| [1] | CRIST N. Filer. Tritium labelled photoaffinity agents[J]. Radioanal Nucl Chem, 2009, 281:521-530. |
| [2] | LASSAAD D. Use of chloride mass balance and tritium data for estimation of groundwater recharge and renewal rata in an unconfined aquifer from North Africa:Case study from Tunisia[J].Environ Earth, 2010, 60:861-871. |
| [3] | IAEA. International basic safety standards for protection against ionizing radiation and for the safety of radiation sources IAEA safety, series No.115[R].Vienna, 1996. |
| [4] | GALERIU D, MELINTESCU A, TAKEDA H. Risk from tritium exposure[J]. IRPA, Regional Congress for Central and Eastern Europe, 2007,9:24-28. |
| [5] | ALEXANDER G, SWARTZ H M, AMUNDSON S A. et al. Acute dosimetry consensus committee recommendations on biodosimetry applications in events involving uses of radiation by terrorists and radiation accidents[J]. Radiation Measurements, 2007, 42:972-996. |
| [6] | BALAKRISHNAN S, SHIRSATH K, BATH N. Biodosimetry for high dose accidental exposures by drug induced premature chromosome condensation (PCC) assay[J]. Mutation Research, 2010, 699:11-16. |
| [7] | BLAKELY W F, CARR Z, CHIN C M, et al. WHO 1st Consultation on the development of a Global biodosimetry laboratories network for radiation emergencies (BioDoseNet)[J]. Radiation Research, 2007, 171:127-139. |
| [8] | DECODIER I, PAPINE A, PLAS G, et al. Automated image analysis of cytokinesis-blocked micronuclei:An adapted protocol and a validated scoring procedure for biomonitoring[J]. Mutagenesis, 2009, 24:85-93. |
| [9] | FENECH M. The lymphocyte cytokinesis-block micronucleus cytome assay and 1st application in radiation biodosimetry[J]. Health Phys, 2010, 98:234-243. |
| [10] | GONZALEZ A J. An international perspective on radiological threats and the need for retrospective biological dosimetry of acute radiation overexposures[J]. Radiation Measurements, 2007, 42:1053-1062. |
| [11] | IAEA. Cytogenetic analysis for radiation dose assessment. A manual//Technical reports series No. 405[R]. International Atomic Energy Agency, Vienna, 2001. |
| [12] | IAEA. Generic procedures response during a nuclear or radiological emergency[R]. EPR-MEDICAL. IAEA, Vienna, Austria, 2005. |
| [13] | BALONOV M I, LIKHATAREV I A, MOSKALEV I Y. The metabolism of 3H compounds and limits for intakes by workers[J]. Health Physics. 1984,47(5):761. |
| [14] | SVENSSON H, HANSON G P, ZADANZKY K. The IAEA/WHO TL dosimetry service for radiotherapy centres[J]. Acta Oncologica, 1990, 29(4):461-467. |
| [15] | SREEDVI B, SHANKAANAAYANAN N, RAO B S. The induction of micronuclei and chromosomal aberrations in human lymphocytes irradiated in vitro with fission neutrons[J]. Radiation Protection and Environment, 1997,20(1):21-25. |
| [16] | BENDER M L. Molecular Biochemistry[J]. Science, 1962, 138(3541):672. |
| [17] | DOBSON R L. Health effects of low level radiation:Carcinogenesis, teratogenesis, and mutagenesis effects of low level radiation[J]. Seminars in Nuclear Medicine, 1986, 16(2):106-117. |
| [18] | IAEA. Biological dosimetry:Chromosomal aberration analysis for dose assessment. Technical Report Series, No. 26[R]. IAEA, Vienna, 1986. |
| [19] | ANDERSON V, MA T H. Micronuclei induced by low-dose cobalt-60 gamma-irradiation in Tradescantia pollen mother cells[J]. Environmental Mutagenesis 1982, 16(4):342-348. |
| [20] | CEBULSKA W A. Tradescantia stamen-hair mutation bioassay on the mutagenicity of radioisotope-contaminated air following the chernobyl nuclear accident and one year later[J]. Mutation Research, 1992, 270:23-29. |
| [21] | ICHIKAWA S. Tradescantia stamen-hair system as an excellent botanical tester of mutagenicity:Its responses to ionizing radiations and chemical mutagens, and some synergistic effects found[J]. Mutation Research,1992, 270(1):3-22. |