Using non-photochemical quenching of chlorophyll a fluorescence to assess the light climate and growth rate of the cyanobacterium Anabaena circinalis

The possibility of using non-photochemical chlorophyll a fluorescence quenching analysis to indicate the prior light climate and to estimate the growth rate of A. circinalis cultures grown under a range of light regimes was examined. It was found that the degree of non-photochemical quenching measur...

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Bibliographic Details
Published in:European journal of phycology 2003-05, Vol.38 (2), p.113-122
Main Authors: Green, Damian W., Oliver, Roderick L.
Format: Article
Language:English
Subjects:
Anabaena circinalis
chlorophyll a fluorescence
cyanobacteria
growth
light
state transitions
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Summary:The possibility of using non-photochemical chlorophyll a fluorescence quenching analysis to indicate the prior light climate and to estimate the growth rate of A. circinalis cultures grown under a range of light regimes was examined. It was found that the degree of non-photochemical quenching measured following 9-12 h of darkness, q N (dark), was higher in cultures grown at a high total daily light dose (TDLD). This parameter was able to track large daily changes in TDLD, even in cultures exposed to diel light/dark cycles. The level of (dark) was influenced by changes to both the minimum (F o ′) and maximum (F M ′) levels of fluorescence. The relative change in F o ′ after dark incubation increased with growth irradiance, whereas the relative change in F M ′ after dark incubation saturated at moderate growth irradiances, showing a close relationship with cell growth. We observed that the relative change in F M ′ after dark incubation could distinguish between A. circinalis receiving the same TDLD but having different growth rates due to a difference in light regime. It is suggested that these fluorescence parameters may be suitable for estimating the TDLD and gross growth rate of A. circinalis in field environments, and therefore could be used to determine relative importance of light and loss factors in the formation and decline of cyanobacterial blooms.
ISSN:0967-0262
1469-4433
DOI:10.1080/0967026031000085850