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Karine Chenu
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Modelling the impact of climate change on agriculture in Australia and Oceania.
A Generic Model to Estimate Wheat LAI over Growing Season Regardless of the Soil-Type Background
Unsupervised Plot-Scale LAI Phenotyping via UAV-Based Imaging, Modelling, and Machine Learning
Genotype specific P-spline response surfaces assist interpretation of regional wheat adaptation to climate change
From QTLs to Adaptation Landscapes: Using Genotype-To-Phenotype Models to Characterize G×E Over Time
Combining Crop Growth Modeling and Statistical Genetic Modeling to Evaluate Phenotyping Strategies
Assessment of traits related with water productivity in the Australian wheatbelt using an improved version of the APSIM-Wheat model.
Assessment of traits related with water productivity in the Australian wheatbelt using an improved version of the APSIM-Wheat model.
The Value of Tactical Adaptation to El Niño–Southern Oscillation for East Australian Wheat
Direct and Indirect Costs of Frost in the Australian Wheatbelt
Projected impact of future climate on water-stress patterns across the Australian wheatbelt
Assessment of canopy growth and development for three wheat cultivars under different water and nitrogen regimes
Drought in wheat – Past and future trends
Assessment of the Potential Impacts of Wheat Plant Traits across Environments by Combining Crop Modeling and Global Sensitivity Analysis
Velocity of temperature and flowering time in wheat – assisting breeders to keep pace with climate change
Breeding for the future: How to adapt to frost, drought and heat impacts in Australian wheat
Projected impacts of climate change on drought stresses in Australian wheat
Quantification of direct and indirect cost of frost for the Australian wheatbelt
The shifting influence of drought and heat stress for crops in Northeast Australia
Crop modelling to aid crop improvement
Gene-based prediction of heading time to target real-time and future climate adaptation in wheat
Predicting heading date and frost impact in wheat across Australia
Frost trends and their estimated impact on yield in the Australian wheatbelt
Breeding for the future: How to adapt to potential impacts of future frost, drought and heat events on Australian wheat?
Breeding for the future – avoiding climate extremes and maximising yield of spring wheat in water-limited environments
Role of genotypic variation in response to increasing temperatures in wheat
Using gene-based information to adapt wheat flowering time to avoid heat, frost and drought stresses in current and future climates
Wheat response to drought and heat - Using crop modelling to prepare for the future
Breeding for the future: what are the potential impacts of future frost and heat events on sowing and flowering time requirements for Australian bread wheat (Triticum aestivium) varieties?
Crop improvement, ideotyping and modelling under climate change
Frost and heat limits to the wheat flowering ‘window’ in present and future climates
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