Effects of short-term low temperature stress on chlorophyll fluorescence transients in Antarctic lichen species

Chlorophyll fluorescence is an effective tool for investigating characteristics of any photosynthesizing organisms and its responses due to different stressors. Here, we have studied a short-term temperature response on two Antarctic green algal lichen species: Umbilicaria antarctica, and Physconia...

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Main Authors: Marečková, Michaela, Barták, Miloš
Format: Article in Journal/Newspaper
Language:English
Published: Masaryk Univerzity 2016
Subjects:
photosynthetic processes
polyphasic kinetics
chlorophyll fluorescence parameters
James Ross Island
Galindez Island
Antarctic
Ross Island
Calvin
Galindez
Antarc*
Antarctica
Online Access:http://journals.muni.cz/CPR/article/view/12886
id ftmasarykunivojs:oai:ojs.journals.muni.cz:article/12886
record_format openpolar
spelling ftmasarykunivojs:oai:ojs.journals.muni.cz:article/12886 2023-05-15T13:46:41+02:00 Effects of short-term low temperature stress on chlorophyll fluorescence transients in Antarctic lichen species Marečková, Michaela Barták, Miloš 2016-01-01 application/pdf http://journals.muni.cz/CPR/article/view/12886 eng eng Masaryk Univerzity http://journals.muni.cz/CPR/article/view/12886/11224 http://journals.muni.cz/CPR/article/view/12886 Copyright (c) 2020 Czech Polar Reports https://creativecommons.org/licenses/by-nc-nd/4.0 CC-BY-NC-ND Czech Polar Reports; Vol 6 No 1 (2016); 54-65 Czech Polar Reports; Vol. 6 No. 1 (2016); 54-65 1805-0697 1805-0689 photosynthetic processes polyphasic kinetics chlorophyll fluorescence parameters James Ross Island Galindez Island info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion 2016 ftmasarykunivojs 2022-06-26T10:16:32Z Chlorophyll fluorescence is an effective tool for investigating characteristics of any photosynthesizing organisms and its responses due to different stressors. Here, we have studied a short-term temperature response on two Antarctic green algal lichen species: Umbilicaria antarctica, and Physconia muscigena. We measured slow chlorophyll fluorescence transients in the species during slow a cooling of thallus temperature from 20°C to 5°C with a 10 min. acclimation at each temperature in dark. The measurements were supplemented with saturation pulses for the analysis of chlorophyll fluorescence parameters: maximum yield of PS II photochemistry (FV/FM), effective quantum yield of PS II photochemistry (FPSII) and non-photochemical quenching (NPQ). In response to decreasing thallus temperature, we observed species-specific changes in chlorophyll fluorescence levels P, S, M, T reached during chlorophyll fluorescence transient as well as in the shape of the chlorophyll fluorescence transients. With a decrease in temperature, the time at which M and T chlorophyll fluorescence levels were reached, increased. These changes were attributed to redox state of plastoquinon pool, changes in Calvin-Benson cycle activity, non-photochemical quenching components, state transition in particular. In this study, we present some chlorophyll fluorescence ratios (P/M, M/T, P/T) and chlorophyll fluorescence increase rates (FR1, i.e. O to P, and FR2 - i.e. S to M) as the parameters reflecting direct temperature effects on chloroplastic apparatus of lichen alga sensitively. We proposed that species-specific changes in the slow phase of chlorophyll fluorescence transients could be potentially used as indicators of low temperature effects in photosynthetic apparatus of lichen algal photobionts. Interspecific differences in response to low temperature might be evaluated using the approach as well. Article in Journal/Newspaper Antarc* Antarctic Antarctica Galindez Island James Ross Island Ross Island Masaryk University Journals Antarctic Ross Island Calvin ENVELOPE(165.100,165.100,-71.283,-71.283) Galindez ENVELOPE(-64.248,-64.248,-65.250,-65.250) Galindez Island ENVELOPE(-64.267,-64.267,-65.250,-65.250)
institution Open Polar
collection Masaryk University Journals
op_collection_id ftmasarykunivojs
language English
topic photosynthetic processes
polyphasic kinetics
chlorophyll fluorescence parameters
