Effect of water flow on the photosynthesis of three marine macrophytes from a fringing-reef lagoon

We studied the effect of water flow on the reduction of the photosynthetic electron transport rates (ETR) of the seagrassThalassia testudinumand the brown algaeLobophora variegataandPadina sanctae-crucis. The main objective of this study was to contribute to the understanding of the magnitude of car...

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Bibliographic Details
Published in:Marine ecology. Progress series (Halstenbek) 2006-10, Vol.323, p.119-132
Main Authors: ENRIQUEZ, Susana, RODRIGUEZ-ROMAN, Aimee
Format: Article
Language:English
Subjects:
Absorptance
Acclimatization
Animal and plant ecology
Animal, plant and microbial ecology
Biological and medical sciences
Carbon dioxide
Electromagnetic absorption
Enzymes
Fundamental and applied biological sciences. Psychology
Irradiance
Lobophora variegata
Macrophytes
Marine
Padina sanctae-crucis
Photosynthesis
Sea water
Sea water ecosystems
Synecology
Thalassia testudinum
Water flow
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Summary:We studied the effect of water flow on the reduction of the photosynthetic electron transport rates (ETR) of the seagrassThalassia testudinumand the brown algaeLobophora variegataandPadina sanctae-crucis. The main objective of this study was to contribute to the understanding of the magnitude of carbon limitation in a sheltered, shallow coral reef environment, while improving the use of the fluorescence technique. The results confirm that photosynthesis, in the 3 species, is sink limited at normal seawater pH. Considering that the actinic light intensity chosen for the experimental design was close to saturation irradiance for the 3 species, stronger ETR declines are expected under larger carbon requirements at supersaturating irradiance. The results suggest that photosynthesis may be strongly carbon limited in sheltered coral reef environments. Nevertheless, pharmacological experiments revealed the occurrence of carbon concentration mechanisms (CCM) related to: (1) the external presence of the enzyme carbonic anhydrase under very low hydrodynamics, when the diffusive boundary layers stabilize and enzyme losses are minimal (L. variegataandT. testudinum) and (2) the ability to take up HCO₃⁻ (T. testudinumandP. sanctae-crucis). The possibility that the capacity to calcify may be associated with the CCM ofP. sanctae-crucisneeds further testing. These results suggest that photosynthetic organisms adapted to coral reef systems, where calm, cloudless days with minimal water turbulence and maximum light penetration are common, have developed efficient CCMs. The study also supports the utility of the fluorescence technique for the analysis of the photosynthetic response to hydrodynamics within the limits imposed by the linearity between oxygen-based and fluorescence-based photosynthesis determinations. It also emphasizes the importance of light absorption determinations for accurate estimations of ETR values.
ISSN:0171-8630
1616-1599
DOI:10.3354/meps323119