Moyen C, Roblinb G. Uptake and translocation of strontium in hydroponically grown maize plants,and subsequent effects on tissue ion content, growth and chlorophyll a/b ratio: comparison with Ca effects[J]. Environmental and Experimental Botany, 2010,68: 247-257
[6]
Singh S, Malhotra R, Bajwa B S. Uranium uptake studies in some plants[J]. Radiation Measurements, 2005,40:666-669
Willey N J, Tang S, McEwen A, et al. The effects of plant traits and phylogeny on soil-to-plant transfer of 99Tc[J].Journal of Environmental Radioactivity, 2010,101:757-766
[10]
Squire H M, Middleton L J. Behaviour of Cs137 in soils and pastures a long term experiment[J]. Radiation Botany, 1966, 6(5): 413-423
[11]
Strebl F, Ehlken S, Gerzabek M H, et al. Behaviour of radionuclides in soil/crop systems following contamination[J].Radioactivity in the Environment, 2007,10, 19-42
Scott A, Silva S. Foliar absorption and leaf-fruit transfer of137Cs in fruit trees[J]. Journal of Environmental Radioactivity, 1992,16(2):97-108
[16]
Paasikallio A, Rantavaara A, Sippola J. The transfer of cesium-137 and strontium-90 from soil to food crops after the Chernobyl accident[J]. The Science of The Total Environment, 1994,155(2): 109-124
[17]
Mascanzoni D. Plant uptake of activation and fission products in a long-term field study[J]. Journal of Environmental Radioactivity,1989,10((3): 233-249
[18]
Aarkrog A. On the direct contamination of rye, barley, wheat and oats with85Sr,134Cs,54Mn and141Ce[J]. Radiation Botany, 1969,9(5): 357-366
Misson J, HennerP, MorelloM,et al. Use of phosphate to avoid uranium toxicity in Arabidopsis thaliana leads to alterations of morphological and physiological responses regulated by phosphate vailability[J].Environmental and Experimental Botany, 2009,67:353-362
[24]
Shtangeeva I. Uptake of uranium and thorium by native and cultivated plants[J].Journal of Environmental Radioactivity, 2010,101:458-463
[25]
Tsukadaa H, Hasegawaa H, Hisamatsua S,et al. Transfer of 137 Cs and stable Cs from paddy soil to polished rice in Aomori, Japan[J]. Environmental Radioactivity,2002,59:351-363
[26]
Velasco H, Ayub J J, Sansone U. Analysis of radionuclide transfer factors from soil to plant in tropical and subtropical environments[J]. Applied Radiation and Isotopes, 2008, 66: 1759-1763
[27]
Sheppard S C, Evenden W G. Critical compilation and review of plant/soil concentration ratios for uraniun thorium and lead [J]. Journal of Environmental Radioactivity, 1988,8(3): 255-285
[28]
Simon S L, Graham J C, Terp S D. Uptake of 40K and137Cs in native plants of the marshall islands[J].Journal of Environmental Radioactivity,2002,59: 223-243
[29]
Velasco H, Ayub J, Sansone U. Analysis of radionuclide transfer factors from soil to plant in tropical and subtropical environments[J]. Applied Radiation and Isotopes, 2008,66:1759-1763
[30]
Hosseini A,Thrring H, Brown J E,et al. Transfer of radionuclides in aquatic ecosystems-Default concentration ratios for aquatic biota in the Erica Tool[J]. Journal of Environmental Radioactivity, 2008, 99: 1408-1429
[31]
Vandenhove H, Olyslaegers G, Sanzharova N. Proposal for new best estimates of the soil-to-plant transfer factor of U, Th, Ra, Pb and Po[J]. Journal of Environmental Radioactivity, 2009, 100:721-732
[32]
Shtangeeva I. Uptake of uranium and thorium by native and cultivated plants.Journal of Environmental Radioactivity, 2010,101:458-463
Shaw G, Bell J N. The Kinetics of Caesium absorption by roots of winter wheat and the possible consequences for the derivation of soil-to-plant transfer factors for radiocaesium[J]. Journal of Environmental Radioactivity, 1989,10,(3): 213-231
[36]
Broadley M R,Willey N J. Differences in root uptake of radiocaesium by 30 plant taxa[J]. Environmental Pollution, 1997, 97(2): 11-15
