Transfer of radionuclides in aquatic ecosystems--default concentration ratios for aquatic biota in the Erica Tool.

The process of assessing risk to the environment following a given release of radioactivity requires the quantification of activity concentrations in environmental media and reference organisms. The methodology adopted by the ERICA Integrated Approach involves the application of concentration ratios (CR values) and distribution coefficients (K(d) values) for aquatic systems. Within this paper the methodologies applied to derive default transfer parameters, collated within the ERICA Tool databases, are described to provide transparency and traceability in the documentation process. Detailed information is provided for the CR values used for marine and freshwater systems. Of the total 372 CR values derived for the marine ecosystem, 195 were identified by literature review. For the freshwater system, the number of values based on review was less, but still constituted 129 from a total of 372 values. In both types of aquatic systems, 70-80% of the data gaps have been filled by employing "preferable" approaches such as those based on substituting values from taxonomically similar organisms or biogeochemically similar elements.

[1]  T. O'hara,et al.  Radionuclide Contaminant Burdens in Arctic Marine Mammals Harvested During Subsistence Hunting , 2000 .

[2]  V. B. Chumichev,et al.  Survey of artificial radionuclides in the Kara Sea , 1993 .

[3]  P. Hameed,et al.  A study of polonium-210 distribution aspects in the riverine ecosystem of Kaveri, Tiruchirappalli, India. , 1997, Environmental pollution.

[4]  G. Matishov,et al.  Radioacivity Levels in Fish, Benthic Fauna, Seals and Sea Birds Collected in the Northwest Arctic of Russia , 1997 .

[5]  F. Carvalho 210Po in Marine Organisms: A Wide Range of Natural Radiation Dose Domains , 1988 .

[6]  D. Baker,et al.  Methods for estimating doses to organisms from radioactive materials released into the aquatic environment , 1992 .

[7]  K. Shaheed,et al.  A study on distribution of natural radionuclide polonium-210 in a pond ecosystem , 1997, Journal of Biosciences.

[8]  J. Fisher,et al.  Effect of deposit feeders on migration of137Cs in lake sediments , 1979 .

[9]  J. Vives i Batlle,et al.  Uptake and depuration of 131I by the edible periwinkle Littorina littorea: uptake from seawater. , 2004, Journal of environmental radioactivity.

[10]  T. Ryan,et al.  Technetium-99 in the Irish marine environment. , 2001, Journal of environmental radioactivity.

[11]  S. Jørgensen Handbook of Ecological Parameters and Ecotoxicology , 1991 .

[12]  Arctic Monitoring and Assessment Programme AMAP Assessment Report: Arctic Pollution Issues , 1998 .

[13]  R. Cherry,et al.  Polonium-210 and lead-210 in marine food chains , 1979 .

[14]  P. Coughtrey,et al.  Radionuclide distribution and transport in terrestrial and aquatic ecosystems. A critical review of data. Volume 1. , 1983 .

[15]  B. Cohen Bioaccumulation factors in marine organisms. , 1985, Health physics.

[16]  P. Hameed,et al.  Radium-226 levels in the Cauvery river ecosystem, India , 1997, Journal of Biosciences.

[17]  K. Leonard,et al.  Time series for sea water and seaweed of 99Tc and 125Sb originating from releases at La Hague , 1995 .

[18]  D. Schindler,et al.  Environmental toxicity of aquatic radionuclides: Models and mechanisms , 1976 .

[19]  P. McDonald,et al.  Natural and Anthropogenic Radioactivity in Coastal Regions of the UK , 1992 .

[20]  K. M. Wong,et al.  Transuranics and other radionuclides in Bikini Lagoon: Concentration data retrieved from aged coral sections1 , 1975 .

[21]  D Copplestone,et al.  Derivation of transfer parameters for use within the ERICA Tool and the default concentration ratios for terrestrial biota. , 2008, Journal of environmental radioactivity.

