Low-Cost Chlorophyll Fluorescence Imaging for Stress Detection

Plants naturally contain high levels of the stress-responsive fluorophore chlorophyll. Chlorophyll fluorescence imaging (CFI) is a powerful tool to measure photosynthetic efficiency in plants and provides the ability to detect damage from a range of biotic and abiotic stresses before visible symptoms occur. However, most CFI systems are complex, expensive systems that use pulse amplitude modulation (PAM) fluorometry. Here, we test a simple CFI system, that does not require PAM fluorometry, but instead simply images fluorescence emitted by plants. We used this technique to visualize stress induced by the photosystem II-inhibitory herbicide atrazine. After applying atrazine as a soil drench, CFI and color images were taken at 15-minute intervals, alongside measurements from a PAM fluorometer and a leaf reflectometer. Pixel intensity of the CFI images was negatively correlated with the quantum yield of photosystem II (ΦPSII) (p < 0.0001) and positively correlated with the measured reflectance in the spectral region of chlorophyll fluorescence emissions (p < 0.0001). A fluorescence-based stress index was developed using the reflectometer measurements based on wavelengths with the highest (741.2 nm) and lowest variability (548.9 nm) in response to atrazine damage. This index was correlated with ΦPSII (p < 0.0001). Low-cost CFI imaging can detect herbicide-induced stress (and likely other stressors) before there is visual damage.

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A low cost harmonically modulated chlorophyll fluorescence imaging system and frequency domain analysis of chlorophyll fluorescence

10.1109/metroagrifor52389.2021.9628797 ◽

2021 ◽

Author(s):

Dingle Jose

Keyword(s):

Chlorophyll Fluorescence ◽

Frequency Domain ◽

Fluorescence Imaging ◽

Imaging System ◽

Low Cost ◽

Domain Analysis ◽

Frequency Domain Analysis ◽

Chlorophyll Fluorescence Imaging ◽

Fluorescence Imaging System ◽

Modulated Chlorophyll Fluorescence

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Chlorophyll Fluorescence Imaging Analysis for Elucidating the Mechanism of Photosystem II Acclimation to Cadmium Exposure in the Hyperaccumulating Plant Noccaea caerulescens

Materials ◽

10.3390/ma11122580 ◽

2018 ◽

Vol 11 (12) ◽

pp. 2580 ◽

Cited By ~ 19

Author(s):

Gülriz Bayçu ◽

Julietta Moustaka ◽

Nurbir Gevrek ◽

Michael Moustakas

Keyword(s):

Chlorophyll Fluorescence ◽

Quantum Yield ◽

Photosystem Ii ◽

Fluorescence Imaging ◽

Heat Dissipation ◽

Chlorophyll Fluorescence Imaging ◽

Imaging Analysis ◽

Noccaea Caerulescens ◽

Psii Photochemistry ◽

Cd Exposure

We provide new data on the mechanism of Noccaea caerulescens acclimation to Cd exposure by elucidating the process of photosystem II (PSII) acclimation by chlorophyll fluorescence imaging analysis. Seeds from the metallophyte N. caerulescens were grown in hydroponic culture for 12 weeks before exposure to 40 and 120 μM Cd for 3 and 4 days. At the beginning of exposure to 40 μM Cd, we observed a spatial leaf heterogeneity of decreased PSII photochemistry, that later recovered completely. This acclimation was achieved possibly through the reduced plastoquinone (PQ) pool signaling. Exposure to 120 μM Cd under the growth light did not affect PSII photochemistry, while under high light due to a photoprotective mechanism (regulated heat dissipation for protection) that down-regulated PSII quantum yield, the quantum yield of non-regulated energy loss in PSII (ΦNO) decreased even more than control values. Thus, N. caerulescens plants exposed to 120 μM Cd for 4 days exhibited lower reactive oxygen species (ROS) production as singlet oxygen (1O2). The response of N. caerulescens to Cd exposure fits the ‘Threshold for Tolerance Model’, with a lag time of 4 d and a threshold concentration of 40 μM Cd required for the induction of the acclimation mechanism.

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Simultaneous Measurement of Stomatal Conductance, Non-photochemical Quenching, and Photochemical Yield of Photosystem II in Intact Leaves by Thermal and Chlorophyll Fluorescence Imaging

Plant and Cell Physiology ◽

10.1093/pcp/pcg165 ◽

2003 ◽

Vol 44 (12) ◽

pp. 1290-1300 ◽

Cited By ~ 63

Author(s):

Kenji Omasa ◽

Kotaro Takayama

Keyword(s):

Chlorophyll Fluorescence ◽

Stomatal Conductance ◽

Photosystem Ii ◽

Fluorescence Imaging ◽

Simultaneous Measurement ◽

Chlorophyll Fluorescence Imaging ◽

Photochemical Quenching ◽

Photochemical Yield ◽

Intact Leaves ◽

Non Photochemical Quenching

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Modification of a gas exchange system to measure active and passive chlorophyll fluorescence simultaneously under field conditions

AoB Plants ◽

10.1093/aobpla/plaa066 ◽

2020 ◽

Author(s):

Eliot W Meeker ◽

Troy S Magney ◽

Nicolas Bambach ◽

Mina Momayyezi ◽

Andrew J McElrone

Keyword(s):

Chlorophyll Fluorescence ◽

Steady State ◽

Gas Exchange ◽

Near Infrared ◽

Pulse Amplitude ◽

Bottom Plate ◽

Pam Fluorometer ◽

Promising Tool ◽

Leaf Level ◽

Gas Exchange System

Abstract Solar-induced fluorescence (SIF) is a promising tool to estimate photosynthesis across scales; however, there has been limited research done at the leaf-level to investigate the relationship between SIF and photosynthesis. To help bridge this gap, a LI-COR LI-6800 gas exchange instrument was modified with a visible-near-infrared (VIS-NIR) spectrometer to measure active and passive fluorescence simultaneously. The system was adapted by drilling a hole into the bottom plate of the leaf chamber and inserting a fiber-optic to measure passive steady-state fluorescence (Ft,λ, analogous to SIF) from the abaxial surface of a leaf. This new modification can concurrently measure gas exchange, passive fluorescence, and active fluorescence over the same leaf area and will allow researchers to measure leaf-level Ft,λ in the field to validate tower-based and satellite measurements. To test the modified instrument, measurements were performed on leaves of well-watered and water stressed walnut plants at three light-levels and a constant air temperature. Measurements on these same plants were also conducted using a similarly modified Walz GFS-3000 gas exchange instrument to compare results. We found a positive linear correlation between Ft,λ measurements from the modified LI-6800 and GFS-3000 instruments. We also report a positive linear relationship between Ft,λ and normalized steady-state chlorophyll fluorescence (Ft/Fo) from the pulse-amplitude modulation (PAM) fluorometer of the LI-6800 system. Accordingly, this modification will inform the link between spectrally resolved Ft,λ and gas-exchange – leading to improved interpretation of how remotely sensed SIF tracks changes in the light reactions of photosynthesis.

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