Salt Stress
Overview
Salt stress affects osmotic balance, ion homeostasis, metabolism, and growth. Phenotyping under controlled salinity levels supports identification of tolerant genotypes and mechanistic studies of ion toxicity.
1. Salinity tolerance screening across genotypes
2. Comparing osmotic vs. ionic stress phases
3. Studying seedling responses under varying EC levels
4. Evaluating root–shoot signaling in salinity adaptation
5. Modeling biomass loss and recovery potential
Recommended Solutions
High-Throughput Phenotyping System
- Automated, time-series imaging of salt stress
- Multi-trait analysis (growth, leaf, biomass)
- Standardized data for large genotype panels
Root Phenotyping System
- Root growth and architecture under salinity
- Root–shoot allocation and ion tolerance
- Integrated below- and above-ground responses
Gantry-Based Phenotyping Platform
- Large-scale salt-stress imaging
- Multi-angle / 3D structural analysis
- Consistent data for G×E studies
Why Our System Fits This Application
Precise control and reproducibility of water deficit treatments
Time-series imaging for dynamic monitoring of growth and morphology
High-throughput screening of large genotype populations
Integration of root and shoot traits for holistic assessment
Automated, objective, and standardized measurements
Targeted evaluation of reproductive traits and seed yield under drought