Agenda AMAP
Some community ecology and tree mortality in tropical forests
ARELLANO Gabriel
I will present my work and collaborations, in three main phases or lines. My first line of research is the study of species dominance, mostly linked to the “oligarchy hypothesis” in Andean and Amazonian forests in the Madidi region in Bolivia. The oligarchy hypothesis emphasizes predictability and practicality, leaving aside the mystery of hype... [Lire la suite...]
PS 2 salle 201 + visioconférenceJoint Species distribution models for presence only data
MORTIER Frédéric
Species distribution models (SDM) and their extensions to the multi-species context (Joint Species Distribution models, JSDM) are widely used to quantify and test environmental factors on biodiversity and the services they deliver. However, these models rely on presence/absence or abundance data derived from specific sampling. For many species, suc... [Lire la suite...]
PS 2 salle 201Zero-inflated binary tree Pólya-splitting distrubtions for joint species distribution models
MORTIER Frédéric
Understanding the impact of climate change on tropical rainforest ecosystems is crucial to promote efficient conservation strategies. The classical approach remains the use of species-specific distribution model. However, in species-rich ecosystems with many rare species, such an approach is doomed to failure. Moreover, univariate approaches ignore... [Lire la suite...]
PS 2 salle 201 + visioconférenceThe response of soil to extreme climatic conditions
AN Ni
Understanding the impact of climate change on tropical rainforest ecosystems is crucial to promote efficient conservation strategies. The classical approach remains the use of species-specific distribution model. However, in species-rich ecosystems with many rare species, such an approach is doomed to failure. Moreover, univariate approaches ignore... [Lire la suite...]
PS 2 salle 201One Health: le cas de la maladie du sommeil en Afrique Sub-Saharienne, et perspectives de collaboration avec l’UMR AMAP
BART Jean-Mathieu
Understanding the impact of climate change on tropical rainforest ecosystems is crucial to promote efficient conservation strategies. The classical approach remains the use of species-specific distribution model. However, in species-rich ecosystems with many rare species, such an approach is doomed to failure. Moreover, univariate approaches ignore... [Lire la suite...]
PS 2 salle 201From leaf to satellite, dynamics and functioning of tropical vegetation
Understanding the impact of climate change on tropical rainforest ecosystems is crucial to promote efficient conservation strategies. The classical approach remains the use of species-specific distribution model. However, in species-rich ecosystems with many rare species, such an approach is doomed to failure. Moreover, univariate approaches ignore... [Lire la suite...]
Amphithéâtre de la Délégation Régionale IRD-Occitanie, MontpellierWill the plasticity in hydraulic traits minimize the climate vulnerability of Afromontane tree species? Insights from an elevational gradient experiment in Rwanda
ZIEGLER Camille
Understanding the impact of climate change on tropical rainforest ecosystems is crucial to promote efficient conservation strategies. The classical approach remains the use of species-specific distribution model. However, in species-rich ecosystems with many rare species, such an approach is doomed to failure. Moreover, univariate approaches ignore... [Lire la suite...]
PS 2 salle 201Contribution de la géophysique pour l'étude des écosystèmes forestiers
CARRIERE Simon
Understanding the impact of climate change on tropical rainforest ecosystems is crucial to promote efficient conservation strategies. The classical approach remains the use of species-specific distribution model. However, in species-rich ecosystems with many rare species, such an approach is doomed to failure. Moreover, univariate approaches ignore... [Lire la suite...]
PS 2 salle 201