Plants must maintain a balance between absorbing more CO2 for photosynthesis and reducing water consumption caused by transpiration, and stomata are the key to this process, so much so that plant stomata and their behavior profoundly affect global CO2 and water fluxes. Given the important role played by stomata in plant water use efficiency (WUE), water cycle, photosynthesis, and productivity (manifested as crop yield in agriculture), plant stomata have become important targets for biotechnology, genetic breeding, genomics and phenomics, and ecological research. The response of plants to various environmental stress factors, especially drought stress, heat stress, etc., can cause changes in stomatal conductance and other behaviors. Any changes in stomatal behavior, such as closure or opening degree (stomatal conductance), will be manifested as changes in plant temperature. Therefore, the spatiotemporal changes in plant leaf and canopy temperatures have become a "diagnostic" for scientists to observe and study plant physiology, ecology, photosynthesis, genetics and breeding WUE、 One of the most important data sources for plant stress and stress resistance, infrared thermography technology has become the most important research tool.

Yiketai Ecological Technology Company provides the world's most advanced plant infrared thermal imaging technology solution:

1)From Ground-based to UAV-based, from a leave to plant canopy to a landscape

2) High spatial resolution: 640x512 bits

3) High temperature resolution: 0.03 ° C

4) The sensor has been calibrated and has a calibration certificate

5) Each pixel has multidimensional data: position information, time information, and temperature information. The data information of each pixel can be downloaded to an Excel spreadsheet

6) Points, lines, and surfaces can be freely selected and displayed with the highest temperature, lowest temperature, average temperature, and temperature distribution

7) Comprehensive solutions for laboratory, field ground observation, and unmanned aerial vehicle infrared thermal imaging remote sensing

8) It can be integrated with FluorCam chlorophyll fluorescence imaging technology to comprehensively measure and analyze the relationship between plant photosynthetic efficiency, stomatal conductance, and WUE, and analyze and calculate endogenous water use efficiency of plants.

technical indicators

·Resolution: 640 * 512 pixels

·Sensitivity: 0.03 ℃ (30mK)

·Temperature range: -25 ° C...+150 ° C/-40 ° C...+550 ° C/+1 500 ° C with filter

·Accuracy: ± 2 ° C or ± 2%

·Frame rate: 9Hz

·Spectral range: 7.5-13.5 μ m

·Optional lens: 7.5mm-100mm

·Power supply: via USB3 cable or PoE (GigE type WIC)

·Communication: USB3 or GigE

·Analog video: PAL, NTSC (USB3 type WIC)

· SDK：Windows，Linuxx86，Linux ARM，Labview SDK，Matlab Simulink SDK，Dewesoft SDK

·Calibration: Yes (with certification)

Optionallens

Origin: Europe