Assessment of the exposure pathway in the uptake and distribution of americium and cesium in cuttlefish (Sepia officinalis) at different stages of its life cycle

Laboratory radiotracer experiments were performed to study the uptake, assimilation and retention of americium (²⁴¹Am) and cesium (¹³⁴Cs) by the common cuttlefish Sepia officinalis. Uptake and loss kinetics of the radionuclides were measured following exposure through sediments, seawater and food at different stages of the animal's life cycle. Sediment was found to be a minor uptake pathway for both radionuclides in juveniles. Following a short seawater exposure, cuttlefish accumulated ²⁴¹Am and ¹³⁴Cs, but only to a limited extent (whole-body CF < 2). Among the cuttlefish organs, branchial hearts and their appendages displayed the highest degree of uptake for ²⁴¹Am (CF = 42 and 16, respectively), but these tissues contained low percentage of total ²⁴¹Am due to their relatively small contribution to whole organism weight. The major fraction of incorporated radionuclides was associated with muscular tissues (viz. 65% and 82% of total ²⁴¹Am and ¹³⁴Cs, respectively). Whole-body loss of ²⁴¹Am and ¹³⁴Cs was relatively rapid (T_b½ = 14 and 6 days, respectively). After dietary exposure, around 60% and 30% of ingested ²⁴¹Am was assimilated into the tissues of juvenile and adult cuttlefish, respectively. However, assimilated ²⁴¹Am was more strongly retained in adults than in juveniles (T_b½ = 28 vs. 5 days, respectively), suggesting that different mechanisms govern ²⁴¹Am elimination at both ages. Ingested ¹³⁴Cs was assimilated to a similar extent in juveniles (29%) and adults (23%), but the depuration rate was four times faster in adults. Our results strongly suggest that these two radionuclides follow different excretion pathways and that the mechanisms can vary with age for a given radionuclide.