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Astrophys. Space Sci. Trans., 8, 7-17, 2012
www.astrophys-space-sci-trans.net/8/7/2012/ doi:10.5194/astra-8-7-2012 © Author(s) 2012. This work is distributed under the Creative Commons Attribution 3.0 License. |
10 Jan 2012
The effect of cosmic rays on biological systems – an investigation during GLE events
N. K. Belisheva, H. Lammer, H. K. Biernat, and E. V. Vashenuyk
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Cited articles
- Akoev, I. G. and Yurov, S. S.: The results of biological experiments in space and biophysical interpretation of hadronic effects, in: Questions of biological effects and dosimetry of heavy charged particles and high-energy hadrons, edited by: I. G. Akoev, Puschino Scientific Center, 126–143, 1984.
- Akoev, I. G., Sakovich, V. A., and Yurov, S. S.: Biophysical basis of cosmic radiation and accelerators impacts, in: Problems of Cosmic Biology, Nauka, Leningrad., Main Ed. A. M. Ugolev, Leningrad: Nauka, 60, 255, 1989.
- Arrhenius, S.: Die Einwirkung kosmischer Einflüsse auf physiologische Verhältnisse, Scandinavisches Archiv für Physiol., 8, 98, 1900.
- Autischer, M., Beck, P., Kindl, P., Latocha, M., and Rollet, S.: Calibration and background measurenments with a tissue equivalent proportional counter, Radiation Protection Dosimetry, 125, 429–432, 2007.
- Beck, P., Dufischmid, K., Groß kopf, A., Hornung, K., Schmitzer, Ch., Strachotinsky, Ch., and Winker, N.: Active dosimeter for on board air – crew – exposure, http://www.irpa.net/irpa9/cdrom/VOL.2/V2_71.PDF, 1996.
- Belisheva, N. K. and Popov, A. N.: Dynamics of the Morphofunctional State of Cell Cultures with Variation in the Geomagnetic Field in High Latitides, Biophysics, 40, 737–745, 1995.
- Belisheva, N. K., Popov, A. N., Konradov, A. A., Janvareva, I. N., Pavlova, L. P., Petukhova, N. V., Tkachenko, S. E., Semenikhin, V. A., Baranova, N. V., Merkushev, I. A., Surgikova, M. L., Chikhlovin, A. B., Mumanginov, V. V., and Pyhalov, A. I.: Physiological effects of low frequency geomagnetic field variations, in: Proc. 1994 Intern. Symp. on Charge and Field Effects in Biosystems-4, Virginia, USA, 20–24 June 1994, Edited by: M. J. Allen, S. F. Cleary, and A. E. Sowers, World Scientific Publishing Co. Pte. Ltd (USA), 445–457, 1994a.
- Belisheva, N. K., Popov, A. N., and Poniavin, D. I.: Biological Effects in Cell Cultures and Geomagnetic Field Variations, in: Proc. 1994 Intern. Symp. on Charge and Field Effects in Biosystems-4, Virginia, USA, 20–24 June 1994, Edited by: M. J. Allen, S. F. Cleary, and A. E. Sowers, World Scientific Publishing Co. Pte. Ltd (USA), 159–173, 1994b.
- Belisheva, N. K., Kuzhevskii, B. M., Vashenyuk, E. V., and Zhirov, V. K.: Correlation between the Fusion Dynamics of Cells Growing in vitro and Variations of Neutron Intensity near the Earth's Surface', Doklady Biochemistry and Biophysics, 402, 254–257, 2005. Translated from Doklady Akademii Nauk, 402, 831–834, 2005.
- Belli, M., Sapora, O., and Tabochini, M. A.: Molecular Targets in Cellular Response to Ionizing Radiation and Implications in Space Radiation Protection, J. Rad. Res., 43, 13–19, 2002.
- Belyakov O.V., Mitchell S.A., Parikh D., Randers-Pehrson G., Marino S.A.,. Amundson S.A, Geard Ch.R., and Brenner D. J.: Biological effects in unirradiated human tissue induced by radiation damage up to 1 mm away, PNAS, 102, 14203–14208, 2005.
- Chernouss, S., Vinogradov, A., and Vlassova, E.: Geophysical Hazard for Human Health in the Circumpolar Auroral Belt: Evidence of a Relationship between Heart Rate Variation and Electromagnetic Disturbances, Natural Hazards, 23, 121–135, 2001.
- Chizhevsky, A. L.: Cosmic Pulse of life. Earth in the embrace of the Sun, Geliotaraksiya, M: Mysl, 768, 1995.
- Cowan, F. P.: Interaction above 10 Gev, Rad. Res.,7, 1–9, 1967.
- Dimitrova, S.: Possible heliogeophysical effects on human physiological state, Universal Heliophysical Processes, in :Proc. Intern. Astronom. Union, IAU Symposium, 257, 65–67, 2009.
- Dorman, L., Iucci, I., Ptitsyna, N., Villoresi, N. G.: Cosmic rays as indicator of space weather influence on frequency of infarct myocardial, brain strokes, car and train accidents, in: Proc. 27th ICRC, Hamburg, Germany, 2001.
- Dubrov, A. P.:Geomagnetic field and life, edited by: Yu Kholodov, L: Gidrometeoizdat, 175, 1974.
- Feinleib, M., Rogot, E., and Sturock, P. A.: Solar activity and mortality in the United States, Int. J. Epidemiol., 4, 227–229, 1975.
- Halpern, G. J., Stoupel, E. G., Barkai, G., Chaki, R., Legum, C., Fejgin, M. D., and Shohat, M.: Solar activity cycle and the incidence of foetal chromosome abnormalities detected at prenatal diagnosis, Int. J. Biometeorol., 39, 59–63, 1995.