[22]  F. V. Clulow,et al.  Radium-226 in water, sediments, and fish from lakes near the city of Elliot Lake, Ontario, Canada. , 1998, Environmental pollution.

[23]  L. D. Hamilton,et al.  Radium concentration factors and their use in health and environmental risk assessment , 1992 .

[24]  Jenkins Ce Radionuclide distribution in pacific salmon. , 1969 .

[25]  T. Ueda,et al.  Concentration of Elements in Marine Zooplankton from Coastal Waters of Boso Peninsula, Japan , 1998 .

[26]  G. Schlapper Radionuclide Distribution and Transport in Terrestrial and Aquatic Ecosystems , 1986 .

[27]  Y. Honda,et al.  Studies on the Concentration of Radioactive Substances by Plankton, Chlorella pyrenoidosa , 1990 .

[28]  J. Teyssie,et al.  Influence of temperature on the accumulation and retention of 11 radionuclides by the Marine Alga Fucus vesiculosus (L.) , 1997 .

[29]  J. Teyssie,et al.  Accumulation of Th, Pb, U, and Ra in marine phytoplankton and its geochemical significance , 1987 .

[30]  E Ilus Summary Report of the NKS-B/INDOFERN Project (New indicator organisms for environmental radioactivity) , 2006 .

[31]  M. Alam,et al.  Radionuclide concentrations in mussels collected from the southern coast of Bangladesh. , 2000 .

[32]  Hid N. Grouni,et al.  Reliability based design in civil engineering , 1988 .

[33]  Y. Tateda,et al.  Concentration factors for Cs-137 in marine algae from Japanese coastal waters. , 1994, Journal of radiation research.

[34]  C. Triulzi,et al.  Radioecological research on the marine environment facing the Italian base in Antarctica (1989-91) , 1994 .

[35]  A. Aarkrog Radioactive Contamination of the Marine Environment , 2007 .

[36]  S. Fowler,et al.  Interactions of marine plankton with transuranic elements , 1983 .

[37]  J. N. Cameron The bone compartment in a teleost fish, Ictalurus punctatus: size, composition and acid-base response to hypercapnia. , 1985, The Journal of experimental biology.

[38]  B. Kahn,et al.  The bioaccumulation factor for phosphorus-32 in edible fish tissue. , 1980, Health physics.

[39]  G. Polikarpov,et al.  Ability of Some Black Sea Organisms To Accumulate Fission Products , 1961, Science.

[40]  M. Dowdall,et al.  The Derivation of Transfer Parameters in the Assessment of Radiological Impacts on Arctic Marine Biota , 2004 .

[41]  Wen-Xiong Wang,et al.  Metal uptake in a coastal diatom influenced by major nutrients (N, P, and Si). , 2001, Water research.

[42]  N. Fisher,et al.  Bioaccumulation of 137Cs and 57Co by five marine phytoplankton species. , 2001, Journal of environmental radioactivity.

[43]  Thiels Gm,et al.  Distribution of 241Am in the freshwater snail Lymnaea stagnalis L. and water acidity. , 1980 .

[44]  J. Ancellin,et al.  Nouvelles études de contaminations expérimentales d'espèces marines par le césium 137, le ruthénium 106 et le cérium 144 , 1968 .

[45]  S. V. Kaye,et al.  Bioaccumulation factors for radionuclides in freshwater biota , 1975 .

[46]  R. S. Harvey Uptake and loss of radionuclides by the freshwater clam Lampsilis radiata (Gmel.). , 1969, Health physics.

[47]  T. Ryan,et al.  210Po in Mytilus edulis in the Irish marine environment , 1999 .

[48]  Nick Beresford,et al.  D-ERICA: An integrated approach to the assessment and management of environmental risk from ionising radiation. Description of purpose, methodology and application. , 2007 .

[49]  P. Strand,et al.  Environmental Radioactivity in the Arctic and Antarctic , 1993 .

[50]  S. Fowler,et al.  Interactions of marine plankton with transuranic elements. 1. Biokinetics of neptunium, plutonium, americium, and californium in phytoplankton , 1983 .

