Lund University Publications

@techreport{ef012679-ef45-41a9-9c4a-a5d189408a26,
  abstract     = {{The support from SSM has made it possible to continue collecting brown algae<br/>from the place on the Swedish west coast where regular collections began as<br/>early as 1967. The support has also enabled more extensive analyses of<br/>previously collected material than was possible before. This applies to both<br/>supplementary analyses of previously reported radionuclides and analysis of<br/>new ones. The project has also enabled a start of more comprehensive analyses<br/>of the overall results. This has provided better information about long-term<br/>processes and seasonal variations for different radionuclides in both toothed<br/>wrack (Fucus serratus) and bladderwrack (Fucus vesiculosus). What is new is<br/>that the sample material has now also been used to analyse metals, both those<br/>with known toxic effects such as lead, cadmium and mercury, as well as those<br/>that are of interest in assessing transport routes for radionuclides generated in<br/>new radiation sources, such as gadolinium isotopes from the European<br/>Spallation Source (ESS).<br/>Regarding the long-term development of various radionuclides in the marine<br/>environment on the Swedish west coast, the studies show rapidly increasing<br/>levels of iodine-129, decreasing levels of cesium-137, technetium-99 and<br/>plutonium-239+240. The carbon-14 analyses suggest a continued inflow of this<br/>radionuclide from the North Sea. The study also shows that the brown algae<br/>could be important for the monitoring of emissions of naturally occurring<br/>radioactive materials (NORM) from the offshore oil and gas industry by<br/>systematically studying long-term and seasonal variations of the content of<br/>radium-228 and in the future also radium- 226 and lead-210. Interesting and<br/>hitherto unexplained variations in the beryllium-7 content in Fucus have been<br/>made. The tritium content in Fucus and in seawater has been analysed in a<br/>limited number of samples from 2020. No levels beyond the expected normal<br/>ambient level for tritium have been found.<br/>During the 10-year period 2011-2020, there was a doubling of the levels of lead<br/>and nickel and a 50% increase in the levels of cadmium and cobalt in Fucus. For<br/>mercury a 10-fold decrease is registered between 2011 and 2016 and then a<br/>doubling of the concentration between 2016 and 2020. The decreasing trend for<br/>mercury probably indicates an effect of the gradual phasing out of mercury in<br/>Sweden and other countries. However, some businesses and companies have an<br/>exemption for continued use. For gadolinium there is an increase with a factor of<br/>around 5 from 2011 to 2020, most likely explained by the increased use of<br/>gadolinium-containing contrast agents in magnetic resonance imaging in<br/>healthcare.}},
  author       = {{Mattsson, Sören and Eriksson Stenström, Kristina and Pédehontaa-Hiaa, Guillaume}},
  institution  = {{Strålsäkerhetsmyndigheten}},
  issn         = {{2000-0456}},
  keywords     = {{seaweed; radionuclide; environmental monitoring; Swedish coast; environmental radioactivity; radioecology}},
  language     = {{eng}},
  month        = {{10}},
  number       = {{2022:13}},
  title        = {{Long-time variations of radionuclides and metals in the marine environment of the Swedish west-coast studied using brown algae : (Fucus serratus and Fucus vesiculosus)}},
  url          = {{https://lup.lub.lu.se/search/files/126716949/2022_13_long_time_variations_of_radionuclides_and_metals_in_the_marine_environment_of_the_swedish_west_coast_studied_using_brown_algae.pdf}},
  year         = {{2022}},
}