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Transfer of 65Zn from sediments by marine polychaete worms (1973)

Renfro, W. C.

Springer

Marine biology 21 (1973), S. 305-316

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Silty marine sediments spiked with 65Zn lose only small fractions of their radioactivity when exposed to slowly flowing seawater for several weeks. However, polychaete worms (Nereis diversicolor), burrowing through the sediment, cause 65Zn losses 3 to 7 times higher than in sediment without worms. Long-term experiments on the uptake and loss of 65Zn by the polychaete Hermione hystrix indicate that 60 or more days exposure are required for this worm to approach steady state with 65Zn in the sediment. Biological half-life estimates for 65Zn accumulated from sediment by H. hystrix are extremely variable (52 to 197 days), depending on the loss-time interval chosen for the calculation. Following 5 days exposure to 16 cm3 of radioactive sediment, N. diversicolor individuals contained an average of 0.2% of the total 65Zn in the sediment. When these worms were transferred to non-radioactive sediment, estimates of biological half-life for 65Zn averaged 14 to 17 days during the loss period Day 3 to Day 15. Based on these experimental results, it is estimated that a population of N. diversicolor could cause an annual loss of 3% or more of the 65Zn in the upper 2 cm of the sediment of a hypothetical radioactive estuary.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00381087

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Effect of different radiotracer labelling techniques on radionuclide excretion from marine organisms (1975)

Fowler, S. W. ; Rosa, J. ; Heyraud, M. ; [et al.]

Springer

Marine biology 30 (1975), S. 297-304

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Experiments were designed to assess the effect of different techniques of radiotracer labelling on subsequent radioisotope excretion rates in marine crustaceans. A small amphipod (Gammarus locusta) that accumulated 65Zn under a close approximation of natural conditions excreted the radiotracer during a 3-month period at a markedly different rate than those of comparable amphipods labelled with 65Zn in the laboratory via different combinations of radioactive food and seawater. Shrimp (Lysmata seticauda) administered 65Zn by three different methods in the laboratory displayed different excretion kinetics during the first 2 months of loss. The difference between excretion rates most likely was a reflection of the degree to which the various zinc pools within the shrimp had equilibrated with the radiotracer. During the next several months all 65Zn loss rates were quite similar, probably indicating that radiotracer excretion was taking place from similar zinc pools within the shrimp. The importance of adequate radiotracer labelling techniques as well as proper design of subsequent excretion experiments, used to gain reliable information on flux rates of the corresponding stable metal, is discussed. It is concluded that laboratory radiotracer experiments which are intended to supply information on actual situations in the sea require careful design and execution.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00390635

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