SU‐FF‐T‐494: Effects of Ionizing Radiation Exposure On Arabidopsis Thaliana

Purpose: The effects of ionizing radiation on plants were examined in order to investigate the possibility of utilizing plants as a biodosimeter. Different radiation doses, ages of radiation exposure, and treatment methods were considered for the analysis of the complex and dynamic mechanisms of ion...

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Veröffentlicht in:	Medical Physics 2009-06, Vol.36 (6), p.2636-2637
Hauptverfasser:	Kurimoto, T, Constable, J, Huda, A
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Sprache:	eng
Schlagworte:	Dosimetry Dynamic mechanical analysis Fluorescence Height measurements Ionizing radiation Linear accelerators Physical radiation effects Physiological measurements Pneumodynamics Radiation treatment
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creator	Kurimoto, T Constable, J Huda, A
description	Purpose: The effects of ionizing radiation on plants were examined in order to investigate the possibility of utilizing plants as a biodosimeter. Different radiation doses, ages of radiation exposure, and treatment methods were considered for the analysis of the complex and dynamic mechanisms of ionizing radiation effects. Method and Materials: The investigation was performed by irradiating Arabidopsis thaliana with 6MV x‐ray produced by a linear accelerator. Photosynthesis and respiration rates, chlorophyll fluorescence fv/fm ratio and yield, plant height, total leaf area, stem mass, leaf mass, and above‐ground biomass were measured in order to evaluate both physiological and physical impacts of ionizing radiation. The statistical analysis of the radiation effects with respect to four different total doses (0.5Gy, 5Gy, 50Gy, and 150Gy), two different treatment types (single and fractionated), and three different life stages at irradiation (15‐day, 20‐day, and 25‐day old) revealed the details of dynamic responses of Arabidopsis thaliana to radiation exposure. Results: The age at the time of irradiation is a key to determine the overall effects of radiation exposure, and the irradiated Arabidopsis indicated much greater contrast in physical growth compared to physiological responses immediately after the irradiation. Radiation hormesis was not observed among the irradiated Arabidopsis older than 15‐days. In order to discern such phenomenon in Arabidopsis, perhaps, ionizing radiation needs to be delivered at earlier than 30% of its entire life cycle with the total dose lower than 0.5Gy. Conclusion: The results suggest plants like Arabidopsis are capable of being utilized as a biodosimeter, and further studies can be performed on specific areas (e.g. less than 0.5Gy of very low dose radiation exposure, microscopic analysis of plant cells, etc.) in order to assess the effects of ionizing radiation for a practical application.
doi_str_mv	10.1118/1.3181992
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Different radiation doses, ages of radiation exposure, and treatment methods were considered for the analysis of the complex and dynamic mechanisms of ionizing radiation effects. Method and Materials: The investigation was performed by irradiating Arabidopsis thaliana with 6MV x‐ray produced by a linear accelerator. Photosynthesis and respiration rates, chlorophyll fluorescence fv/fm ratio and yield, plant height, total leaf area, stem mass, leaf mass, and above‐ground biomass were measured in order to evaluate both physiological and physical impacts of ionizing radiation. The statistical analysis of the radiation effects with respect to four different total doses (0.5Gy, 5Gy, 50Gy, and 150Gy), two different treatment types (single and fractionated), and three different life stages at irradiation (15‐day, 20‐day, and 25‐day old) revealed the details of dynamic responses of Arabidopsis thaliana to radiation exposure. Results: The age at the time of irradiation is a key to determine the overall effects of radiation exposure, and the irradiated Arabidopsis indicated much greater contrast in physical growth compared to physiological responses immediately after the irradiation. Radiation hormesis was not observed among the irradiated Arabidopsis older than 15‐days. In order to discern such phenomenon in Arabidopsis, perhaps, ionizing radiation needs to be delivered at earlier than 30% of its entire life cycle with the total dose lower than 0.5Gy. Conclusion: The results suggest plants like Arabidopsis are capable of being utilized as a biodosimeter, and further studies can be performed on specific areas (e.g. less than 0.5Gy of very low dose radiation exposure, microscopic analysis of plant cells, etc.) in order to assess the effects of ionizing radiation for a practical application.