The impact of cell-specific absorption properties on the correlation of electron transport rates measured by chlorophyll fluorescence and photosynthetic oxygen production in planktonic algae

Photosynthesis–irradiance ( P–E)-curves describe the photosynthetic performance of autotrophic organisms. From these P–E-curves the photosynthetic parameters α-slope, P max, and E k can be deduced which are often used to characterize and to compare different organisms or organisms in acclimation to...

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Published inPlant physiology and biochemistry Vol. 49; no. 8; pp. 801 - 808
Main Authors Blache, Ulrich, Jakob, Torsten, Su, Wanwen, Wilhelm, Christian
Format Journal Article
LanguageEnglish
Published Paris Elsevier Masson SAS 01.08.2011
Elsevier
Subjects
Absorption
absorptivity
acclimation
Bacillariophyceae
Bio-optical properties
Biological and medical sciences
Cellular absorption
Chlorella vulgaris
chlorophyll
Chlorophyll - chemistry
Chlorophyll - metabolism
Chlorophyll fluorometry
Chlorophyta - metabolism
Cyclotella meneghiniana
developmental stages
electron transfer
Electron Transport
Electron transport rates
Eustigmatophyceae
Fluorescence
Fundamental and applied biological sciences. Psychology
Light
Nannochloropsis salina
Optics and Photonics
Oxygen - metabolism
oxygen production
photosynthesis
Photosynthesis - physiology
Photosynthesis–irradiance curves
phytoplankton
Phytoplankton - metabolism
plant physiology
Plant physiology and development
P–E curves
rapid methods
Skeletonema costatum
Trebouxiophyceae
P max
rETR
Photosynthesis–irradiance curves
Φ PSII
aETR
E k
a ∗ phy
Electron transport rates
P–E curves
Cellular absorption
Q phar
α-slope
Chlorophyll fluorometry
Bio-optical properties
Photosynthesis-irradiance curves
Chlorophyll
Correlation
Oxygen
Fluorescence
Electron transfer
Irradiance
Fluorescence spectrometry
Absorption
Plant physiology
P-E curves
Optical properties
Production
Alga
Photosynthesis
Cell
Online AccessGet full text
ISSN0981-9428
1873-2690
1873-2690
DOI10.1016/j.plaphy.2011.04.010

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Abstract Photosynthesis–irradiance ( P–E)-curves describe the photosynthetic performance of autotrophic organisms. From these P–E-curves the photosynthetic parameters α-slope, P max, and E k can be deduced which are often used to characterize and to compare different organisms or organisms in acclimation to different environmental conditions. Particularly, for in situ-measurements of P–E curves of phytoplankton the analysis of variable chlorophyll fluorescence proved its potential as a sensitive and rapid method. By using Chlorella vulgaris (Trebouxiophyceae), Nannochloropsis salina (Eustigmatophyceae), Skeletonema costatum and Cyclotella meneghiniana (Bacillariophyceae), the present study investigated the influence of cellular bio-optical properties on the correlation of the photosynthetic parameters derived from fluorescence-based P–E-curves with photosynthetic parameters obtained from the measurement of oxygen evolution. It is demonstrated that small planktonic algae show a wide range of cellular absorptivity which was subject to species-specifity, growth stage and environmental conditions, e.g. nutrient limitation. This variability in bio-optical properties resulted in a great deviation of relative electron transport rates ( rETRs) from oxygen-based photosynthesis rates. Thus, the photosynthetic parameters α-slope and P max derived from rETRs strongly depend on the specific cellular absorptivity and cannot be used to compare the photosynthetic performance of cells with different optical properties. However, it was shown that E k is independent of cellular absorptivity and could be used to compare samples with unknown optical properties. ► We have compared light saturation curves from fluorescence and oxygen measurements. ► We show that the relative electron transport rates do not match oxygen evolution rates. ► The absorptivity of the cells is the crucial factor for the observed mismatch. The results help to standardize PAM technology and to prevent misinterpretations.
