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Silicon isotopes reveal the impact of fjordic processes on the transport of reactive silicon from glaciers to coastal regions
Wang, T.; Ng, H.C.; Hatton, J.E.; Hammond, S.J.; Woodward, E.M.S.; Meire, L.; Hendry, K.R. (2024). Silicon isotopes reveal the impact of fjordic processes on the transport of reactive silicon from glaciers to coastal regions. Chem. Geol. 670: 122403. https://dx.doi.org/10.1016/j.chemgeo.2024.122403
In: Chemical Geology. Elsevier: New York; London; Amsterdam. ISSN 0009-2541; e-ISSN 1872-6836, meer
Peer reviewed article  

Beschikbaar in  Auteurs 

Author keywords

    Benthic silicon cycle; Fjords; Benthic nutrient flux; Early diagenesis; Stable silicon isotope


Auteurs  Top 
  • Wang, T.
  • Ng, H.C.
  • Hatton, J.E.
  • Hammond, S.J.
  • Woodward, E.M.S.
  • Meire, L., meer
  • Hendry, K.R.

Abstract
    Accelerated mass loss from the Greenland Ice Sheet leads to retreating glaciers and enhanced freshwater runoff to adjacent coastal regions, potentially providing additional essential nutrients, such as silicon, to downstream primary producers. However, the role of fjordic sediments in modulating the supply of silicon from glacial environments to marine ecosystems remains poorly constrained, particularly for the quantification of silicon fluxes from the sediments into overlying waters in high-latitude fjordic systems. In this study, we use the concentration and stable isotopic composition of dissolved silicon in pore waters and core-top waters, and amorphous silica phases (such as glacially-derived amorphous silica) in sediments and suspended particulate matter, collected from two fjords in the southwest Greenland margin to address this knowledge gap. We combine downcore observations with core incubations and isotope mass balance approaches to assess the benthic flux of dissolved silicon and deconvolve potential contributors to this flux during early diagenesis. Our results suggest that molecular diffusion only accounts for a portion of benthic dissolved silicon transport. Relative to surrounding continental shelves and highly-productive open ocean waters, the estimated benthic dissolved silicon flux at our sites is smaller in magnitude, supporting the role of fjords as a ‘trap’ for reactive silicon in high-latitude systems.

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