2. Phenotyping Plant Responses to Biotic Stress by Chlorophyll Fluorescence Imaging
(https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2019.01135/full)
3. SIF Learn a New Approach to Remote Sensing of Vegetation (NASA, March 3, 2021)
(https://appliedsciences.nasa.gov/our-impact/news/solar-induced-fluorescence-learn-new-approach-remote-sensing-vegetation)
4. Sentinel-5P+ Innovation SIF (https://eo4society.esa.int/projects/sentinel-5p-innovation-solar-induced-chlorophyll-fluorescence-sif/)
Scientific Papers
(1) The influence of plant water stress on vegetation-atmosphere exchanges: Implications for ozone modelling (Emmerichs T.; Lu Y.-S.; Taraborrelli D., Biogeosciences (2024))
(2) An Operational Downscaling Method of Solar-Induced Chlorophyll Fluorescence (SIF) for Regional Drought Monitoring (Hong Z., Hu Y., Cui C., Yang X., Tao C., Luo W., Zhang W., Li L., Meng L., Agriculture (Switzerland) (2022))
(3) TROPOMI SIF reveals large uncertainty in estimating the end of plant growing season from vegetation indices data in the Tibetan Plateau (Yang J., Xiao X., Doughty R., Zhao M., Zhang Y., Köhler P., Wu X., Frankenberg C., Dong J., Remote Sensing of Environment (2022))
5. Google AI Overview
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