Directional effect of canopy scale sun-induced chlorophyll fluorescence: Theoretical Consideration in A3-D radiative transfer model
Bidirectional sun-induced chlorophyll fluorescence was quantified by the three dimensional radiative transfer model (FLiES). The results suggested that the canopy scale chlorophyll fluorescence was highly variable with respect to the observation angles. The contribution of multiple scattering depend...
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| Published in | 2015 IEEE International Geoscience and Remote Sensing Symposium (IGARSS) pp. 3413 - 3415 |
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| Main Author | |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
01.07.2015
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| Subjects | |
| Online Access | Get full text |
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| Abstract | Bidirectional sun-induced chlorophyll fluorescence was quantified by the three dimensional radiative transfer model (FLiES). The results suggested that the canopy scale chlorophyll fluorescence was highly variable with respect to the observation angles. The contribution of multiple scattering depends on the wavelength and a larger scattering contribution was found in the near infrared. Thus, the relationship between satellite-observed SIF and photosynthesis varies with sun and observation geometries. These results suggest that the SIFs observed from satellites are necessary to standardize by applying the correction of bi-directional effect. |
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| AbstractList | Bidirectional sun-induced chlorophyll fluorescence was quantified by the three dimensional radiative transfer model (FLiES). The results suggested that the canopy scale chlorophyll fluorescence was highly variable with respect to the observation angles. The contribution of multiple scattering depends on the wavelength and a larger scattering contribution was found in the near infrared. Thus, the relationship between satellite-observed SIF and photosynthesis varies with sun and observation geometries. These results suggest that the SIFs observed from satellites are necessary to standardize by applying the correction of bi-directional effect. |
| Author | Kobayashi, Hideki |
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| Snippet | Bidirectional sun-induced chlorophyll fluorescence was quantified by the three dimensional radiative transfer model (FLiES). The results suggested that the... |
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| StartPage | 3413 |
| SubjectTerms | chlorophyll fluorescence Fluorescence Photonics radiative transfer Satellites Scattering Solid modeling Spectral analysis Sun |
| Title | Directional effect of canopy scale sun-induced chlorophyll fluorescence: Theoretical Consideration in A3-D radiative transfer model |
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