High Throughput Root Analysis System

RootLangTrans

The Root Phenotyping System is a high-throughput, non-destructive platform designed for quantitative analysis of plant root systems under controlled conditions. By integrating advanced imaging technologies with automated acquisition and AI-driven analysis, the system enables precise characterization of root system architecture (RSA), growth dynamics, and stress-induced responses across diverse crop species.

Application Scenarios

Abiotic Stress Phenotyping

Root System Architecture & Below-ground Phenotyping

Key Traits Measured

Total root length
Maximum root depthRoot number
and branching density
Root angle distribution
Root surface area and volume

Root diameter distribution
Root biomass estimation
Root growth rate (time-series)
Root–environment interaction
indicators (optional)

High-Throughput Root Phenotyping System (Rhizobox)

RootLangTrans Rhizobox

Designed for population-scale root phenotyping, this system uses CIS scanning technology to achieve distortion-free, ultra-high-resolution root imaging. It supports rapid, non-destructive acquisition and automated trait extraction, making it ideal for breeding programs and stress-response studies.

High-Throughput Root Phenotyping System (Rhizotube)

RootLangTrans Rhizotube

This system is optimized for fibrous root systems and three-dimensional root architecture analysis. By combining automated rotation, high-resolution CMOS imaging, and near-infrared modules, it enables multi-angle, non-destructive root phenotyping with strong suitability for long-term experiments.