LK-1860 Field Track Type High-Throughput Plant Phenotype Monitoring System

LK-1860 field track-type high-throughput plant phenotype monitoring system is a long-term continuous dynamic monitoring of plant phenotypes under the gene*environment interactions presenting the characteristics of spatial and temporal dynamic changes, the development of a long-term continuous dynamic monitoring of plant phenotypes of the field track-type phenotype monitoring equipment, including the hardware module and the control module and software analysis module. The hardware module is based on an expandable embedded development board, which can be equipped with sensor submodules such as LIDAR, RGB camera, multispectral camera, thermal imaging camera and chlorophyll fluorescence, to achieve the continuous measurement of organ-scale phenotypic characteristics and physiological parameter changes in the growing process of crops in the field environment, and to carry out the phenotypic high throughput analysis of physiological traits such as photosynthesis efficiency, stress and stress resistance, as well as screening and generating chlorophyll fluorescence, and the phenotypic high throughput analysis and screening of stress-tolerant varieties. It can be used for high throughput analysis of phenotypes and screening of stress-tolerant varieties, such as photosynthetic efficiency and stress resistance, and generates data such as chlorophyll fluorescence, temperature, and vegetation index, which are widely used in wheat, rice, maize, soybean, cotton, and oilseed rape.

Main Parameters

Main Configuration

• imaging unit type: multi-sensor, optional RGB, multi-spectral, thermal imaging, and chlorophyll fluorescence imaging
• software: online control, original image data storage, image processing, data analysis and storage

Main performance parameters

• Working temperature: -10℃~60℃;
• data acquisition frequency: adjustable
• Operating range: can be customised according to requirements
• Flux: 24-hour continuous monitoring of plants in the coverage area
• data format: Ply 3D point cloud, jpg, tif and other file formats

Measurable parameters:

• Morphological phenotypic parameters: plant height, leaf area, canopy cover, leaf inclination, total green leaf area, total yellow leaf area, green leaf area ratio, leaf senescence degree, etc.
• Physiological phenological parameters: NDVI, CIgreen and other physiologically relevant vegetation indices such as chlorophyll/nitrogen content.
• canopy temperature parameters: canopy temperature, canopy temperature difference, etc. Chlorophyll fluorescence parameters: Fv/Fm, ΦPSII, etc.