Roots are essential for plant growth, but traditional methods of studying roots are resource-intensive and damaging. With advancements in image processing techniques, innovative methods for in situ ...

Plant roots influence many ecological and biogeochemical processes, such as carbon, water and nutrient cycling. Because of difficult accessibility, knowledge on plant root growth dynamics in field ...

Climate change stresses severely limit crop yields, with root traits playing a vital role in stress tolerance, thus highlighting the importance of root phenotyping for crop improvement. Recent ...

Accurate segmentation of root system architecture (RSA) from 2D images is an important step in studying phenotypic traits of root systems. Various approaches to image segmentation exist but many of ...

As part of an investigation to boost agricultural yields and develop crops that are resilient to climate change, Berkeley Lab scientists have introduced RhizoNet, a computational tool that harnesses ...

Roots are essential for plant growth, but traditional methods of studying roots are resource-intensive and damaging. With advancements in image processing techniques, innovative methods for in situ ...

Climate change stresses severely limit crop yields, with root traits playing a vital role in stress tolerance, thus highlighting the importance of root phenotyping for crop improvement. Recent ...