Scalable Phenotyping with the LemnaTec CropScore System
The LemnaTec CropScore phenotyping system is an array of stationary cameras distributed in the growth area. The LemnaTec CropScore phenotyping system is powered by Computomics GmbH, Tübingen, Germany.
The CropScore system combines plant phenotyping capabilities by LemnaTec with the expertise in machine learning and high-performance computing by Computomics.
CropScore provides scalable, high throughput phenotyping using a large array of phenotyping camera pods, coupled to a central control and analysis system, and accessed via an easy to use web interface.
So far, phenotyping technologies have not kept pace with next-generation sequencing (NGS) and analysis. The full potential of NGS will not be realized without equivalent advances in high-throughput phenotyping. Thus, introducing CropScore, LemnaTec and Computomics bridge the gap in genome-phenome-relations.
Key advantages are:
- No downtime: Phenotype hundreds to millions of plants frequently and simultaneously without moving parts or displacing them from growing conditions
- Avoid expensive structural work: retrofit existing greenhouses, growth chambers or incubators
- Scale according to your project: customize repeatable, consistent image analysis for important traits
- Significant cost savings: no manual and human intervention saves up to 70% of costs over the course of five years
CropScore is our scalable phenotyping solution that can be installed right where your plants grow: in your existing greenhouses, climate growth chambers, or incubators. There are no moving parts and no movement of plants, so measurements can be taken simultaneously and frequently. Our system blankets your entire growth space with personal imaging units. With our easy-to-use web interface for storage and analysis, you can compare image datasets over time to get a long-term overview. CropScore provides you with the consistent, repeatable results that you need to quantify the traits you care about.
CropScore technical features and operation principle
How to apply CropScore in plant R & D?
- Plants placed on tables, in trays, racks, on the floor, or directly in the ground
- Camera-pods – small cameras coupled with miniature computers placed above the plants
- Camera-plant distance and viewangle (= field of view) determine the amount of plants monitored by one camera-pod
- Number of camera-pods is selected by field of view per camera and the overall area to monitor
- Camera-pods transfer the images to a server (cloud or local)
- Analysis takes place on the server – phenotypic parameters are extracted from the images
- Time-course data per plant
- Data visualisation and export