Combining near-infrared radiance of vegetation and fluorescence spectroscopy to detect effects of abiotic changes and stresses

Zeng, Yelu; Chen, Min; Hao, Dalei; Damm, Alexander; Badgley, Grayson; Rascher, Uwe; Johnson, Jennifer E; Dechant, Benjamin; Siegmann, Bastian; Ryu, Youngryel; Qiu, Han; Krieger, Vera; Panigada, Cinzia; Celesti, Marco; Miglietta, Franco; Yang, Xi; Berry, Joseph A

doi:10.5167/uzh-228687

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Zeng, Y., Chen, M., Hao, D., Damm, A., Badgley, G., Rascher, U., Johnson, J. E., Dechant, B., Siegmann, B., Ryu, Y., Qiu, H., Krieger, V., Panigada, C., Celesti, M., Miglietta, F., Yang, X., & Berry, J. A. (2022). Combining near-infrared radiance of vegetation and fluorescence spectroscopy to detect effects of abiotic changes and stresses. Remote Sensing of Environment, 270, 112856. https://doi.org/10.1016/j.rse.2021.112856

Abstract

Solar-induced chlorophyll fluorescence (SIF) shows great potential to assess plants physiological state and response to environmental changes. Recently the near-infrared reflectance of vegetation (NIRv) provides a promising way to quantify the confounding effect of canopy structure in SIF, while the difference between SIF and NIRv under varying environmental conditions has not been well explored. Here we developed a simple approach to extract the fluorescence yield (ΦF) by the combined use of SIF and the near-infrared radiance of vege