[51]  E. Holm,et al.  Radionuclides in macro algae at Monaco following the Chernobyl accident , 1994 .

[52]  E. Goldberg,et al.  Trace elements in clams, mussels, and shrimp. , 1972 .

[53]  G. Nagel,et al.  Radioaktivität in Fischen aus der Nordsee , 1992 .

[54]  G. Leclerc,et al.  Évolution spatio-temporelle des concentrations, des rapports isotopiques et des facteurs de concentration du plutonium dans une espèce d'algue et deux espèces de mollusques en Manche , 2000 .

[55]  X. Hou,et al.  Study on the concentration and seasonal variation of inorganic elements in 35 species of marine algae , 1998 .

[56]  W. R. Schell,et al.  210Po and 239Pu, 240Pu in biological and water samples from the Bikini and Eniwetok atolls , 1975, Nature.

[57]  K. El-Moselhy,et al.  Trace metals in water, sediments and marine organisms from the northern part of the Gulf of Suez, Red Sea , 2004 .

[58]  B. Persson,et al.  Radiocesium and Transuranium Elements in the Greenland and Barents Seas , 1983 .

[59]  C-M Larsson The FASSET framework for assessment of environmental impact of ionising radiation in European ecosystems--an overview. , 2004, Journal of radiological protection : official journal of the Society for Radiological Protection.

[60]  David Vose,et al.  Monte Carlo Risk Analysis Modeling , 1996 .

[61]  J. Teyssie,et al.  Tellurium—speciation in seawater and accumulation by marine phytoplankton and crustaceans , 1991 .

[62]  G. Torsi,et al.  Determination of Se, As, Cu, Pb, Cd, Zn and Mn by anodic and cathodic stripping voltammetry in marine environmental matrices in the presence of reciprocal interference. Proposal of a new analytical procedure , 2000 .

[63]  D. L. Strenge,et al.  GENII: The Hanford Environmental Radiation Dosimetry Software System: Volume 1, Conceptual representation , 1988 .

[64]  L. Shannon,et al.  The alpha radioactivity of marine organisms. , 1974, Atomic energy review.

[65]  T. Poston,et al.  Concentration factors used in the assessment of radiation dose to consumers of fish: a review of 27 radionuclides. , 1988, Health physics.

[66]  Nicholas S. Fisher,et al.  Radionuclide Bioconcentration Factors and Sediment Partition Coefficients in Arctic Seas Subject to Contamination from Dumped Nuclear Wastes , 1999 .

[67]  Polychlorinated biphenyls and p, p′-DDE in Loggerhead and Green postyearling Atlantic sea turtles , 1983, Bulletin of environmental contamination and toxicology.

[68]  J. Amiard,et al.  Health and ecological aspects of cobalt‐60 transfer in seawater food chain typical of an intertidal mud‐flat , 1976 .

[69]  W. Phillips,et al.  RADIOECOLOGICAL STUDY OF THE HUMBOLDT BAY MARINE ENVIRONMENT. , 1971 .

[70]  Conrad D. Volz,et al.  RADIONUCLIDES IN MARINE FISHES AND BIRDS FROM AMCHITKA AND KISKA ISLANDS IN THE ALEUTIANS: ESTABLISHING A BASELINE , 2007, Health physics.

[71]  D. Waite,et al.  The effect of uranium mine tailings on radionuclide concentrations in Langley Bay, Saskatchewan, Canada , 1988, Archives of environmental contamination and toxicology.

[72]  J. Vives i Batlle,et al.  Uptake and depuration of 131I by the edible periwinkle Littorina littorea: uptake from labelled seaweed (Chondrus crispus). , 2005, Journal of environmental radioactivity.

[73]  B. G. Blaylock,et al.  Radionuclide data bases available for bioaccumulation factors for freshwater biota , 1982 .

[74]  A. Nevissi,et al.  Mechanism of radium-226 transfer from sediments and water to marine fishes , 1990 .

