RELATION OF QUANTUM YIELD OF PHOTOSYSTEM II TO OXYGEN EVOLUTION
RATE IN A LICHEN PHOTOBIONT TREBOUXIA ERICI

D 2004

RELATION OF QUANTUM YIELD OF PHOTOSYSTEM II TO OXYGEN EVOLUTION RATE IN A LICHEN PHOTOBIONT TREBOUXIA ERICI

VÁCZI, Peter and Miloš BARTÁK

Basic information

Original name

RELATION OF QUANTUM YIELD OF PHOTOSYSTEM II TO OXYGEN EVOLUTION RATE IN A LICHEN PHOTOBIONT TREBOUXIA ERICI

Name in Czech

Vztah kvantového výtěžku fotosystému II a rychlosti vývinu kyslíku u lišejníkového fotobionta Trebouxia erici

Authors

VÁCZI, Peter (703 Slovakia) and Miloš BARTÁK (203 Czech Republic, guarantor)

Edition

Warszawa, Acta Physiologiae Plantarum, p. 176-176, 2004

Publisher

Polish Academy of Science

Other information

Language

English

Type of outcome

Stať ve sborníku

Field of Study

10600 1.6 Biological sciences

Country of publisher

Poland

Confidentiality degree

není předmětem státního či obchodního tajemství

References:

URL

Impact factor

Impact factor: 0.433

RIV identification code

RIV/00216224:14310/04:00011566

Organization unit

Faculty of Science

ISSN

UT WoS

000205415400453

Keywords in English

quantum yield; oxygen evolution; osmotic stress; lichen photobiont; Trebouxia

Abstract

ORIG CZ

V originále

Introduction: Lichen photosynthesis has been studied on a thalus level quite frequently (e.g. Kappen et al., 1998). Detailed photosynthetic studies on photobiont per se are not frequent. In the study the relation between oxygen evolution rate (OER) and quantum yield of photochemical reactions in photosystem II (ÖII) was examined in lichen symbiotic alga Trebouxia erici (axenic culture) exposed to different levels of photosynthetically active radiation (PAR) affected by osmotic dehydration. Material and Methods: Stock cultures cultivated in Petri dishes on agar BBM3N medium were transferred into liquid BBM3N medium (Ahmadjian, 1993). Cultures acclimated to liquid medium for 5 days were used for a simultaneous measurement of ÖII and OER in stepwise increasing PAR (37, 66, 135, 270, and 500 ľmol m-2 s-1). For measurement, double-modulated fluorometer FL-200 (PSI, CZ) was used equipped with a cuvette with an in-built oxygen electrode OC 223-B (THETA, CZ) connected to an O2-meter OxyCorder 401 (PSI, CZ). The effect of osmotic dehydration on the OER/ÖII relationship was evaluated for Trebouxia erici cells exposed to 2,0 M sucrose (Ř = -7.4 MPa) at 24 C for 60 hours. Results and Conclusions: OER and ÖII curvilinearly increased (OER) and decreased (ÖII) throughout all used irradiances. Under osmotic stress both parameters were significantly reduced. OER showed its maximum (1,2 ľmol l-1 s-1) at about 130 ľmol m-2 s -1. In non-stressed (control) culture, the ÖII to OER relation was linear. In osmotically-stressed culture, however, the relation was curvilinear due to reduced OER values in the irradiance above 200 ľmol m-2 s-1. The relation of ÖII and OER in increasing irradiance denote linear dependency in control, however, in an osmotically-stressed variant, the relation represents curvilinear dependency. In conclusion, under osmotic stress, photochemical linear electron transport chain is less limited than biochemical photosynthetic reactions of Trebouxia erici. References: Ahmadjian V. 1993. The Lichen Symbiosis. John Wiley & Sons, Inc., New York ed., 264 pp. Kappen L, Schroeter B, Green TGA and Seppelt RD. 1998. Chlorophyll a Fluorescence and CO2 Exchange of Umbilicaria Aprina Under Extreme Light Stress in the Cold. Oecologia 113(3): 325-331.

In Czech

RELATION OF QUANTUM YIELD OF PHOTOSYSTEM II TO OXYGEN EVOLUTION RATE IN A LICHEN PHOTOBIONT TREBOUXIA ERICI

Links

GA522/03/0754, research and development project

Name: Fotoinhibice a fotoochrana u lišejníků v extrémních podmínkách

Investor: Czech Science Foundation, Photoinhibition and photoprotection in lichens under extreme conditions

Citovat

VÁCZI, Peter and Miloš BARTÁK. RELATION OF QUANTUM YIELD OF PHOTOSYSTEM II TO OXYGEN EVOLUTION RATE IN A LICHEN PHOTOBIONT TREBOUXIA ERICI. In Acta Physiologiae Plantarum. Warszawa: Polish Academy of Science, 2004, p. 176. ISSN 0137-5881.