- Hanson, K. P. and Komar, V. E.: Molecular mechanisms of radiation death of cells, Moscow: Energoatomizdat, 150, 1985.
- Holley, W. R. and Chatterjee, A.: Clusters of DNA damage induced by ionizing radiation: formation of short DNA fragments, I. Theoretical modelling, Radiat. Res., 145, 188–199, 1996.
- JEDEC Standard: Measurement and Reporting of Alpha Particle and Terrestrial Cosmic Ray-Induced Soft Errors in Semiconductor Devices JESD89A (Revision of JESD89, August 2001), JEDEC solid state technology association, 83, 2006.
- Juckett, D. A.: Correlation of a 140-year global time signature in cancer mortality birth cohorts with galactic cosmic ray variation, Int. J. Astrobiol., 6, 307–319, 2007.
- Mariya, Y., Streffer, C., Fuhrmann, C., and Wojcik, A.: Correlation of Radiation-Induced Micronucleus Frequency with Clonogenic Survival in Cells of One Diploid and Two Tetraploid Murine Tumor Cell Lines of the Same Origin, Rad. Res., 147, 29–34, 1997.
- Mavromichalaki, H., Papailiou, M., Dimitrova, S., Babayev, E. S., and Mustafa, F. R.: Geomagnetic disturbances and cosmic ray variations in relation to human cardio-health state: A wide collaboration, in: Proc. ECRS 2008, 351, 2008.
- Mendoza, B. and Sánchez de la Peña, S.: Solar activity and human health at middle and low geomagnetic latitudes in Central America, Adv. Space Res., 46, 449–459, 2010.
- Papailiou, M., Dimitrova, S., Babayev, E. S., and Mavromichalaki, H.: Analysis of Changes of Cardiological Parameters at Middle Latitude Region in Relation to Geomagnetic Disturbances and Cosmic Ray Variations, AIP Conf. Proc., 1203, 748–753, 2010.
- Reeves, G. D., Cayton, T. E., Gary, S. P., and Belian, R. D.: The great solar energetic particle events of 1989. Observed from geosynchronous orbit, J. Geophys. Res., 97, 6219–6226, 1992.
- Reitz, G.: Neutron dosimetric measurements in shuttle and MIR, Radiation Measurements, 33, 341–346, 2001.
- Rydberg, B.: Clusters of DNA damage induced by ionising radiation: formation of short DNA fragments, II. Experimental detection, Radiat. Res., 145, 200–209, 1996.
- Sato, N., Mizumoto, K., Nakamura, M., and Tanaka, M.: Radiation-Induced Centrosome Overduplication and Multiple Mitotic Spindles in Human Tumor Cells, Exp. Cell Res., 255, 321–326, 2000.
- Shea, M. F. and Smart, D. F.: History of solar proton event observations, in: Proc. Suppl. Nuclear Physics B, 39, 16–25, 1995.
- Singleterry, R. C., Badavi, Jr., F. F., Shinn, J. L., Cucinotta, F. A., Badhwar, G. D., Clowdsley, M. S., Heinbockel, J. H., Wilson, J. W., Atwell, W., Beaujean, R., Kopp, J., and Reitz, G.: Estimation of neutron and other radiation exposure components in low earth orbit, Rad. Meas., 33, 355–360, 2001.
- Stoupel, E. G., Frimer, H., Appelman, Z., Ben-Neriah, Z., Dar, H., Fejgin, M. D., Gershoni-Baruch, R., Manor, E., Barkai, G., Shalev, S., Gelman-Kohan, Z., Reish, O., Lev, D., Davidov, B., Goldman, B., and Shohat, M.: Chromosome aberration and environmental physical activity: Down syndrome and solar and cosmic ray activity, Israel, 1990–2000, Int. J. Biometeorol., 50, 1–5, 2005.
- Stoupel, E., Kalediene, R., Petrauskiene, J., Starkuviene, S., Abramson, E., Israelevich, P., and Sulkes, J.: Monthly Deaths Number And Concomitant Environmental Physical Activity: 192 Months Observation (1990–2005), Sun and Geosphere, 2, 78–83, 2007.
- Sverdlov, A. G.: Biologic Action of Neutrons and Chemical Protection, Nauka, Leningrad, 223, 1974.
- Szczeklik, E., Mergentaler, J., Kotlarek-Haus, S., Kuliszkiewicz-Janus, M., Kucharczyk, J., and Janus, W.: Solar activity and myocardial infarction, Cor Vasa, 25(1), 49–55, 1983.
- Vinnichenko, M. B., Belisheva, N. K., and Zhirov, V. K.: Modulation of Water Properties by Variations of Cosmic Rays, Pleiades Publishing, Doklady Earth Sciences, 429, 1597–1601, 2009.
- Vladimirsky, B. M. and Temuryants, N. A.: The influence of solar activity on the biosphere-noosphere, edited by: L. A. Blumenfeld and N. N. Moiseev, MNEPU, 373, 2000.
- Yanovsky, B. M.: Terrestrial magnetism, Leningrad University Press, 592, 1978.
- Zhou, H., Randers-Pehrson, G., Waldren, Ch. A., Vannais, D., Hall, E. J., and Hei, T. K.: Induction of a bystander mutagenic effect of alpha particles in mammalian cells, PNAS, 97, 2099–2104, 2000.
- Zhou, H., Suzuki, M., Randers-Pehrson, G., Vannais, D., Chen, G., Trosko, J. E., Waldren, Ch. A., and Hei, T. K.: Radiation risk to low fluences of α particles may be greater than we thought, PNAS, 98, 4410–14415, 2001.
- Ziegler, J. F.: Terrestrial cosmic rays, IBM, J. Res. Develop., 40, 19–39, 1996.
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