</description><identifier>ISSN: 0094-2405</identifier><identifier>EISSN: 2473-4209</identifier><identifier>DOI: 10.1118/1.3181992</identifier><identifier>CODEN: MPHYA6</identifier><language>eng</language><publisher>American Association of Physicists in Medicine</publisher><subject>Dosimetry ; Dynamic mechanical analysis ; Fluorescence ; Height measurements ; Ionizing radiation ; Linear accelerators ; Physical radiation effects ; Physiological measurements ; Pneumodynamics ; Radiation treatment</subject><ispartof>Medical Physics, 2009-06, Vol.36 (6), p.2636-2637</ispartof><rights>American Association of Physicists in Medicine</rights><rights>2009 American Association of Physicists in Medicine</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktohtml>$$Uhttps://onlinelibrary.wiley.com/doi/full/10.1118%2F1.3181992$$EHTML$$P50$$Gwiley$$H</linktohtml><link.rule.ids>309,310,314,776,780,785,786,1411,23910,23911,25119,27903,27904,45554</link.rule.ids></links><search><creatorcontrib>Kurimoto, T</creatorcontrib><creatorcontrib>Constable, J</creatorcontrib><creatorcontrib>Huda, A</creatorcontrib><title>SU‐FF‐T‐494: Effects of Ionizing Radiation Exposure On Arabidopsis Thaliana</title><title>Medical Physics</title><description>Purpose: The effects of ionizing radiation on plants were examined in order to investigate the possibility of utilizing plants as a biodosimeter. Different radiation doses, ages of radiation exposure, and treatment methods were considered for the analysis of the complex and dynamic mechanisms of ionizing radiation effects. Method and Materials: The investigation was performed by irradiating Arabidopsis thaliana with 6MV x‐ray produced by a linear accelerator. Photosynthesis and respiration rates, chlorophyll fluorescence fv/fm ratio and yield, plant height, total leaf area, stem mass, leaf mass, and above‐ground biomass were measured in order to evaluate both physiological and physical impacts of ionizing radiation. The statistical analysis of the radiation effects with respect to four different total doses (0.5Gy, 5Gy, 50Gy, and 150Gy), two different treatment types (single and fractionated), and three different life stages at irradiation (15‐day, 20‐day, and 25‐day old) revealed the details of dynamic responses of Arabidopsis thaliana to radiation exposure. Results: The age at the time of irradiation is a key to determine the overall effects of radiation exposure, and the irradiated Arabidopsis indicated much greater contrast in physical growth compared to physiological responses immediately after the irradiation. Radiation hormesis was not observed among the irradiated Arabidopsis older than 15‐days. In order to discern such phenomenon in Arabidopsis, perhaps, ionizing radiation needs to be delivered at earlier than 30% of its entire life cycle with the total dose lower than 0.5Gy. 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Different radiation doses, ages of radiation exposure, and treatment methods were considered for the analysis of the complex and dynamic mechanisms of ionizing radiation effects. Method and Materials: The investigation was performed by irradiating Arabidopsis thaliana with 6MV x‐ray produced by a linear accelerator. Photosynthesis and respiration rates, chlorophyll fluorescence fv/fm ratio and yield, plant height, total leaf area, stem mass, leaf mass, and above‐ground biomass were measured in order to evaluate both physiological and physical impacts of ionizing radiation. The statistical analysis of the radiation effects with respect to four different total doses (0.5Gy, 5Gy, 50Gy, and 150Gy), two different treatment types (single and fractionated), and three different life stages at irradiation (15‐day, 20‐day, and 25‐day old) revealed the details of dynamic responses of Arabidopsis thaliana to radiation exposure. Results: The age at the time of irradiation is a key to determine the overall effects of radiation exposure, and the irradiated Arabidopsis indicated much greater contrast in physical growth compared to physiological responses immediately after the irradiation. Radiation hormesis was not observed among the irradiated Arabidopsis older than 15‐days. In order to discern such phenomenon in Arabidopsis, perhaps, ionizing radiation needs to be delivered at earlier than 30% of its entire life cycle with the total dose lower than 0.5Gy. Conclusion: The results suggest plants like Arabidopsis are capable of being utilized as a biodosimeter, and further studies can be performed on specific areas (e.g. less than 0.5Gy of very low dose radiation exposure, microscopic analysis of plant cells, etc.) in order to assess the effects of ionizing radiation for a practical application.</abstract><pub>American Association of Physicists in Medicine</pub><doi>10.1118/1.3181992</doi><tpages>2</tpages></addata></record>
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subjects	Dosimetry Dynamic mechanical analysis Fluorescence Height measurements Ionizing radiation Linear accelerators Physical radiation effects Physiological measurements Pneumodynamics Radiation treatment
title	SU‐FF‐T‐494: Effects of Ionizing Radiation Exposure On Arabidopsis Thaliana
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