AbstractList Photosynthesis-irradiance (P-E)-curves describe the photosynthetic performance of autotrophic organisms. From these P-E-curves the photosynthetic parameters α-slope, P(max), and E(k) can be deduced which are often used to characterize and to compare different organisms or organisms in acclimation to different environmental conditions. Particularly, for in situ-measurements of P-E curves of phytoplankton the analysis of variable chlorophyll fluorescence proved its potential as a sensitive and rapid method. By using Chlorella vulgaris (Trebouxiophyceae), Nannochloropsis salina (Eustigmatophyceae), Skeletonema costatum and Cyclotella meneghiniana (Bacillariophyceae), the present study investigated the influence of cellular bio-optical properties on the correlation of the photosynthetic parameters derived from fluorescence-based P-E-curves with photosynthetic parameters obtained from the measurement of oxygen evolution. It is demonstrated that small planktonic algae show a wide range of cellular absorptivity which was subject to species-specifity, growth stage and environmental conditions, e.g. nutrient limitation. This variability in bio-optical properties resulted in a great deviation of relative electron transport rates (rETRs) from oxygen-based photosynthesis rates. Thus, the photosynthetic parameters α-slope and P(max) derived from rETRs strongly depend on the specific cellular absorptivity and cannot be used to compare the photosynthetic performance of cells with different optical properties. However, it was shown that E(k) is independent of cellular absorptivity and could be used to compare samples with unknown optical properties.Photosynthesis-irradiance (P-E)-curves describe the photosynthetic performance of autotrophic organisms. From these P-E-curves the photosynthetic parameters α-slope, P(max), and E(k) can be deduced which are often used to characterize and to compare different organisms or organisms in acclimation to different environmental conditions. Particularly, for in situ-measurements of P-E curves of phytoplankton the analysis of variable chlorophyll fluorescence proved its potential as a sensitive and rapid method. By using Chlorella vulgaris (Trebouxiophyceae), Nannochloropsis salina (Eustigmatophyceae), Skeletonema costatum and Cyclotella meneghiniana (Bacillariophyceae), the present study investigated the influence of cellular bio-optical properties on the correlation of the photosynthetic parameters derived from fluorescence-based P-E-curves with photosynthetic parameters obtained from the measurement of oxygen evolution. It is demonstrated that small planktonic algae show a wide range of cellular absorptivity which was subject to species-specifity, growth stage and environmental conditions, e.g. nutrient limitation. This variability in bio-optical properties resulted in a great deviation of relative electron transport rates (rETRs) from oxygen-based photosynthesis rates. Thus, the photosynthetic parameters α-slope and P(max) derived from rETRs strongly depend on the specific cellular absorptivity and cannot be used to compare the photosynthetic performance of cells with different optical properties. However, it was shown that E(k) is independent of cellular absorptivity and could be used to compare samples with unknown optical properties.
Photosynthesis-irradiance (P-E)-curves describe the photosynthetic performance of autotrophic organisms. From these P-E-curves the photosynthetic parameters alpha -slope, P sub(max), and E sub(k) can be deduced which are often used to characterize and to compare different organisms or organisms in acclimation to different environmental conditions. Particularly, for in situ-measurements of P-E curves of phytoplankton the analysis of variable chlorophyll fluorescence proved its potential as a sensitive and rapid method. By using Chlorella vulgaris (Trebouxiophyceae), Nannochloropsis salina (Eustigmatophyceae), Skeletonema costatum and Cyclotella meneghiniana (Bacillariophyceae), the present study investigated the influence of cellular bio-optical properties on the correlation of the photosynthetic parameters derived from fluorescence-based P-E-curves with photosynthetic parameters obtained from the measurement of oxygen evolution. It is demonstrated that small planktonic algae show a wide range of cellular absorptivity which was subject to species-specifity, growth stage and environmental conditions, e.g. nutrient limitation. This variability in bio-optical properties resulted in a great deviation of relative electron transport rates (rETRs) from oxygen-based photosynthesis rates. Thus, the photosynthetic parameters alpha -slope and P sub(max) derived from rETRs strongly depend on the specific cellular absorptivity and cannot be used to compare the photosynthetic performance of cells with different optical properties. However, it was shown that E sub(k) is independent of cellular absorptivity and could be used to compare samples with unknown optical properties.
Photosynthesis–irradiance (P–E)-curves describe the photosynthetic performance of autotrophic organisms. From these P–E-curves the photosynthetic parameters α-slope, Pₘₐₓ, and Eₖ can be deduced which are often used to characterize and to compare different organisms or organisms in acclimation to different environmental conditions. Particularly, for in situ-measurements of P–E curves of phytoplankton the analysis of variable chlorophyll fluorescence proved its potential as a sensitive and rapid method. By using Chlorella vulgaris (Trebouxiophyceae), Nannochloropsis salina (Eustigmatophyceae), Skeletonema costatum and Cyclotella meneghiniana (Bacillariophyceae), the present study investigated the influence of cellular bio-optical properties on the correlation of the photosynthetic parameters derived from fluorescence-based P–E-curves with photosynthetic parameters obtained from the measurement of oxygen evolution. It is demonstrated that small planktonic algae show a wide range of cellular absorptivity which was subject to species-specifity, growth stage and environmental conditions, e.g. nutrient limitation. This variability in bio-optical properties resulted in a great deviation of relative electron transport rates (rETRs) from oxygen-based photosynthesis rates. Thus, the photosynthetic parameters α-slope and Pₘₐₓ derived from rETRs strongly depend on the specific cellular absorptivity and cannot be used to compare the photosynthetic performance of cells with different optical properties. However, it was shown that Eₖ is independent of cellular absorptivity and could be used to compare samples with unknown optical properties.
