A new metabolic model identifies the genetic basis of salt stress resilience in plants.

A new tool generates images of stomata that improve the accuracy of stomal detection by deep learning models.

A new model of hazelnut enhances our understanding of its growth and development.

Researchers develop innovative techniques to track plant aging

Researchers use a functional-structural plant model to analyze how architectural and physiological traits affect nitrogen uptake and physiological efficiency.

Scientists create a computational model to uncover the role of metabolites in the vacuole fusion process.

MODELBARK provides valuable insights into the dynamics of bark formation through computer simulations.

Researchers improve model prediction accuracy by closing existing data gaps.

A new study reveals that a simple block model can achieve comparable results to complex models in assessing light interception for maize

Recent research emphasizes the critical role of photoprotection mechanisms in helping plants cope with excess light, which can impair photosynthesis.

A new interactive tool is helping South American soybean growers make smarter planting decisions.

There is a complex relationship between leaf area index and yield, which is influenced by an intricate interplay of genetic, environmental, and management factors.