Yiketai launches a comprehensive technical solution for measuring canopy phenotype traits and ecological monitoring

lChlorophyll fluorescence imaging, multispectral fluorescence imaging

l SpectraScan ©Near Earth Remote Sensing Technology

lEcoDrone ®Unmanned aerial vehicle remote sensing technology

lSpecimHyperspectral imaging technology

lRGBMulti spectral imaging technology

lInfrared thermal imaging technology

lHigh throughput, non-invasive

Yiketai Ecological Technology Company adopts international advanced spectral imaging technology, launches innovative application research and development of SpectraAPP spectral imaging, and launches a comprehensive technical solution for canopy ecological monitoring and phenotype measurement analysis:

lAnalysis of canopy phenotype

l3D monitoring of canopy ecology

lPhotosynthesis, Physiology, and Ecology

lPhysiological and biochemical measurement analysis of canopy

lDisease and pest detection, stress physiological ecology, and resistance screening

lLUEAnalysis of Light Energy Utilization Efficiency and Water Use Efficiency (WUE)

lResearch on crop genetics and breeding, photobiology, and monitoring of forest ecology/grassland ecology/wetland ecology

Left image: Chlorophyll fluorescence imaging analysis (quoted from Henning Tschierschd et al, Establishment of integrated protocols for automated high throughput kinetic chlorophyll fluorescence analyses. Plant Method 2017）； Right image: Multispectral fluorescence imaging (quoted from Carmen M. et al, Fluorescence imaging in the red and far-red region during growth of Sunflower plantlets. Diagnosis of the early infection by the Parasite Orobanche Cumana. Frontiers in Plant Science, 2016）

The FluorCam-R mobile chlorophyll fluorescence imaging system is shown in the upper left image; Top middle image: PlantScreen-R mobile phenotype analysis platform (chlorophyll fluorescence imaging, RGB imaging, etc.); Upper right image: Chlorophyll fluorescence imaging of wheat canopy. Figure below: PlantScreen Field Field Large Crop Phenotype Analysis Platform (Integrated Chlorophyll Fluorescence Technology, RGB Imaging, Hyperspectral Imaging, 3D Laser Scanning, etc.)

Left and middle images: Thermo-RGB fusion analysis, which can classify, measure and analyze crop canopy sunlight exposure, shadow leaf area, temperature and color grading, etc. (provided by Ecolab Laboratory of Yiketai Ecological Technology Company); Right figure: Water use efficiency, nitrogen content, and canopy temperature (quoted from Mehmet Senbayram et al, Daytime leaf water use efficiency does not explain the relationship between plant N status and biomass water-use efficiency of tobacco under non-limiting water supply. J. Plant Nutr. Soil Sci. 2015）

Hyperspectral imaging analysis of soybean canopy (provided by Ecolab Laboratory of Yiketai Ecological Technology Company): The upper left image shows the spectral characteristics analysis of leaves exposed to sunlight and shaded leaves, while the upper right image shows the segmentation analysis of pods (green) and leaves (red); The left figure below shows PRI analysis (reflecting light use efficiency), and the right figure below shows WBI analysis (reflecting moisture distribution)

Left: Datian Robot Phenotype Analysis Platform; Right image: SpectraScan field crop canopy traits and ecological monitoring platform