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  • Alkalinity, total; Ammonium; Atlantic Ocean; BCR; Box corer (Reineck); Calcium; Carbon, organic, dissolved; Chloride; Depth, bottom/max; DEPTH, sediment/rock; Depth, top/min; East Atlantic; Event label; GIK/IfG; GIK12344-3; GIK12344-6; Glucose; Institute for Geosciences, Christian Albrechts University, Kiel; Iron; KAL; Kasten corer; M25; Magnesium; Manganese; Meteor (1964); Phosphate; Potassium; Sulfate
  • Alpha spectrometry; DISTANCE; Distance, maximum; Distance, minimum; Dredge; DRG; Identification; Marara; NIXO10; NOAA and MMS Marine Minerals Geochemical Database; NOAA-MMS; NX10-CL; Pacific Ocean; Protactinium-231 excess; Protactinium-231 excess, per area; Protactinium-231 excess, standard deviation; TECHNO 07; Thorium-230 excess; Thorium-230 excess, per area; Thorium-230 excess, standard deviation; Thorium-232; Thorium-232, standard deviation; Uranium-234/Uranium-238 activity ratio; Uranium-234/Uranium-238 activity ratio, standard deviation; Uranium-238; Uranium-238, standard deviation
  • Dredge; DRG; Marara; NIXO10; NOAA and MMS Marine Minerals Geochemical Database; NOAA-MMS; NX10-CL; Pacific Ocean; TECHNO 07
  • 1975-1979  (1)
  • 1978  (1)
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  • Data  (1)
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  • 1975-1979  (1)
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  • 1
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    Radionuclides in Manganese nodules (1978)
    PANGAEA
    In:  Supplement to: Guichard, Francois; Reyss, Jean-Louis; Yokoyama, Y (1978): Growth rate of manganese nodule measured with 10Be and 26Al. Nature, 272(5649), 155-156, https://doi.org/10.1038/272155a0
    Details
    Publication Date: 2023-08-28
    Description: Manganese nodules are considered to have accumulated in general very slowly: surface layers of nodules contain a large excess of 230Th, more than would be produced by uranium decay. The decrease of excess 230Th with depth within a nodule is generally interpreted to be due to the radioactive decay, and nodule accumulation rates were then estimated from this to be a few mm/Myr. How then do these nodules escape from burial by associated marine sediments which accumulate 3 orders of magnitude faster than the nodules? One possible explanation is that the radionuclides of interest were not incorporated in the nodule matrix during its growth but were adsorbed later. Subsequent inward diffusion of the radionuclides might result in an apparent radioactive decay. We have tested this hypothesis by measuring simultaneously two radionuclides of different half lives. If the gradients of the radionuclides are really due to the radioactive decay, then, assuming a constant growth rate for a nodule, we expect the profile of the shortlived nuclide to be steeper (because of its faster decay) than that of the longlived nuclide.
    Keywords: Dredge; DRG; Marara; NIXO10; NOAA and MMS Marine Minerals Geochemical Database; NOAA-MMS; NX10-CL; Pacific Ocean; TECHNO 07
    Type: Dataset
    Format: application/zip, 2 datasets
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