Add to ORKGAbstract. An allometric scaling approach has been used to calculate biological half-lives of elimination (TB1/2) and concentration factors (CF) for radionuclides in marine biota. Power functions of organism mass are fitted to a biokinetic database for plankton, seaweed, fish, crustaceans and molluscs, using data generated by us, in combination with reviewed data. Scaling of the CF to M−0.26±0.09 is observed, compatible at ±1 with metabolic theory predictions that metabolism scales to M0.75. We also observe scaling of TB1/2 to M+0.16±0.03, within the previously reported range +0.15 to +0.30 for biota from various environments and, at < ±3, slightly outside turnover rate scaling predictions to M−0.25. The elements for which the CF scales b...
Actinides accumulate within aquatic biota in concentrations several orders of magnitude higher than ...
Abstract. The objectives of this paper are the presentation of site-specific radioecological informa...
The bioaccumulation of U, Th, Ra, and Pb in four diverse nanoplanktonic algal species and a picoplan...
An allometric scaling approach has been used to calculate biological half-lives of elimination (TB1/...
International audienceThe biokinetics of radionuclide transfers to biota in the marine environment c...
A challenge in the estimation of doses to biota is the large number of potential radionuclide-organi...
The application of allometric, or mass-dependent, relationships within radioecology has increased w...
ABSTRACT. The initial stage of an environmental impact assessment requires quantification of radionu...
We report an inter-comparison of eight models designed to predict the radiological exposure of radio...
International audienceThe equilibrium concentration ratio is typically the parameter used to estimat...
Actinides accumulate within aquatic biota in concentrations several orders of magnitude higher than ...
Environmental risk assessment methodologies often require background dose-rates for wild flora and f...
Actinides accumulate within aquatic biota in concentrations several orders of magnitude higher than ...
Abstract. The objectives of this paper are the presentation of site-specific radioecological informa...
The bioaccumulation of U, Th, Ra, and Pb in four diverse nanoplanktonic algal species and a picoplan...
An allometric scaling approach has been used to calculate biological half-lives of elimination (TB1/...
International audienceThe biokinetics of radionuclide transfers to biota in the marine environment c...
A challenge in the estimation of doses to biota is the large number of potential radionuclide-organi...
The application of allometric, or mass-dependent, relationships within radioecology has increased w...
ABSTRACT. The initial stage of an environmental impact assessment requires quantification of radionu...
We report an inter-comparison of eight models designed to predict the radiological exposure of radio...
International audienceThe equilibrium concentration ratio is typically the parameter used to estimat...
Actinides accumulate within aquatic biota in concentrations several orders of magnitude higher than ...
Environmental risk assessment methodologies often require background dose-rates for wild flora and f...
Actinides accumulate within aquatic biota in concentrations several orders of magnitude higher than ...
Abstract. The objectives of this paper are the presentation of site-specific radioecological informa...
The bioaccumulation of U, Th, Ra, and Pb in four diverse nanoplanktonic algal species and a picoplan...