@inproceedings{557909,
   author = {Váczi, Peter and Barták, Miloš},
   address = {Warszawa},
   booktitle = {Acta Physiologiae Plantarum},
   keywords = {quantum yield; oxygen evolution; osmotic stress; lichen photobiont; Trebouxia},
   language = {eng},
   location = {Warszawa},
   pages = {176-176},
   publisher = {Polish Academy of Science},
   title = {RELATION OF QUANTUM YIELD OF PHOTOSYSTEM II TO OXYGEN EVOLUTION RATE IN A LICHEN PHOTOBIONT TREBOUXIA ERICI},
   url = {http://psjc.icm.edu.pl},
   year = {2004}
}

TY  - JOUR
ID  - 557909
AU  - Váczi, Peter - Barták, Miloš
PY  - 2004
TI  - RELATION OF QUANTUM YIELD OF PHOTOSYSTEM II TO OXYGEN EVOLUTION RATE IN A LICHEN PHOTOBIONT TREBOUXIA ERICI
PB  - Polish Academy of Science
CY  - Warszawa
KW  - quantum yield
KW  - oxygen evolution
KW  - osmotic stress
KW  - lichen photobiont
KW  - Trebouxia
UR  - http://psjc.icm.edu.pl
N2  - Introduction: Lichen photosynthesis has been studied on a thalus level quite frequently (e.g. Kappen et al., 1998). Detailed photosynthetic studies on photobiont per se are not frequent. In the study the relation between oxygen evolution rate (OER) and quantum yield of photochemical reactions in photosystem II (ÖII) was examined in lichen symbiotic alga Trebouxia erici (axenic culture) exposed to different levels of photosynthetically active radiation (PAR) affected by osmotic dehydration. Material and Methods: Stock cultures cultivated in Petri dishes on agar BBM3N medium were transferred into liquid BBM3N medium (Ahmadjian, 1993). Cultures acclimated to liquid medium for 5 days were used for a simultaneous measurement of ÖII and OER in stepwise increasing PAR (37, 66, 135, 270, and 500 ľmol m-2 s-1). For measurement, double-modulated fluorometer FL-200 (PSI, CZ) was used equipped with a cuvette with an in-built oxygen electrode OC 223-B (THETA, CZ) connected to an O2-meter OxyCorder 401 (PSI, CZ). The effect of osmotic dehydration on the OER/ÖII relationship was evaluated for Trebouxia erici cells exposed to 2,0 M sucrose (Ř = -7.4 MPa) at 24 C for 60 hours. Results and Conclusions: OER and ÖII curvilinearly increased (OER) and decreased (ÖII) throughout all used irradiances. Under osmotic stress both parameters were significantly reduced. OER showed its maximum (1,2 ľmol l-1 s-1) at about 130 ľmol m-2 s -1. In non-stressed (control) culture, the ÖII to OER relation was linear. In osmotically-stressed culture, however, the relation was curvilinear due to reduced OER values in the irradiance above 200 ľmol m-2 s-1. The relation of ÖII and OER in increasing irradiance denote linear dependency in control, however, in an osmotically-stressed variant, the relation represents curvilinear dependency. In conclusion, under osmotic stress, photochemical linear electron transport chain is less limited than biochemical photosynthetic reactions of Trebouxia erici. References: Ahmadjian V. 1993. The Lichen Symbiosis. John Wiley & Sons, Inc., New York ed., 264 pp. Kappen L, Schroeter B, Green TGA and Seppelt RD. 1998. Chlorophyll a Fluorescence and CO2 Exchange of Umbilicaria Aprina Under Extreme Light Stress in the Cold. Oecologia 113(3): 325-331.
ER  -

VÁCZI, Peter and Miloš BARTÁK. RELATION OF QUANTUM YIELD OF PHOTOSYSTEM II TO OXYGEN EVOLUTION RATE IN A LICHEN PHOTOBIONT TREBOUXIA ERICI. In \textit{Acta Physiologiae Plantarum}. Warszawa: Polish Academy of Science, 2004, p.~176. ISSN~0137-5881.

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