[75]  John E. Till,et al.  Radiological assessment : a textbook on environmental dose analysis , 1983 .

[76]  D. Dyrssen,et al.  Trace metal levels in the Eastern Arctic Ocean , 1984 .

[77]  佐伯 誠道,et al.  淡水から生物への放射性物質の移行 = Concentration factors of radionuclides in freshwater organisms , 1992 .

[78]  T. Ikäheimonen,et al.  Radiocaesium in seals and terns off the Finnish coast after the Chernobyl accident , 2005 .

[79]  Humphrey John Moule Bowen,et al.  Environmental chemistry of the elements , 1979 .

[80]  C. Miller Models and parameters for environmental radiological assessments , 1984 .

[81]  J. Vives i Batlle,et al.  Allometric methodology for the calculation of biokinetic parameters for marine biota. , 2007, The Science of the total environment.

[82]  S. Fowler,et al.  Distribution of radionuclides in mussels, winkles and prawns. Part 1. Study of organisms under environmental conditions using conventional radio-analytical techniques , 1993 .

[83]  Assessment Programme,et al.  Final Report of the Workshop on Adaptation of Climate Scenarios to Arctic Climate Impact Assessments, Oslo, May 14-16, 2007. AMAP Report 2007:4. , 2008 .

[84]  R. Ichikawa,et al.  Levels of Cobalt, Cesium and Zinc in Some Marine Organisms in Japan , 1974 .

[85]  R. Saxén,et al.  Monitoring of radionuclides in the Baltic Sea in 1989-1990 , 1993 .

[86]  I. Sousa-Pinto,et al.  Biomonitoring with benthic macroalgae and direct assay of heavy metals in seawater of the Oporto coast (northwest Portugal) , 1997 .

[87]  D. J. Nelson,et al.  Clams as Indicators of Strontium-90 , 1962, Science.

[88]  P. Foster Concentrations and concentration factors of heavy metals in brown algae , 1976 .

[89]  W. H. Chapman,et al.  CONCENTRATION FACTORS OF CHEMICAL ELEMENTS IN EDIBLE AQUATIC ORGANISMS. , 1968 .

[90]  Chairman.,et al.  Modelling of the transfer of radiocaesium from deposition to lake ecosystems. , 2000 .

[91]  T. Poston,et al.  Observations on the bioaccumulation potential of thorium and uranium in rainbow trout (Salmo gairdneri) , 1982, Bulletin of environmental contamination and toxicology.

[92]  S. Ekanem,et al.  Studies on some reproductive aspects of Pseudotolithus elongatus in Cross River estuary, Nigeria , 2004 .

[93]  R. Emery,et al.  Distribution of transuranic elements in a freshwater pond ecosystem , 1975 .

[94]  R. Thomann Equilibrium Model of Fate of Microcontaminants in Diverse Aquatic Food Chains , 1981 .

[95]  K. Iwashima,et al.  Environmental contamination with radioruthenium, 1961-1965. , 1966, Journal of radiation research.

[96]  P. Stepnowski,et al.  A comparison of accumulation in molluscs from the southern Baltic, the coast of Spitsbergen and Sasek Wielki Lake in Poland , 2000 .

[97]  M. E. Conti,et al.  A biomonitoring study: trace metals in algae and molluscs from Tyrrhenian coastal areas. , 2003, Environmental research.

[98]  A. Steele Derived concentration factors for caesium-137 in edible species of North Sea fish , 1990 .

[99]  R. Russell Radioactivity and human diet. , 1966 .

[100]  E. Rogan,et al.  Radionuclides (137Cs and 40K) in harbour porpoises Phocoena phocoena from British and Irish Coastal waters , 1998 .

[101]  G. Walker,et al.  Accumulation and cellular distribution of zinc by brewing yeast , 2009 .

[102]  Y. Tateda,et al.  Concentration factors for 137Cs in Japanese coastal fish (1984-1990). , 1996, Journal of radiation research.