Photosynthesis–irradiance ( P–E)-curves describe the photosynthetic performance of autotrophic organisms. From these P–E-curves the photosynthetic parameters α-slope, P max, and E k can be deduced which are often used to characterize and to compare different organisms or organisms in acclimation to different environmental conditions. Particularly, for in situ-measurements of P–E curves of phytoplankton the analysis of variable chlorophyll fluorescence proved its potential as a sensitive and rapid method. By using Chlorella vulgaris (Trebouxiophyceae), Nannochloropsis salina (Eustigmatophyceae), Skeletonema costatum and Cyclotella meneghiniana (Bacillariophyceae), the present study investigated the influence of cellular bio-optical properties on the correlation of the photosynthetic parameters derived from fluorescence-based P–E-curves with photosynthetic parameters obtained from the measurement of oxygen evolution. It is demonstrated that small planktonic algae show a wide range of cellular absorptivity which was subject to species-specifity, growth stage and environmental conditions, e.g. nutrient limitation. This variability in bio-optical properties resulted in a great deviation of relative electron transport rates ( rETRs) from oxygen-based photosynthesis rates. Thus, the photosynthetic parameters α-slope and P max derived from rETRs strongly depend on the specific cellular absorptivity and cannot be used to compare the photosynthetic performance of cells with different optical properties. However, it was shown that E k is independent of cellular absorptivity and could be used to compare samples with unknown optical properties. ► We have compared light saturation curves from fluorescence and oxygen measurements. ► We show that the relative electron transport rates do not match oxygen evolution rates. ► The absorptivity of the cells is the crucial factor for the observed mismatch. The results help to standardize PAM technology and to prevent misinterpretations.
Photosynthesis-irradiance (P-E)-curves describe the photosynthetic performance of autotrophic organisms. From these P-E-curves the photosynthetic parameters α-slope, P(max), and E(k) can be deduced which are often used to characterize and to compare different organisms or organisms in acclimation to different environmental conditions. Particularly, for in situ-measurements of P-E curves of phytoplankton the analysis of variable chlorophyll fluorescence proved its potential as a sensitive and rapid method. By using Chlorella vulgaris (Trebouxiophyceae), Nannochloropsis salina (Eustigmatophyceae), Skeletonema costatum and Cyclotella meneghiniana (Bacillariophyceae), the present study investigated the influence of cellular bio-optical properties on the correlation of the photosynthetic parameters derived from fluorescence-based P-E-curves with photosynthetic parameters obtained from the measurement of oxygen evolution. It is demonstrated that small planktonic algae show a wide range of cellular absorptivity which was subject to species-specifity, growth stage and environmental conditions, e.g. nutrient limitation. This variability in bio-optical properties resulted in a great deviation of relative electron transport rates (rETRs) from oxygen-based photosynthesis rates. Thus, the photosynthetic parameters α-slope and P(max) derived from rETRs strongly depend on the specific cellular absorptivity and cannot be used to compare the photosynthetic performance of cells with different optical properties. However, it was shown that E(k) is independent of cellular absorptivity and could be used to compare samples with unknown optical properties.
Author Wilhelm, Christian
Blache, Ulrich
Su, Wanwen
Jakob, Torsten
Author_xml – sequence: 1
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Issue 8
Keywords P max
rETR
Photosynthesis–irradiance curves
Φ PSII
aETR
E k
a ∗ phy
Electron transport rates
P–E curves
Cellular absorption
Q phar
α-slope
Chlorophyll fluorometry
Bio-optical properties
Photosynthesis-irradiance curves
Chlorophyll
Correlation
Oxygen
Fluorescence
Electron transfer
Irradiance
Fluorescence spectrometry
Absorption
Plant physiology
P-E curves
Optical properties
Production
Alga
Photosynthesis
Cell
Language English
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CC BY 4.0
Copyright © 2011 Elsevier Masson SAS. All rights reserved.
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Elsevier
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Snippet Photosynthesis–irradiance ( P–E)-curves describe the photosynthetic performance of autotrophic organisms. From these P–E-curves the photosynthetic parameters...
Photosynthesis-irradiance (P-E)-curves describe the photosynthetic performance of autotrophic organisms. From these P-E-curves the photosynthetic parameters...
Photosynthesis–irradiance (P–E)-curves describe the photosynthetic performance of autotrophic organisms. From these P–E-curves the photosynthetic parameters...
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SubjectTerms Absorption
absorptivity
acclimation
Bacillariophyceae
Bio-optical properties
Biological and medical sciences
Cellular absorption
Chlorella vulgaris
chlorophyll
Chlorophyll - chemistry
Chlorophyll - metabolism
Chlorophyll fluorometry
Chlorophyta - metabolism
Cyclotella meneghiniana
developmental stages
electron transfer
Electron Transport
Electron transport rates
Eustigmatophyceae
Fluorescence
Fundamental and applied biological sciences. Psychology
Light
Nannochloropsis salina
Optics and Photonics
Oxygen - metabolism
oxygen production
photosynthesis
Photosynthesis - physiology
Photosynthesis–irradiance curves
phytoplankton
Phytoplankton - metabolism
plant physiology
Plant physiology and development
P–E curves
rapid methods
Skeletonema costatum
Trebouxiophyceae
Title The impact of cell-specific absorption properties on the correlation of electron transport rates measured by chlorophyll fluorescence and photosynthetic oxygen production in planktonic algae
URI https://dx.doi.org/10.1016/j.plaphy.2011.04.010
https://www.ncbi.nlm.nih.gov/pubmed/21571541
https://www.proquest.com/docview/2986081884
https://www.proquest.com/docview/879103121
https://www.proquest.com/docview/904479366
Volume 49
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