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Transfer of 13 elements in a lake using a process-based ecosystem model
Stockholm University, Faculty of Science, Department of Ecology, Environment and Plant Sciences.
Stockholm University, Faculty of Science, Department of Ecology, Environment and Plant Sciences.
(English)Manuscript (preprint) (Other academic) [Artistic work]
National Category
Environmental Sciences
Research subject
Radiology
Identifiers
URN: urn:nbn:se:su:diva-110054OAI: oai:DiVA.org:su-110054DiVA: diva2:768818
Available from: 2014-12-04 Created: 2014-12-04 Last updated: 2014-12-09
In thesis
1. Element transport in aquatic ecosystems – Modelling general and element-specific mechanisms
Open this publication in new window or tab >>Element transport in aquatic ecosystems – Modelling general and element-specific mechanisms
2014 (English)Doctoral thesis, comprehensive summary (Other academic)
Abstract [en]

Radionuclides are widely used in energy production and medical, military and industrial applications. Thus, understanding the behaviour of radionuclides which have been or may be released into ecosystems is important for human and environmental risk assessment. Modelling of radionuclides or their stable element analogues is the only tool that can predict the consequences of accidental release.

In this thesis, two dynamic stochastic compartment models for radionuclide/element transfer in a marine coastal ecosystem and a freshwater lake were developed and implemented (Paper I and III), in order to model a hypothetical future release of multiple radionuclides from a nuclear waste disposal site. Element-specific mechanisms such as element uptake via diet and adsorption of elements to organic surfaces were connected to ecosystem carbon models. Element transport in two specific coastal and lake ecosystems were simulated for 26 and 13 elements, respectively (Papers I and III). Using the models, the concentration ratios (CR: the ratio of the element or radionuclide concentration in an organism to the concentration in water) were estimated for different groups of aquatic organisms. The coastal model was also compared with a 3D hydrodynamic spatial model (Paper II) for Cs, Ni and Th, and estimated confidence limits for their modelled CRs. In the absence of site-specific CR data, being able to estimate a range of CR values with such models is an alternative to relying on literature CR values that are not always relevant to the site of interest.

Water chemistry was also found to influence uptake of contaminants by aquatic organisms. Empirical inverse relationships were derived between CRs of fish for stable Sr (CRSr) and Cs (CRCs) and water concentrations of their biochemical analogues Ca and K, respectively (Paper IV), illustrating how such relationships could be used in the prediction of more site-specific CRCs and CRSr in fish simply from water chemistry measurements. 

Place, publisher, year, edition, pages
Stockholm: Department of Ecology, Environment and Plant Sciences, Stockholm University, 2014. 34 p.
Keyword
radionuclides, elements, concentration ratio, bioaccumulation, biomagnification, fish, modelling, aquatic food web, ecosystem, Cs, Sr, environmental risk assessment
National Category
Environmental Sciences
Research subject
Marine Ecotoxicology
Identifiers
urn:nbn:se:su:diva-110064 (URN)978-91-7649-026-6 (ISBN)
Public defence
2015-01-21, föreläsningssalen, Institutionen för ekologi, miljö och botanik, Lilla Frescativägen 5, Stockholm, 09:30 (English)
Opponent
Supervisors
Note

At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 3: Manuscript. Paper 4: Manuscript.

Available from: 2014-12-28 Created: 2014-12-05 Last updated: 2016-11-02Bibliographically approved

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