James Ross Island
Galindez Island
spellingShingle photosynthetic processes
polyphasic kinetics
chlorophyll fluorescence parameters
James Ross Island
Galindez Island
Marečková, Michaela
Barták, Miloš
Effects of short-term low temperature stress on chlorophyll fluorescence transients in Antarctic lichen species
topic_facet photosynthetic processes
polyphasic kinetics
chlorophyll fluorescence parameters
James Ross Island
Galindez Island
description Chlorophyll fluorescence is an effective tool for investigating characteristics of any photosynthesizing organisms and its responses due to different stressors. Here, we have studied a short-term temperature response on two Antarctic green algal lichen species: Umbilicaria antarctica, and Physconia muscigena. We measured slow chlorophyll fluorescence transients in the species during slow a cooling of thallus temperature from 20°C to 5°C with a 10 min. acclimation at each temperature in dark. The measurements were supplemented with saturation pulses for the analysis of chlorophyll fluorescence parameters: maximum yield of PS II photochemistry (FV/FM), effective quantum yield of PS II photochemistry (FPSII) and non-photochemical quenching (NPQ). In response to decreasing thallus temperature, we observed species-specific changes in chlorophyll fluorescence levels P, S, M, T reached during chlorophyll fluorescence transient as well as in the shape of the chlorophyll fluorescence transients. With a decrease in temperature, the time at which M and T chlorophyll fluorescence levels were reached, increased. These changes were attributed to redox state of plastoquinon pool, changes in Calvin-Benson cycle activity, non-photochemical quenching components, state transition in particular. In this study, we present some chlorophyll fluorescence ratios (P/M, M/T, P/T) and chlorophyll fluorescence increase rates (FR1, i.e. O to P, and FR2 - i.e. S to M) as the parameters reflecting direct temperature effects on chloroplastic apparatus of lichen alga sensitively. We proposed that species-specific changes in the slow phase of chlorophyll fluorescence transients could be potentially used as indicators of low temperature effects in photosynthetic apparatus of lichen algal photobionts. Interspecific differences in response to low temperature might be evaluated using the approach as well.
format Article in Journal/Newspaper
author Marečková, Michaela
Barták, Miloš
author_facet Marečková, Michaela
Barták, Miloš
author_sort Marečková, Michaela
title Effects of short-term low temperature stress on chlorophyll fluorescence transients in Antarctic lichen species
title_short Effects of short-term low temperature stress on chlorophyll fluorescence transients in Antarctic lichen species
title_full Effects of short-term low temperature stress on chlorophyll fluorescence transients in Antarctic lichen species
title_fullStr Effects of short-term low temperature stress on chlorophyll fluorescence transients in Antarctic lichen species
title_full_unstemmed Effects of short-term low temperature stress on chlorophyll fluorescence transients in Antarctic lichen species
title_sort effects of short-term low temperature stress on chlorophyll fluorescence transients in antarctic lichen species
publisher Masaryk Univerzity
publishDate 2016
url http://journals.muni.cz/CPR/article/view/12886
long_lat ENVELOPE(165.100,165.100,-71.283,-71.283)
ENVELOPE(-64.248,-64.248,-65.250,-65.250)
ENVELOPE(-64.267,-64.267,-65.250,-65.250)
geographic Antarctic
Ross Island
Calvin
Galindez
Galindez Island
geographic_facet Antarctic
Ross Island
Calvin
Galindez
Galindez Island
genre Antarc*
Antarctic
Antarctica
Galindez Island
James Ross Island
Ross Island
genre_facet Antarc*
Antarctic
Antarctica
Galindez Island
James Ross Island
Ross Island
op_source Czech Polar Reports; Vol 6 No 1 (2016); 54-65
Czech Polar Reports; Vol. 6 No. 1 (2016); 54-65
1805-0697
1805-0689
op_relation http://journals.muni.cz/CPR/article/view/12886/11224
http://journals.muni.cz/CPR/article/view/12886
op_rights Copyright (c) 2020 Czech Polar Reports
https://creativecommons.org/licenses/by-nc-nd/4.0
op_rightsnorm CC-BY-NC-ND
_version_ 1766245074664947712

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