We collected main stem or branch cross-sections of 188 angiosperm woody species, which represent a wide range of climates and diverse families. Measurements of xylem vessel and phloem sieve element diameter, density, and lumen fraction were used in phylogenetic structural equation models to disentangle internal and climatic constraints on their morphological and anatomical features.

We collected main stem or branch cross-sections of 188 angiosperm woody species, which represent a wide range of climates and diverse families. Measurements of xylem vessel and phloem sieve element diameter, density, and lumen fraction were used in phylogenetic structural equation models to disentangle internal and climatic constraints on their morphological and anatomical features.

Database for the article: DECIPHERING FIRE TOLERANCE OF TREES AT THE AMAZONIA-CERRADO TRANSITION BY TRAIT-BASED APPROACH: IMPLICATIONS FROM SPECIES TO COMMUNITIES

Database for the article: DECIPHERING FIRE TOLERANCE OF TREES AT THE AMAZONIA-CERRADO TRANSITION BY TRAIT-BASED APPROACH: IMPLICATIONS FROM SPECIES TO COMMUNITIES

This dataset results from an experiment on young oil palm plants (Elaeis guineensis) in the Ecotron facility from CNRS in Montpellier. Four plants were put in a microcosm one by one with varying climatic conditions to investigate the effect of climate on leaf temperature, CO2, and H2O fluxes at the plant scale. The conditions were defined based on typical daily conditions from a location where it is grown (Libo, Indonesia), i.e., a day with no rainfall and near-average air temperature and humidity. This base condition was then modified by adding more CO2 (400, 600 and 800ppm), less radiation (typical cloudy sky), and more or less temperature and vapour pressure deficit (± 30%).Find more details from the README.md file in the repository or from the associated Github repository.

This dataset results from an experiment on young oil palm plants (Elaeis guineensis) in the Ecotron facility from CNRS in Montpellier. Four plants were put in a microcosm one by one with varying climatic conditions to investigate the effect of climate on leaf temperature, CO2, and H2O fluxes at the plant scale. The conditions were defined based on typical daily conditions from a location where it is grown (Libo, Indonesia), i.e., a day with no rainfall and near-average air temperature and humidity. This base condition was then modified by adding more CO2 (400, 600 and 800ppm), less radiation (typical cloudy sky), and more or less temperature and vapour pressure deficit (± 30%).Find more details from the README.md file in the repository or from the associated Github repository.

These are the outputs obtained in Dupaix, A., Lengaigne, M., Andrello, M., Barrier, N., Dagorn, L., Gusmai, Q., Viennois, G., & Capello, M. (2024). Floating objects in the open ocean: Unveiling modifications of the pelagic habitat induced by forest cover change and climate variations. Global Environmental Change, 88, 102917. https://doi.org/10.1016/j.gloenvcha.2024.102917

These are the outputs obtained in Dupaix, A., Lengaigne, M., Andrello, M., Barrier, N., Dagorn, L., Gusmai, Q., Viennois, G., & Capello, M. (2024). Floating objects in the open ocean: Unveiling modifications of the pelagic habitat induced by forest cover change and climate variations. Global Environmental Change, 88, 102917. https://doi.org/10.1016/j.gloenvcha.2024.102917

Supplementary Information for the "Wetland’s type changes do affect carbon missions" research

Supplementary Information for the "Wetland’s type changes do affect carbon missions" research