intensity is needed in several European policy areas for vari...
Detailed spatial data on grassland use intensity is needed in several European policy areas for vari...