We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Different Responses of Solar-Induced Chlorophyll Fluorescence at the Red and Far-Red Bands and Gross Primary Productivity to Air Temperature for Winter Wheat.
- Authors
Chen, Jidai; Liu, Xinjie; Yang, Guijun; Han, Shaoyu; Ma, Yan; Liu, Liangyun
- Abstract
Solar-induced chlorophyll fluorescence (SIF) is closely related to the light-reaction process and has been recognized as a good indicator for tracking gross primary productivity (GPP). Nevertheless, it has not been widely examined how SIF and GPP respond to temperature. Here, we explored the linkage mechanisms between SIF and GPP in winter wheat based on continuous measurements of canopy SIF ( c S I F ), GPP, and meteorological data. To separately explore the structural and physiological mechanisms underlying the SIF–GPP relationship, we studied the temperature responses of the estimated light use efficiency ( L U E p ), canopy-level chlorophyll fluorescence yield ( c S I F y i e l d ) and photosystem-level chlorophyll fluorescence yield ( Φ F ) estimated using canopy-scale remote sensing measurements. We found that GPP, red canopy SIF ( c S I F 688 ) and far-red canopy SIF ( c S I F 760 ) all exhibited a decreasing trend during overwintering periods. However, GPP and c S I F 688 showed relatively more obvious changes in response to air temperature ( T a ) than c S I F 760 did. In addition, the L U E p responded sensitively to T a (the correlation coefficient, r = 0.83, p-value < 0.01). The c S I F y i e l d _ 688 and Φ F _ 688 ( Φ F at 688 nm) also exhibited significantly positive correlations with T a (r > 0.7, p-value < 0.05), while c S I F y i e l d _ 760 and Φ F _ 760 ( Φ F at 760 nm) were weakly correlated with T a (r < 0.3, p-value > 0.05) during overwintering periods. The results also show that L U E p was more sensitive to T a than Φ F , which caused changes in the L U E p / Φ F ratio in response to T a . By considering the influence of T a , the GPP estimation based on the total SIF emitted at the photosystem level ( t S I F ) was improved (with R2 increased by more than 0.12 for t S I F 760 and more than 0.05 for t S I F 688 ). Therefore, our results indicate that the L U E p / Φ F ratio is affected by temperature conditions and highlights that the SIF–GPP model should consider the influence of temperature.
- Subjects
WINTER wheat; ATMOSPHERIC temperature; FLUORESCENCE yield; CHLOROPHYLL spectra; REMOTE sensing; PHYSIOLOGY
- Publication
Remote Sensing, 2022, Vol 14, Issue 13, p3076
- ISSN
2072-4292
- Publication type
Article
- DOI
10.3390/rs14133076