The Experts below are selected from a list of 271248 Experts worldwide ranked by ideXlab platform
I I Kryshev - One of the best experts on this subject based on the ideXlab platform.
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Radiation Effects in wild terrestrial vertebrates the epic collection
Journal of Environmental Radioactivity, 2006Co-Authors: T G Sazykina, I I KryshevAbstract:Abstract The paper presents data on Radiation Effects in populations of wild vertebrate animals inhabiting contaminated terrestrial ecosystems. The data were extracted from the database “Radiation Effects on biota”, compiled within the framework of the EC Project EPIC (2000–2003). The data collection, based on publications in Russian, demonstrates Radiation Effects in the areas characterized with high levels of radionuclides (Kyshtym radioactive trace; “spots” of enhanced natural radioactivity in the Komi region of Russia; territories contaminated from the Chernobyl fallout). The data covers a wide range of exposures from acute accidental irRadiation to lifetime exposures at relatively low dose rates. Radiation Effects include mortality, changes in reproduction, decrease of health, ecological Effects, cytogenetic Effects, adaptation to Radiation, and others. Peculiarities of Radiation Effects caused by different radionuclides are described, also the severity of Effects as they appear in different organisms (e.g. mice, frogs, birds, etc.).
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Radiation Effects in wild terrestrial vertebrates – the EPIC collection
Journal of Environmental Radioactivity, 2006Co-Authors: T G Sazykina, I I KryshevAbstract:The paper presents data on Radiation Effects in populations of wild vertebrate animals inhabiting contaminated terrestrial ecosystems. The data were extracted from the database "Radiation Effects on biota", compiled within the framework of the EC Project EPIC (2000-2003). The data collection, based on publications in Russian, demonstrates Radiation Effects in the areas characterized with high levels of radionuclides (Kyshtym radioactive trace; "spots" of enhanced natural radioactivity in the Komi region of Russia; territories contaminated from the Chernobyl fallout). The data covers a wide range of exposures from acute accidental irRadiation to lifetime exposures at relatively low dose rates. Radiation Effects include mortality, changes in reproduction, decrease of health, ecological Effects, cytogenetic Effects, adaptation to Radiation, and others. Peculiarities of Radiation Effects caused by different radionuclides are described, also the severity of Effects as they appear in different organisms (e.g. mice, frogs, birds, etc.).
T G Sazykina - One of the best experts on this subject based on the ideXlab platform.
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Radiation Effects in wild terrestrial vertebrates the epic collection
Journal of Environmental Radioactivity, 2006Co-Authors: T G Sazykina, I I KryshevAbstract:Abstract The paper presents data on Radiation Effects in populations of wild vertebrate animals inhabiting contaminated terrestrial ecosystems. The data were extracted from the database “Radiation Effects on biota”, compiled within the framework of the EC Project EPIC (2000–2003). The data collection, based on publications in Russian, demonstrates Radiation Effects in the areas characterized with high levels of radionuclides (Kyshtym radioactive trace; “spots” of enhanced natural radioactivity in the Komi region of Russia; territories contaminated from the Chernobyl fallout). The data covers a wide range of exposures from acute accidental irRadiation to lifetime exposures at relatively low dose rates. Radiation Effects include mortality, changes in reproduction, decrease of health, ecological Effects, cytogenetic Effects, adaptation to Radiation, and others. Peculiarities of Radiation Effects caused by different radionuclides are described, also the severity of Effects as they appear in different organisms (e.g. mice, frogs, birds, etc.).
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Radiation Effects in wild terrestrial vertebrates – the EPIC collection
Journal of Environmental Radioactivity, 2006Co-Authors: T G Sazykina, I I KryshevAbstract:The paper presents data on Radiation Effects in populations of wild vertebrate animals inhabiting contaminated terrestrial ecosystems. The data were extracted from the database "Radiation Effects on biota", compiled within the framework of the EC Project EPIC (2000-2003). The data collection, based on publications in Russian, demonstrates Radiation Effects in the areas characterized with high levels of radionuclides (Kyshtym radioactive trace; "spots" of enhanced natural radioactivity in the Komi region of Russia; territories contaminated from the Chernobyl fallout). The data covers a wide range of exposures from acute accidental irRadiation to lifetime exposures at relatively low dose rates. Radiation Effects include mortality, changes in reproduction, decrease of health, ecological Effects, cytogenetic Effects, adaptation to Radiation, and others. Peculiarities of Radiation Effects caused by different radionuclides are described, also the severity of Effects as they appear in different organisms (e.g. mice, frogs, birds, etc.).
William J. Weber - One of the best experts on this subject based on the ideXlab platform.
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Radiation Effects in Nuclear Waste Materials
2004Co-Authors: William J. Weber, Lumin Wang, Jonathan P. IcenhowerAbstract:The objective of this project is to develop a fundamental understanding of Radiation Effects in glasses and ceramics, as well as the influence of solid-state Radiation Effects on aqueous dissolution kinetics, which may impact the performance of nuclear waste forms and stabilized nuclear materials.
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Radiation Effects in Nuclear Waste Materials
2000Co-Authors: William J. WeberAbstract:This research project is investigating Radiation Effects in glasses and ceramics at the atomic, microscopic, and macroscopic levels. By using experimental and computer simulation approaches, this research endeavors to develop the underpinning science and models necessary to assess Radiation Effects on the performance of glasses and ceramics designed for the immobilization of high-level tank waste and nuclear materials. The ultimate objective of this project is to provide the scientific understanding and rationale for developing improved glass and ceramic waste forms and to develop scientifically based predictive models for the performance of nuclear waste forms and stabilized nuclear materials
Jonathan P. Icenhower - One of the best experts on this subject based on the ideXlab platform.
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Radiation Effects in Nuclear Waste Materials
2004Co-Authors: William J. Weber, Lumin Wang, Jonathan P. IcenhowerAbstract:The objective of this project is to develop a fundamental understanding of Radiation Effects in glasses and ceramics, as well as the influence of solid-state Radiation Effects on aqueous dissolution kinetics, which may impact the performance of nuclear waste forms and stabilized nuclear materials.
Yanwen Zhang - One of the best experts on this subject based on the ideXlab platform.
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Materials and Radiation Effects for Advanced Nuclear Technologies
2015Co-Authors: Gianguido Baldinozzi, Chaitanya Deo, K. Arakawa, Flyura Djurabekova, S. Gill, Emmanuelle Marquis, F. Soisson, Kazuhiro Yasuda, Yanwen ZhangAbstract:Proceedings of Symposium DD, "Materials for Advanced Nuclear Technologies" and Symposium WW, "Defects and Radiation Effects in Advanced Materials," held at the Materials Research Society 2014 Fall Meeting.
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Materials and Radiation Effects for Advanced Nuclear Technologies
2015Co-Authors: Gianguido Baldinozzi, Chaitanya Deo, K. Arakawa, Flyura Djurabekova, S. Gill, Emmanuelle Marquis, F. Soisson, Kazuhiro Yasuda, Yanwen ZhangAbstract:Proceedings of Symposium DD, "Materials for Advanced Nuclear Technologies" and Symposium WW, "Defects and Radiation Effects in Advanced Materials," held at the Materials Research Society 2014 Fall Meeting.