Scientists have discovered how plants adapt their root systems in drought conditions to grow steeper into the soil to access deeper water reserves. The study highlights how ABA and auxin, another key ...

Untreated (left) and mebendazole treated (right) seedling of Arabidopsis thaliana growing on the surface of vertical agar plates. While the root branches of the untreated plant point downwards, ...

Scientists have discovered how plants adapt their root systems in drought conditions to grow steeper into the soil to access deeper water reserves. Plant scientists from the University of Nottingham, ...

Scientists have discovered how plants adapt their root systems in drought conditions to grow steeper into the soil to access deeper water reserves. Scientists have discovered how plants adapt their ...

Scientists have determined how the well-known plant hormone ethylene is crucial in controlling the angle at which roots grow. The findings can be used to engineer plants and crops that withstand the ...