Coralie Picoche
Coralie now works at Vegetal Signals
Previous position: PhD student at the Institute of Mathematics of Bordeaux, working on fine-scale modelling of phytoplanktonic community dynamics.
Brief CV :
2015-2019: Research assistant, in quantitative ecology at the University of Bordeaux, Integrative and Theoretical Ecology group (France)
2014 : Research assistant in fishery modelling, at the Institute of Research for Development, Exploited Marine Ecosystems Department (South Africa)
2012-2013 : Research assistant in shellfish modelling, at the French Research Institute for Exploitation of the Sea (France).
Publications:
Picoche C., Young W.R. & Barraquand F. Local intraspecific aggregation in phytoplankton model communities: spatial scales of occurrence and implications for coexistence
Doyen G., Picoche C. & Barraquand F. [Re] Biodiversity of plankton by species oscillations and chaos (Submitted to ReScience)
Picoche C., Barraquand F. Seed banks can help to maintain the diversity of interacting phytoplankton species. Journal of Theoretical Biology, 2022, 538.
Picoche C., Young W.R., Barraquand F. [Re] Reproductive pair correlations and the clustering of organisms ReScience DOI:10.5281/zenodo.6546488
Barraquand F., Picoche C., Aluome C., **Carassou L. & Feigné C. Looking for compensation at multiple scales in a wetland bird community Ecology and Evolution 12, 2022, e8876.
Barraquand F., Picoche C., Detto M., Hartig F. Inferring species interactions using Granger causality and convergent cross mapping. Theoretical Ecology, 2021, 14, 87-105.
Picoche C., Barraquand F. Strong self-regulation and widespread facilitative interactions between genera of phytoplankton. Journal of Ecology, 2020, 108(6), 2232-2242.
Picoche C., Barraquand F. How self-regulation, the storage effect, and their interaction contribute to coexistence in stochastic and seasonal environments. Theoretical Ecology, 2019, 12, 489-500.
Barraquand F., Picoche C., Maurer D., Carassou L., Auby I. Coastal phytoplankton community dynamics and coexistence driven by intragroup density-dependence, light and hydrodynamics. Oikos, 2018, 127(12), 1834-1852.
Picoche C., Le Gendre R., Flye-Sainte-Marie J., Françoise S., Maheux F., Simon B., Gangnery A. Towards the Determination of Mytilus edulis Food Preferences Using the Dynamic Energy Budget (DEB) Theory. PLoS ONE, 2014, 9(10): e109796.
Contact : coralie (dot) picoche (at) u-bordeaux (dot) fr