Poster number | Presenter | Title |
S3-P.01 | Guénolé Boulch | Evaluation of the potential adaptation of soybean (Glycine max L.) to northern France using crop modeling simulations |
S3-P.02 | Elvis Elli | Identifying improved Eucalyptus traits to climate change by combining modelling and global sensitivity analysis |
S3-P.03 | Florie Gosseau | Multi-scale modeling of sunflower crop responses to genetic and environment variations |
S3-P.04 | Gaetan Heidsieck | Smart Reuse of High-Throughput Phenotyping Data using Scientific Workflows on the Cloud |
S3-P.05 | Matthew Jones | Assessment of two sugarcane models for predicting genotype by environment interactions, using an international dataset |
S3-P.06 | Moritz Kupisch | Modeling of hybrid performance and yield gain in oilseed rape by systems biology |
S3-P.07 | Florian Larue | Autoencoding genetic markers to predict the value of ecophysiological model parameters - proof of concept |
S3-P.08 | Simon Lauwers | Application of a functional-structural plant model on two wheat varieties to enhance physiological interpretation |
S3-P.09 | Dany Moualeu-Ngangue | A QTL-based model to quantify the yield of different spring barley genotypes under water deficit |
S3-P.10 | Stéphane Leveau | Genetic variability of the response of leaf elongation rate and transpiration to temperature and evaporative demand for wheat |
S3-P.11 | Gloria Padovan | Durum wheat ideotypes optimized for the Mediterranean basin under future climates |
S3-P.12 | Nimai Senapati | Substantial increase in yield is predicted by designing wheat ideotypes for Europe under future climate |
S3-P.13 | Abdou Traoré | Can DSSAT CSM-CROPGRO-Cotton support cotton breeding under low input rainfed conditions? A case study in Senegal |
S3-P.14 | Selwyn Villers | Combining plant sensors and high-throughput phenotyping for developing an FSPM of maize |