Chlorophyll fluorescence as a proxy for microphytobenthic biomass: alternatives to the current methodology

Chlorophyll fluorescence as a proxy for microphytobenthic biomass: alternatives to the current methodology

Pulse amplitude modulated (PAM) fluorescence has been used as a proxy of microphytobenthic biomass after a dark adaptation period of 15 min to stabilise the minimum fluorescence yield (F o 15). This methodology was investigated for in situ migratory and ex situ engineered non-migratory biofilms, com...

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Bibliographic Details
Published in:Marine biology Vol. 150; no. 1; pp. 17 - 28
Main Authors: Jesus, B, Perkins, R G, Mendes, C R, Brotas, V, Paterson, D M
Format: Journal Article
Language:English
Published: Heidelberg Springer Nature B.V 01-10-2006
Subjects:
Biofilms
Biomass
Chlorophyll
Fluorescence
Light
Marine biology
Photochemicals
Online Access:Get full text
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Summary:Pulse amplitude modulated (PAM) fluorescence has been used as a proxy of microphytobenthic biomass after a dark adaptation period of 15 min to stabilise the minimum fluorescence yield (F o 15). This methodology was investigated for in situ migratory and ex situ engineered non-migratory biofilms, comparing dark adaptation to low (5% ambient) and far-red light treatments over different emersion periods. Far-red and low light reduced potential errors resulting from light history effects, by reversal of non-photochemical quenching after 5 min of treatment, compared to over 10 min required by conventional dark adaptation. An in situ decline of minimum fluorescence yield over 15 min was observed during the dark adaptation for migratory biofilms, but was not observed in the non-migratory biofilms indicating that the major cause of decline was downward vertical migration of cells into the sediment. This pattern occurred in far-red light after 10 min, but not for the low light treatment, indicating that low light maintained the biomass at the surface of the sediment. It is therefore concluded that low light treatment is a better option than conventional dark adaptation for the measurement of minimum fluorescence as a proxy of microphytobenthic biomass. [PUBLICATION ABSTRACT]
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ISSN:0025-3162
1432-1793
DOI:10.1007/s00227-006-0324-2