2017
DOI: 10.1071/fp17024
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Relative functional and optical absorption cross-sections of PSII and other photosynthetic parameters monitored in situ, at a distance with a time resolution of a few seconds, using a prototype light induced fluorescence transient (LIFT) device

Abstract: . (2017). Relative functional and optical absorption cross-sections of PSII and other photosynthetic parameters monitored in situ, at a distance with a time resolution of a few seconds, using a prototype light induced fluorescence transient (LIFT) device. Functional Plant Biology: an international journal of plant function, 44 (10), 985-1006 See next page for additional authorsRelative functional and optical absorption cross-sections of PSII and other photosynthetic parameters monitored in situ, at a distance … Show more

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Cited by 42 publications
(70 citation statements)
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“…All parameters and symbols in this study match the conventional PAM terminology, with the LIFT data being marked by a Q A or PQ to denote the source of the fluorescence data from either the Q A or PQ flashes described previously [22]. Maximum photochemical yield of photosystem II was calculated as:…”
Section: Calculation Of Photosynthetic Parametersmentioning
confidence: 99%
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“…All parameters and symbols in this study match the conventional PAM terminology, with the LIFT data being marked by a Q A or PQ to denote the source of the fluorescence data from either the Q A or PQ flashes described previously [22]. Maximum photochemical yield of photosystem II was calculated as:…”
Section: Calculation Of Photosynthetic Parametersmentioning
confidence: 99%
“…The LIFT instrument was operated with a non-invasive flash cycle (termed Q A flash) [22] with an SQ A phase consisting of 300 flashlets separated by a 1.6 µs delay (~3 ms) and an RQ A phase consisting of 90 flashlets with an exponential increase in the 1.6 µs delay described by an exponential term of 0.5 (~300 ms). To obtain dark adapted reference Fm values, for the calculation of YNPQ and YNO, a modified flash cycle (termed PQ flash) with an SQ A phase consisting of 6000 flashlets with a 20 µs delay and an RQ A phase identical to the Q A flash (~700 ms) was used [22]; see supplementary material, Figure S1 for comparison of the Q A and PQ flash to PAM.…”
Section: Fluorescence Measurements and Instrument Descriptionmentioning
confidence: 99%
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