Respiration of blue-green algae in the light

Siegfried Scherer; Peter Böger

doi:10.1007/BF00413384

Respiration of blue-green algae in the light

Siegfried Scherer
, Peter Böger

Universitat Konstanz

Research output: Contribution to journal › Article › peer-review

45 Scopus citations

Abstract

The CO₂ evolution in the light of Anabaena as well as several other blue-green algae is below 10% of the dark control. Addition of DCMU restores CO₂ evolution in the light almost to the dark level. Furthermore, by adding unlabeled NaHCO₃, a ¹⁴CO₂ release is observed with prelabeled algal cells attaining 15 to 100% of dark control. Analysis by double-reciprocal plots exhibits a competitive relationship between added and endogenously released carbon dioxide. We conclude that CO₂ evolved by respiration is immediately refixed in the light without being liberated. The degree of ¹⁴CO₂ release induced by unlabeled bicarbonate in the light allows to determine true photoinhibition of respiration. Anabaena variabilis Kütz. exhibits almost no inhibition while in eight other species respiration is light-inhibited between 50 and 85% of the dark control.

Original language	English
Pages (from-to)	329-332
Number of pages	4
Journal	Archives of Microbiology
Volume	132
Issue number	4
DOIs	https://doi.org/10.1007/BF00413384
State	Published - Oct 1982
Externally published	Yes

Keywords

Blue-green algae
CO exchange
CO replacement technique
Photoinhibition of respiration

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10.1007/BF00413384

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@article{5519734de9224db18a087e429144c882,

title = "Respiration of blue-green algae in the light",

abstract = "The CO2 evolution in the light of Anabaena as well as several other blue-green algae is below 10\% of the dark control. Addition of DCMU restores CO2 evolution in the light almost to the dark level. Furthermore, by adding unlabeled NaHCO3, a 14CO2 release is observed with prelabeled algal cells attaining 15 to 100\% of dark control. Analysis by double-reciprocal plots exhibits a competitive relationship between added and endogenously released carbon dioxide. We conclude that CO2 evolved by respiration is immediately refixed in the light without being liberated. The degree of 14CO2 release induced by unlabeled bicarbonate in the light allows to determine true photoinhibition of respiration. Anabaena variabilis K{\"u}tz. exhibits almost no inhibition while in eight other species respiration is light-inhibited between 50 and 85\% of the dark control.",

keywords = "Blue-green algae, CO exchange, CO replacement technique, Photoinhibition of respiration",

author = "Siegfried Scherer and Peter B{\"o}ger",

year = "1982",

month = oct,

doi = "10.1007/BF00413384",

language = "English",

volume = "132",

pages = "329--332",

journal = "Archives of Microbiology",

issn = "0302-8933",

number = "4",

}

TY - JOUR

T1 - Respiration of blue-green algae in the light

AU - Scherer, Siegfried

AU - Böger, Peter

PY - 1982/10

Y1 - 1982/10

N2 - The CO2 evolution in the light of Anabaena as well as several other blue-green algae is below 10% of the dark control. Addition of DCMU restores CO2 evolution in the light almost to the dark level. Furthermore, by adding unlabeled NaHCO3, a 14CO2 release is observed with prelabeled algal cells attaining 15 to 100% of dark control. Analysis by double-reciprocal plots exhibits a competitive relationship between added and endogenously released carbon dioxide. We conclude that CO2 evolved by respiration is immediately refixed in the light without being liberated. The degree of 14CO2 release induced by unlabeled bicarbonate in the light allows to determine true photoinhibition of respiration. Anabaena variabilis Kütz. exhibits almost no inhibition while in eight other species respiration is light-inhibited between 50 and 85% of the dark control.

AB - The CO2 evolution in the light of Anabaena as well as several other blue-green algae is below 10% of the dark control. Addition of DCMU restores CO2 evolution in the light almost to the dark level. Furthermore, by adding unlabeled NaHCO3, a 14CO2 release is observed with prelabeled algal cells attaining 15 to 100% of dark control. Analysis by double-reciprocal plots exhibits a competitive relationship between added and endogenously released carbon dioxide. We conclude that CO2 evolved by respiration is immediately refixed in the light without being liberated. The degree of 14CO2 release induced by unlabeled bicarbonate in the light allows to determine true photoinhibition of respiration. Anabaena variabilis Kütz. exhibits almost no inhibition while in eight other species respiration is light-inhibited between 50 and 85% of the dark control.

KW - Blue-green algae

KW - CO exchange

KW - CO replacement technique

KW - Photoinhibition of respiration

UR - https://www.scopus.com/pages/publications/0020370297

U2 - 10.1007/BF00413384

DO - 10.1007/BF00413384

M3 - Article

AN - SCOPUS:0020370297

SN - 0302-8933

VL - 132

SP - 329

EP - 332

JO - Archives of Microbiology

JF - Archives of Microbiology

IS - 4

ER -

Respiration of blue-green algae in the light

Abstract

Keywords

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