Interacting Effects of Light and Iron Availability on the Coupling of Photosynthetic Electron Transport and CO2-Assimilation in Marine Phytoplankton

Iron availability directly affects photosynthesis and limits phytoplankton growth over vast oceanic regions. For this reason, the availability of iron is a crucial variable to consider in the development of active chlorophyll a fluorescence based estimates of phytoplankton primary productivity. Thes...

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Veröffentlicht in:	PloS one 2015-07, Vol.10 (7), p.e0133235-e0133235
Hauptverfasser:	Schuback, Nina, Schallenberg, Christina, Duckham, Carolyn, Maldonado, Maria T, Tortell, Philippe D
Format:	Artikel
Sprache:	eng
Schlagworte:	Assimilation Atmospheric sciences Availability Biological assimilation Carbon Carbon - metabolism Carbon Cycle - physiology Carbon dioxide Carbon Dioxide - metabolism Carbon fixation Chlorophyll Chlorophyll - metabolism Conversion Coupling Decoupling Electron transport Electron Transport - physiology Electrons Environment Environmental conditions Experiments Fluorescence Iron Iron - metabolism Irradiance Laboratories Light Light effects Oceans and Seas Photochemicals Photosynthesis Photosynthesis - physiology Photosystem Photosystem II Photosystem II Protein Complex - metabolism Photosystem II Protein Complex - physiology Physiology Phytoplankton Phytoplankton - metabolism Phytoplankton - physiology Plankton Productivity Quenching Studies Taxa Taxonomy
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creator	Schuback, Nina Schallenberg, Christina Duckham, Carolyn Maldonado, Maria T Tortell, Philippe D
description	Iron availability directly affects photosynthesis and limits phytoplankton growth over vast oceanic regions. For this reason, the availability of iron is a crucial variable to consider in the development of active chlorophyll a fluorescence based estimates of phytoplankton primary productivity. These bio-optical approaches require a conversion factor to derive ecologically-relevant rates of CO2-assimilation from estimates of electron transport in photosystem II. The required conversion factor varies significantly across phytoplankton taxa and environmental conditions, but little information is available on its response to iron limitation. In this study, we examine the role of iron limitation, and the interacting effects of iron and light availability, on the coupling of photosynthetic electron transport and CO2-assimilation in marine phytoplankton. Our results show that excess irradiance causes increased decoupling of carbon fixation and electron transport, particularly under iron limiting conditions. We observed that reaction center II specific rates of electron transport (ETR(RCII), mol e- mol RCII(-1) s(-1)) increased under iron limitation, and we propose a simple conceptual model for this observation. We also observed a strong correlation between the derived conversion factor and the expression of non-photochemical quenching. Utilizing a dataset from in situ phytoplankton assemblages across a coastal--oceanic transect in the Northeast subarctic Pacific, this relationship was used to predict ETR(RCII): CO2-assimilation conversion factors and carbon-based primary productivity from FRRF data, without the need for any additional measurements.
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subjects	Assimilation Atmospheric sciences Availability Biological assimilation Carbon Carbon - metabolism Carbon Cycle - physiology Carbon dioxide Carbon Dioxide - metabolism Carbon fixation Chlorophyll Chlorophyll - metabolism Conversion Coupling Decoupling Electron transport Electron Transport - physiology Electrons Environment Environmental conditions Experiments Fluorescence Iron Iron - metabolism Irradiance Laboratories Light Light effects Oceans and Seas Photochemicals Photosynthesis Photosynthesis - physiology Photosystem Photosystem II Photosystem II Protein Complex - metabolism Photosystem II Protein Complex - physiology Physiology Phytoplankton Phytoplankton - metabolism Phytoplankton - physiology Plankton Productivity Quenching Studies Taxa Taxonomy
title	Interacting Effects of Light and Iron Availability on the Coupling of Photosynthetic Electron Transport and CO2-Assimilation in Marine Phytoplankton
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