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@article{1519156,
author = {Marečková, Michaela and Barták, Miloš and Hájek, Josef},
article_location = {New York},
article_number = {4},
doi = {http://dx.doi.org/10.1007/s00300-019-02464-w},
keywords = {Diplosphaera sp.; OJIP; K-step; Kautsky kinetic; Linear cooling; Photosystem II},
language = {eng},
issn = {0722-4060},
journal = {Polar Biology},
title = {Temperature effects on photosynthetic performance of Antarctic lichen Dermatocarpon polyphyllizum: a chlorophyll fluorescence study},
url = {https://link.springer.com/article/10.1007%2Fs00300-019-02464-w},
volume = {42},
year = {2019}
}
TY - JOUR
ID - 1519156
AU - Marečková, Michaela - Barták, Miloš - Hájek, Josef
PY - 2019
TI - Temperature effects on photosynthetic performance of Antarctic lichen Dermatocarpon polyphyllizum: a chlorophyll fluorescence study
JF - Polar Biology
VL - 42
IS - 4
SP - 685-701
EP - 685-701
PB - Springer
SN - 07224060
KW - Diplosphaera sp.
KW - OJIP
KW - K-step
KW - Kautsky kinetic
KW - Linear cooling
KW - Photosystem II
UR - https://link.springer.com/article/10.1007%2Fs00300-019-02464-w
L2 - https://link.springer.com/article/10.1007%2Fs00300-019-02464-w
N2 - Chlorophyll fluorescence is an important indicator of a photosynthetic energy conversion in chloroplast photosystem II and responds sensitively to stress factors affecting photosynthesizing organisms. Three different methods were employed to identify the most sensitive fluorescence parameters responding to thallus temperature decrease within Antarctic lichen Dermatocarpon polyphyllizum: (1) Fast chlorophyll fluorescence transient (OJIP with parameters characterizing photosystem II functioning) (2) Slow Kautsky kinetics supplemented by saturation pulses (to evaluate quantum yield of photosynthetic processes in photosystem II, as well as maximum quantum PSII efficiency and non-photochemical and photochemical quenching), and (3) Linear cooling from +22 to-40 degrees C (to determine change in phi(PSII) and the critical temperature for PSII). A K-step (usually documented at highly stressed organisms) was found in OJIPs measured at+22 degrees C at 0.22-0.40ms and attributed to the negative effect of high temperature on PSII functioning, PSII donor side limitation in particular. At subzero temperature (-0.5, -5 degrees C), an L-step was detected at 0.05ms and related to a low temperature-induced decrease in connectivity between light-harvesting complexes and PSII. An increase of DI0/RC (the flux of dissipated excitation energy) was reported for the first time in lichens. The OJIP-derived parameters, DI0/RC and Phi_D-0 (quantum yield of energy dissipation) in particular, indicated that they might be used for the detection of early events in low temperature-affected lichens. Linear cooling data determined the critical temperature (-12 degrees C) for primary photosynthetic processes (phi(PSII)) in Dermatocarpon.
ER -
MAREČKOVÁ, Michaela, Miloš BARTÁK a Josef HÁJEK. Temperature effects on photosynthetic performance of Antarctic lichen Dermatocarpon polyphyllizum: a chlorophyll fluorescence study. \textit{Polar Biology}. New York: Springer, 2019, roč.~42, č.~4, s.~685-701. ISSN~0722-4060. Dostupné z: https://dx.doi.org/10.1007/s00300-019-02464-w.
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