model

Using gene-based information to adapt wheat flowering time to avoid heat, frost and drought stresses in current and future climates
Varying the timing of reproductive stages of growth relative to climatic stresses is a useful adaptation to maintain yields. In future …
Project
Quantification of the effects of VRN1 and Ppd-D1 to predict spring wheat (Triticum aestivum) heading time across diverse environments
Heading time is a major determinant of the adaptation of wheat to different environments, and is critical in minimizing risks of frost, …
Project DOI
Frost situation
Frost situation analysis in Australia
Association genetics for earliness components and QTL-based ecophysiological predictions of heading date provide tools to optimize heading date through breeding
Project
Maize model
Functional-structural maize model based on the source-sink limited growth of kernel
National adaptation
National adaptation Assessment: Adaptation Value in Wheat & Grazing farm systems
Root Nitrogen
Quantification of nitrogen absorption mechanism of maize using three-dimensional root-soil model
Scots Pine
Modelling three-dimensional growth of Natural Mongolian Scots pine forest and its application to estimate carbon sequestration potential
Wheat flowering
Genetics and physiology of wheat development to flowering: tools to breed for improved adaptation and yield potential
Assessment of the influence of global dimming on the photosynthetic production of rice based on three-dimensional modeling
Observations indicate that global radiation reaching the Earth’s surface has gradually decreased over the past several decades (i.e., …
DOI