Radionuclide Bioconcentration Factors and Sediment Partition Coefficients in Arctic Seas Subject to Contamination from Dumped Nuclear Wastes
The disposal of large quantities of radioactive wastes in Arctic Seas by the former Soviet Union has prompted interest in the behavior of long-lived radionuclides in polar waters. Previous studies on the interactions of radionuclides prominent in radioactive wastes have focused on temperate waters;...
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| Published in | Environmental science & technology Vol. 33; no. 12; pp. 1979 - 1982 |
|---|---|
| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Washington, DC
American Chemical Society
15.06.1999
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| Abstract | The disposal of large quantities of radioactive wastes in Arctic Seas by the former Soviet Union has prompted interest in the behavior of long-lived radionuclides in polar waters. Previous studies on the interactions of radionuclides prominent in radioactive wastes have focused on temperate waters; the extent to which the bioconcentration factors and sediment partitioning from these earlier studies could be applied to risk assessment analyses involving high latitude systems is unknown. Here we present concentrations in seawater and calculated in situ bioconcentration factors for 90Sr, 137Cs, and 239+240Pu (the three most important radionuclides in Arctic risk assessment models) in macroalgae, crustaceans, bivalve molluscs, sea birds, and marine mammals as well as sediment K d values for 13 radionuclides and other elements in samples taken from the Kara and Barents Seas. Our data analysis shows that, typically, values for polar and temperate waters are comparable, but exceptions include 10-fold higher concentration factors for 239+240Pu in Arctic brown macroalgae, 10-fold lower K d values for 90Sr in Kara Sea sediment than in “typical” temperate coastal sediment, and 100-fold greater Ru K d values in Kara Sea sediment. For most elements application of temperate water bioconcentration factors and K d values to Arctic marine systems appears to be valid. |
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| AbstractList | The disposal of large quantities of radioactive wastes in Arctic Seas by the former Soviet Union has prompted interest in the behavior of long-lived radionuclides in polar waters. Previous studies on the interactions of radionuclides prominent in radioactive wastes have focused on temperate waters; the extent to which the bioconcentration factors and sediment partitioning from these earlier studies could be applied to risk assessment analyses involving high latitude systems is unknown. Here we present concentrations in seawater and calculated in situ bioconcentration factors for 90Sr, 137Cs, and 239+240Pu (the three most important radionuclides in Arctic risk assessment models) in macroalgae, crustaceans, bivalve molluscs, sea birds, and marine mammals as well as sediment K d values for 13 radionuclides and other elements in samples taken from the Kara and Barents Seas. Our data analysis shows that, typically, values for polar and temperate waters are comparable, but exceptions include 10-fold higher concentration factors for 239+240Pu in Arctic brown macroalgae, 10-fold lower K d values for 90Sr in Kara Sea sediment than in “typical” temperate coastal sediment, and 100-fold greater Ru K d values in Kara Sea sediment. For most elements application of temperate water bioconcentration factors and K d values to Arctic marine systems appears to be valid. The disposal of large quantities of radioactive wastes in Arctic Seas by the former Soviet Union has prompted interest in the behavior of long-lived radionuclides in polar waters. Previous studies on the interactions of radionuclides prominent in radioactive wastes have focused on temperate waters; the extent to which the bioconcentration factors and sediment partitioning from these earlier studies could be applied to risk assessment analyses involving high latitude systems is unknown. Here we present concentrations in seawater and calculated in situ bioconcentration factors for super(90)Sr, super(137)Cs, and super(239+240)Pu (the three most important radionuclides in Arctic risk assessment models) in macroalgae, crustaceans, bivalve molluscs, sea birds, and marine mammals as well as sediment K sub(d) values for 13 radionuclides and other elements in samples taken from the Kara and Barents Seas. Our data analysis shows that, typically, values for polar and temperate waters are comparable, but exceptions include 10-fold higher concentration factors for super(239+240)Pu in Arctic brown macroalgae, 10-fold lower K sub(d) values for super(90)Sr in Kara Sea sediment than in `typical' temperate coastal sediment, and 100-fold greater Ru K sub(d) values in Kara Sea sediment. For most elements application of temperate water bioconcentration factors and K sub(d) values to Arctic marine systems appears to be valid. The disposal of large quantities of radioactive wastes in Arctic Seas by the former Soviet Union has prompted interest in the behavior of long-lived radionuclides in polar waters. Previous studies on the interactions of radionuclides prominent in radioactive wastes have focused on temperature waters; the extent to which the bioconcentration factors and sediment partitioning from these earlier studies could be applied to risk assessment analyses involving