[103]  F. Huntingford,et al.  Reproductive ecology of a neotropical cichlid fish, Cichla monoculus (Osteichthyes: Cichlidae). , 2003, Brazilian journal of biology = Revista brasleira de biologia.

[104]  H. Bowen,et al.  Radionuclides in Ecosystems. , 1975 .

[105]  C. Lydersen,et al.  Oxygen stores and aerobic dive limit of ringed seals (Phoca hispida) , 1992 .

[106]  W. Wang,et al.  Influences of phosphate and silicate on Cr(VI) and Se(IV) accumulation in marine phytoplankton. , 2001, Aquatic toxicology.

[107]  A. V. Kudelsky,et al.  Radiocaesium concentration factors of Chernobyl-contaminated fish: a study of the influence of potassium, and “blind” testing of a previously developed model , 2000 .

[108]  G. Polikarpov Radioecology of Aquatic Organisms: The Accumulation and Biological Effect of Radioactive Substances , 1966 .

[109]  A. Hosseini,et al.  Development of a methodology for assessing the environmental impact of radioactivity in Northern Marine environments. , 2006, Marine pollution bulletin.

[110]  J. Hellou,et al.  Essential elements and priority contaminants in liver, kidney, muscle and blubber of harp seal beaters. , 1999, The Science of the total environment.

[111]  B. Skwarzec,et al.  210Po content in sea water and its accumulation in southern Baltic plankton , 1988 .

[112]  J. Higgo,et al.  High Concentrations of Transuranics and Natural Radioactive Elements In the Branchial Hearts of the Cephalopod Octopus vulgaris , 1981 .

[113]  J. H. Carpenter,et al.  CONCENTRATION AND STATE OF CERIUM IN COASTAL WATERS. , 1967 .

[114]  E. M. Davis,et al.  Biomagnification of heavy metals by organisms in a marine microcosm , 1979, Bulletin of environmental contamination and toxicology.

[115]  M. G. Marietta,et al.  Compilation of selected marine radioecological data for the Formerly Utilized Sites Remedial Action Program: Summaries of available radioecological concentration factors and biological half-lives , 1991 .

[116]  J. C. Burke,et al.  PLUTONIUM IN NORTH ATLANTIC OCEAN ORGANISMS ECOLOGICAL RELATIONSHIPS. , 1971 .

[117]  J. Mauchline,et al.  Dispersion in the Irish sea of the Radioactive Liquid Effluent from Windscale Works of the U.K. Atomic Energy Authority , 1963, Nature.

[118]  A. Abu-Hilal Effect of depositional environment and sources of pollution on uranium concentration in sediment, coral, algae and seagrass species from the Gulf of Aqaba (Red Sea) , 1994 .

[119]  Carl-Magnus Larsson,et al.  An overview of the ERICA Integrated Approach to the assessment and management of environmental risks from ionising contaminants. , 2008, Journal of environmental radioactivity.

[120]  Alan Preston Radioactivity in the marine environment , 1977 .

[121]  Brenda J. Howard,et al.  Nordic Radioecology. The transfer of radionuclides through Nordic ecosystems to man , 1995 .

[122]  B. Lind,et al.  Technetium-99 Contamination in the North Sea and in Norwegian Coastal Areas 1996 and 1997 , 1998 .

[123]  J. Guary,et al.  Experimental study of the transfer of transuranium nuclides in marine decapod crustaceans , 1990 .

[124]  T. Poston,et al.  Literature review of the concentration ratios of selected radionuclides in freshwater and marine fish , 1986 .

[125]  D. Matishov,et al.  Plutonium in fish, algae, and sediments in the Barents, Petshora and Kara Seas. , 1997, The Science of the total environment.

[126]  R. Hesslein,et al.  Geochemical Pathways and Biological Uptake of Radium in Small Canadian Shield Lakes , 1984 .

[127]  E. Holm 2.8. Polonium-210 and Radiocaesium in Muscle Tissue of Fish from Different Nordic Marine Areas , 1994 .

