The effect of ionising radiation on photosynthetic oxygenic microorganisms for survival in space flight revealed by automatic photosystem II-based biosensors

Photosynthetic microorganisms are expected to be useful to maintain an oxygenic atmosphere and to provide biomass for astronauts in the International Space Station as well as in future long-term space flights. However, fluxes of complex ionizing radiation of various intensities and energies make spa...

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Veröffentlicht in:	Microgravity science and technology 2006-01, Vol.18 (3-4), p.215-218
Hauptverfasser:	Esposito, Dania, Margonelli, Andrea, Pace, Emanuela, Giardi, Maria Teresa, Faraloni, Cecilia, Torzillo, Giuseppe, Zanini, Alba
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Sprache:	eng
Schlagworte:	Biosensors Ionizing radiation Microorganisms Photosynthesis
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container_end_page	218
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container_title	Microgravity science and technology
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creator	Esposito, Dania Margonelli, Andrea Pace, Emanuela Giardi, Maria Teresa Faraloni, Cecilia Torzillo, Giuseppe Zanini, Alba
description	Photosynthetic microorganisms are expected to be useful to maintain an oxygenic atmosphere and to provide biomass for astronauts in the International Space Station as well as in future long-term space flights. However, fluxes of complex ionizing radiation of various intensities and energies make space an extreme environment for the microorganisms, affecting their photosynthetic efficiency. To automatically monitor the photosynthetic Photosystem II (PSII) activity of microorganisms under space conditions an optical biosensor, which utilizes chlorophyll fluorescence as biological transduction system, was built; the PSII activity was monitored by the biosensor during balloon flights at stratospheric altitudes of about 40 km. The effect of space stress on quantum yield of PSII varied among the tested species depending on the growth light conditions at which they were exposed during the flights.[PUBLICATION ABSTRACT]
doi_str_mv	10.1007/BF02870412
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subjects	Biosensors Ionizing radiation Microorganisms Photosynthesis
title	The effect of ionising radiation on photosynthetic oxygenic microorganisms for survival in space flight revealed by automatic photosystem II-based biosensors
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