Exceptional plutonium accumulation in glacier mice and cryoconite in Icelandic glaciers.

This study comprehensively surveys artificial (Cs, Am, Pu, Pu) and natural (Pb) radionuclides in Icelandic glacier mice and cryoconite. Samples were collected from five glaciers in Iceland - Fjallsjökull, Falljökull, Kvíárjökull, Skaftafellsjökull, and Sólheimajökull - with glacier mice found only at the first three sites. Radionuclide concentrations in both glacier mice and cryoconite were slightly higher than those previously reported in Iceland. The maximum activity concentrations measured in glacier mice were: 407 ± 30 Bq kg for Cs, 2690 ± 170 Bq kg for Pb, 52.6 ± 2.2 Bq kg for Pu, 1.23 ± 0.14 Bq kg for Pu, and 32.4 ± 6.2 Bq kg for Am. In cryoconite, the maximum activity concentrations were 244 ± 16 Bq kg for Cs, 3680 ± 175 Bq kg for Pb, 37.7 ± 6.6 Bq kg for Pu, 3.17 ± 0.35 Bq kg for Pu, and 18.6 ± 1.8 Bq kg for Am. On average, glacier mice exhibited lower radionuclide activity concentrations compared to cryoconite. The highest mean activity concentrations measured in glacier mice were 109 Bq kg for Cs, 893 Bq kg for Pb, 20.1 Bq kg for Pu, 0.41 Bq kg for Pu, and 8.8 Bq kg for Am. In cryoconite, the corresponding highest mean activity concentrations were 141 Bq kg for Cs, 1827 Bq kg for Pb, 21.3 Bq kg for Pu, 0.49 Bq kg for Pu, and 10.5 Bq kg for Am. As evidenced by the Pu/Pu and Am/Pu activity ratios the primary source of these isotopes is global fallout. Additionally, the Pu/Pu atom ratio further indicates the dominance of global fallout. A notable finding of this study is the elevated levels of Pu as compared to other Icelandic samples, although the origin of this phenomenon remains unclear. These results confirm that both cryoconite and glacier mice participate in the cycling of long-range transported pollutants within glacial and proglacial ecosystems in Iceland, albeit likely on a limited scale.