Pettersson H B L, Hancock G, Johnston A, et al. Uptake of uranium and thorium series radionuclides by the waterlily, Nymphaea violacea[J]. Journal of Environmental Radioactivity, 1993.19(2): 85-108
[47]
Ghuman G S, Motes B G, Fernandez S J, Distribution of antimony-125, cesium-137, and iodine-129 in the soil-plant system around a nuclear fuel reprocessing plant[J].Journal of Environmental Radioactivity, 1993,21(3): 161-176
[48]
Lauria D C, Ribeiro F CA, Conti C C, et al. Radium and uranium levels in vegetables grown using different farming management systems[J].Journal of Environmental Radioactivity, 2009,100:176-183
Straczek A, Duquene L, Wegrzynek D. Differences in U root-to-shoot translocation between plant species explained by U distribution in roots[J]. Journal of Environmental Radioactivity,2010,101: 258-266
Edmans J D,Brabander D J, Coleman D S. Uptak and mobility of uranium in black oaks:implications for biomonitoring depleted uranium-contaminated groundwater[J]. Chemoshere, 2001,44,789-795
唐世荣,Wilke B M. 植物修复技术与农业生物环境工程[J]. 农业工程学报,1999,15(2):21-26
[61]
Smolders E, Merckx R. Some principles behind the selection of crops to minimize radionucleide uptake from soil[J]. The Science of The Total Environment, 1993,137(1-3): 135-146
[62]
Hinton T G, McDonald M, Ivanov Y. Foliar absorption of resuspended 137Cs relative to other pathways of plant contamination[J]. Journal of Environmental Radioactivity, 1996, 30(1): 15-30
[63]
Sabbaresea C, Stellatoa L, Cotrufo M F, et al. Transfer of 137Cs and 60Co from irrigation water to a soil-tomato plant system[J]. Journal of Environmental Radioactivity, 2002, 61: 21-31
[64]
Scotti I A. Effect of treatment time on the 134 Cs and 85 Sr concentrations in green bean plants[J]. J. Environ. Radioactivity, 1996, 33(2):183-191
[65]
Rufyikiri G, Wannijn J, Wang L. Effects of phosphorus fertilization on the availability and uptake of uranium and nutrients by plants grown on soil derived from uranium mining debris[J]. Environmental Pollution, 2006,141: 420-427
[66]
Massas I, Skarlou V,Haidouti C.134Cs uptake by four plant species and Cs-K relations in the soil-plant system as affected by Ca(OH)2 application to an acid soil[J]. Journal of Environmental Radioactivity, 2010,101: 250-257
[67]
Echevarria G, Sheppard M, Morel J. Effect of pH on the sorption of uranium in soils[J]. Environmental Radioactivity,2001,53: 257-264
Belli M, Sansone U, Ardiani R,et al. The effect of fertilizer applications on137Cs uptake by different plant species and vegetation types[J]. J. Environ Radioactivity, 1995,27: 75-89
[70]
Ciuffo L E C, Belli M, Pasquale A, et al.137Cs and40K soil-to-plant relationship in a seminatural grassland of the Giulia Alps, Italy[J]. The Science of the Total Environment, 2002,295: 69-80
Jones H E, Harrison A F, Poskitt J M, et al. The effect of potassium nutrition on137Cs uptake in two upland species[J]. Journal of Environmental Radioactivity, 1991,14(4): 279-294
[73]
Roca M C, Vallejo V R. Effect of Soil Potassium and Calcium on Caesium and Strontium Uptake by Plant Roots[J]. J. Environ. Radioactivity, 1995, 28 (2): 141-159
[74]
Djingova R, Kuleff I. Concentration of caesium-137, cobalt-60 and potassium-40 in some wild and edible plants around the nuclear power plantin Bulgaria[J]. Environmental Radioactivity, 2002,59: 61-73
[75]
Sheppard S C, Long J M, Sanipelli B. Plant/soil concentration ratios for paired field and garden crops, with emphasison iodine and the role of soil adhesion[J]. Journal of Environmental Radioactivity, 2010, 101: 1032-1037
[76]
Tsukada H, Nakamura Y. Transfer of137Cs and stable Cs from soil to potato in agricultural fields[J]. The Science of the Total Environment, 1999,228: 111-120
Viehweger K, Geipel G. Uranium accumulation and tolerance in Arabidopsis halleri under native versus hydroponic conditions[J].Environmental and Experimental Botany, 2010,69: 39-46
