Unexpectedly high radioactivity burdens in ice-rafted sediments from the Canadian Arctic Archipelago

• Published in: The Science of the total environment Vol. 366; no. 1; pp. 253 - 261
• Main Authors: Cota, Glenn F., Cooper, Lee W., Darby, Dennis A., Larsen, I.L.
• Format: Journal Article
• Language: English
• Published: Shannon Elsevier B.V 31.07.2006; Elsevier Science
• Subjects: 137Cs; Applied sciences; Arctic; Canada; Earth sciences; Earth, ocean, space; Engineering and environment geology. Geothermics; Exact sciences and technology; Pollution; Pollution sources. Measurement results; Pollution, environment geology; Radioactive; Sea ice; Sediment; Soil and sediments pollution; Arctic Ocean; Canada; North America; America; PNW, Canada, Northwest Terr., Banks I; PNW, Canada, Arctic Archipelago; PNE, Laptev Sea; PNW, Canada, Nunavut, Resolute Bay; PNW, North America, Northwest Passage; PN, Arctic Ocean; ANE, Europe; PN, Arctic Basin; Canada; Sediment; Arctic; Radioactive; 137Cs; Sea ice; Cesium 137; Radioactive pollution; Pollutant behavior; Radioisotope; Sediments; Radioactivity measurement; Long range pollutant transport; Pollution source; Pack ice
• ISSN: 0048-9697; 1879-1026
• DOI: 10.1016/j.scitotenv.2005.08.021

Unexpectedly high specific activities of 137Cs (1800–2000 Bq kg − 1 dry weight) have been detected in fine-grained sediments entrained in multi-year sea ice floes grounded in Resolute Bay near the center of the Northwest Passage through the Canadian Arctic Archipelago. These results are remarkable because: (1) the specific activities are about two orders of magnitude higher than average specific activities detected in previous studies of sea ice rafted sediments from the Arctic Ocean, (2) two independent observations of these unexpectedly high specific activities were made several years apart, (3) the sampling site is on the opposite side of the Arctic basin from potential radioactive sources such as disposal and weapons testing sites of the former Soviet Union and nuclear fuel reprocessing sites in western Europe, and (4) the closest compositional match to known geologic source regions is Banks Island, on the western edge of the Arctic Archipelago, although a smaller number of grains from one of the two samples were mineralogically matched to sediments in the Laptev Sea. Consequently, the sediments are probably not from a single distinct source and were likely mixed during sea ice transport. Coupled with previous observations of higher radionuclide specific activities in some sea ice rafted sediments relative to bottom sediments, these new observations indicate that comparatively high as well as variable radioactive contaminant burdens in ice rafted sediments must be common and geographically independent of proximity to known contaminant sources. The mechanisms that would facilitate these unexpected high radionuclide burdens in sea ice are not known and require additional study, as well as investigations of the implications for the transport and fate of contaminants in Arctic sea ice.