A Comprehensive Database of Leaf Temperature, Water, and CO 2 Fluxes in Young Oil Palm Plants Across Diverse Climate Scenarios
Résumé
Here, we propose a comprehensive dataset of biophysical measurements from four oil palm plants grown (Elaeis guinnensis) in controlled environments. The dataset includes detailed reconstructions of the three-dimensional plant structures derived from terrestrial LiDAR point clouds and leaf-scale gas exchange measurements for parameterising leaf physiology. We also provide plant-scale gas exchange measurements (CO 2 and H 2 0) and leaf temperature data under multiple controlled environmental scenarios, including varying CO 2 concentrations, light, temperature and humidity conditions. Our aim is to create a digital twin of the four plants to facilitate FSPM robust evaluation, and help identify sources of model uncertainty
Domaines
AgronomieOrigine | Fichiers produits par l'(les) auteur(s) |
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