high latitude systems is unknown. Here we present concentrations in seawater and calculated in situ bioconcentration factors for super(90)Sr, super(137)Cs, and super(239+240)Pu (the three most important radionuclides in Arctic risk assessment models) in macroalgae, crustaceans, bivalve molluscs, sea birds, and marine mammals as well as sediment K sub(d) values for 13 radionuclides and other elements in samples taken from the Kara and Barents Seas. Our data analysis shows that, typically, values for polar and temperate waters are comparable, but exceptions include 10-fold higher concentration factors for super(239+240)Pu in Arctic brown macroalgae, 10-fold lower K sub(d) values for super(90)Sr in Kara Sea sediment than in "typical" temperate coastal sediment, and 100-fold greater Ru K sub(d) values in Kara Sea sediment. For most elements application of temperate water bioconcentration factors and K sub(d) values to Arctic marine systems appears to be valid. Bioconcentration factors and sediment partition coefficients of radionuclides dumped in Arctic seas are, with some exceptions, generally comparable to those in temperate ecosystems. The disposal of large quantities of radioactive wastes in Arctic Seas by the former Soviet Union has prompted interest in the behavior of long-lived radionuclides in polar waters. Previous studies on the interactions of radionuclides prominent in radioactive wastes have focused on temperate waters; the extent to which the bioconcentration factors and sediment partitioning from these earlier studies could be applied to risk assessment analyses involving high latitude systems is unknown. Here the authors present concentrations in seawater and calculated in situ bioconcentration factors for [sup 90]Sr, [sup 137]Cs, and [sup 239+240]Pu (the three most important radionuclides in Arctic risk assessment models) in macroalgae, crustaceans, bivalve molluscs, sea birds, and marine mammals as well as sediment K[sub d] values for 13 radionuclides and other elements in samples taken from the Kara and Barents Seas. The data analysis shows that, typically, values for polar and temperate waters are comparable, but exceptions include 10-fold higher concentration factors for [sup 239+240]Pu in Arctic brown macroalgae, 10-fold lower K[sub d] values for [sup 90]Sr in Kara Sea sediment than in typical temperate coastal sediment, and 100-fold greater Ru K[sub d] values in Kara Sea sediment. For most elements application of temperate water bioconcentration factors and K[sub d] values to Arctic marine systems appears to be valid. Data are presented for seawater concentrations and calculated in-situ bioconcentration factors for strontium-90, caesium-137 and plutonium-239 and 240 in Arctic sea macroalgae, crustaceans, bivalve molluscs, sea birds and marine mammals, together with sediment partition coefficient (K d) values for radionuclides and other elements from the Kara and Barents seas. Analysis indicated 10-fold higher concentration factors for plutionium in brown macroalgae, 10-fold lower K d values for strontium in Kara sea sediment compared with coastal sediment and an 100-fold greater ruthenium K d value in Kara sea sediment. Other values for polar and temperate waters were comparable. |
| Author | Boisson, Florence Fisher, Nicholas S Sjoeblom, Kirsti-Liisa Fowler, Scott W Carroll, JoLynn Sazykina, Tatiana G Rissanen, Kristina Salbu, Britt |
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| Cites_doi | 10.1016/S0048-9697(97)00101-0 10.1016/S0048-9697(97)00106-X 10.1016/S0048-9697(97)00115-0 10.1016/S0025-326X(97)00092-1 10.1016/S0141-1136(97)00019-6 10.1007/BF00349252 10.1016/0141-1136(95)00026-7 10.1051/978-2-7598-0138-1.c007 10.1016/S0025-326X(97)00090-8 10.4319/lo.1983.28.3.0432 |
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| Snippet | The disposal of large quantities of radioactive wastes in Arctic Seas by the former Soviet Union has prompted interest in the behavior of long-lived... Bioconcentration factors and sediment partition coefficients of radionuclides dumped in Arctic seas are, with some exceptions, generally comparable to those in... Data are presented for seawater concentrations and calculated in-situ bioconcentration factors for strontium-90, caesium-137 and plutonium-239 and 240 in... |
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| SubjectTerms | 540330 - Environment, Aquatic- Radioactive Materials Monitoring & Transport- (1990-) ACTINIDE NUCLEI ALKALINE EARTH ISOTOPES ALPHA DECAY RADIOISOTOPES AQUATIC ORGANISMS Arctic ARCTIC REGIONS BETA DECAY RADIOISOTOPES BETA-MINUS DECAY RADIOISOTOPES BIOLOGICAL INDICATORS CESIUM 137 CESIUM ISOTOPES Chemistry CONTAMINATION CRYOSPHERE ECOLOGICAL CONCENTRATION ENVIRONMENTAL IMPACTS ENVIRONMENTAL SCIENCES EVEN-EVEN NUCLEI EVEN-ODD NUCLEI HEAVY NUCLEI INTERMEDIATE MASS NUCLEI ISOTOPES Marine MATERIALS MONITORING Nuclear fuels NUCLEI Oceans ODD-EVEN NUCLEI PLUTONIUM 239 PLUTONIUM 240 PLUTONIUM ISOTOPES POLAR REGIONS RADIATION MONITORING RADIOACTIVE MATERIALS RADIOACTIVE WASTES RADIOECOLOGICAL CONCENTRATION RADIOISOTOPES Russia, Barents Sea Russia, Kara Sea SEAS Sediments SPONTANEOUS FISSION RADIOISOTOPES STRONTIUM 90 STRONTIUM ISOTOPES SURFACE WATERS WASTES YEARS LIVING RADIOISOTOPES |
| Title | Radionuclide Bioconcentration Factors and Sediment Partition Coefficients in Arctic Seas Subject to Contamination from Dumped Nuclear Wastes |
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