[128]  S E THOMPSON EFFECTIVE HALF-LIFE OF FALLOUT RADIONUCLIDES ON PLANTS WITH SPECIAL EMPHASIS ON IODINE-131. UCRL-12388. , 1965, Hazards control quarterly report.

[129]  R. Lanno,et al.  Chronic toxicity of waterborne thiocyanate to rainbow trout (Oncorhynchus mykiss) , 1996 .

[130]  P. Harrison,et al.  SE UPTAKE AND ACCUMULATION IN MARINE-PHYTOPLANKTON AND TRANSFER OF SE TO THE CLAM PUDITAPES-PHILIPPNARUM , 1990 .

[131]  S. Tanabe,et al.  Global distribution of radionuclides (137Cs and 40K) in marine mammals. , 2003, Environmental science & technology.

[132]  T. Sazykina Long-Distance Radionuclide Transfer in the Arctic Seas Related to Fish Migrations , 1998 .

[133]  M. Heyraud,et al.  Accumulation and cellular distribution of 241 Am, 210Po, and 210Pb in two marine algae , 1983 .

[134]  T. R. Rice The Accumulation and Exchange of Strontium by Marine Planktonic Algae1 , 1956 .

[135]  C. Hurtgen,et al.  The determination of technetium-99 in the brown marine alga Fucus Spiralis collected along the Belgian coast , 1988 .

[136]  W. Wang,et al.  Effects of major nutrient additions on metal uptake in phytoplankton. , 2001, Environmental pollution.

[137]  R. Pentreath,et al.  The accumulation of plutonium by the edible winkle (Littorina littorea L.) , 1988 .

[138]  B. Skwarzec,et al.  Accumulation of 210Po in Baltic invertebrates , 1988 .

[139]  C. Murray,et al.  Accumulation of americium 243 in selected brackish and marine invertebrates , 1978, Helgoländer wissenschaftliche Meeresuntersuchungen.

[140]  M. Masson,et al.  Etude préliminaire, in situ, de la distribution du plutonium dans différents tissus et organes de Cancer pagurus (Crustacea: Decapoda) et de Pleuronectes platessa (Pisces: Pleuronectidae) , 1976 .

[141]  H. Seip,et al.  A preliminary study of the use of benthic algae as biological indicators of heavy metal pollution in Sørfjorden, Norway , 1978 .

[142]  N A Beresford,et al.  Study of the uncertainty in estimation of the exposure of non-human biota to ionising radiation , 2004, Journal of radiological protection : official journal of the Society for Radiological Protection.

[143]  W. R. Schell,et al.  Concentrations of plutonium and americium in plankton from the western Mediterranean Sea. , 2003, The Science of the total environment.

[144]  D. Turner,et al.  Metal speciation and bioavailability in aquatic systems , 1995 .

[145]  J. Brown,et al.  Levels of 99Tc in seawater and biota samples from Norwegian coastal waters and adjacent seas , 1999 .

[146]  Larsson Cm,et al.  The FASSET framework for assessment of environmental impact of ionising radiation in European ecosystems--an overview. , 2004 .

[147]  R. Mansueti Book Review:The Effects of Atomic Radiation on Oceanography and Fisheries. , 1959 .

[148]  P. Roos,et al.  Studies of Np and Pu in the marine environment of Swedish-Danish waters and the North Atlantic Ocean. , 2005, Journal of environmental radioactivity.

[149]  S. S. Ismail,et al.  Nuclear methods in environmental research , 1991 .

[150]  D. Vose Risk Analysis: A Quantitative Guide , 2000 .

[151]  A. L. Rudjord,et al.  Spatial and temporal variations in concentration factors in NW European Seas - secondary use of monitoring data , 2005 .

[152]  D Copplestone,et al.  The ERICA Tool. , 2008, Journal of environmental radioactivity.

[153]  Ryuji Y Oshitome,et al.  Global Distribution of Radionuclides ( 137 Cs and 40 K) in Marine Mammals , 2003 .