Potential drivers of the downward carbon and particle flux in Arctic marine ecosystems under contrasting hydrographical and ecological situations
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https://hdl.handle.net/10037/8293View/ Open
Thesis introduction (PDF)
Potential drivers of sinking particle’s size spectra and vertical flux of particulate organic carbon (POC): Turbulence, phytoplankton and zooplankton. Wiedmann I., Reigstad M., Sundfjord A., Basedow S. Also available in Journal of Geophysical Research: Oceans, 119: 6900-6917 (PDF)
Wiedmann I., Tremblay J.E., Sundfjord A., Reigstad M.: 'Upward nitrate flux and downward particulate organic carbon (POC) flux along a gradient of stratification and turbulent mixing in an Arctic shelf sea, Barents Sea' (manuscript). Published version available in Munin at http://hdl.handle.net/10037/11282, and also available in Elementa: Science of the Anthropocene, (2017) 5:43 (PDF)
Seasonality of vertical flux and sinking particle characteristics in an ice-free high Arctic fjord – different from sub- Arctic fjords? Wiedmann I., Reigstad M., Marquardt M., Vader A., Gabrielsen T.M. (Manuscript). Published version available in Munin at http://hdl.handle.net/10037/10645, and also available in Journal of Marine Systems, Volume 154, Part B, February 2016, Pages 192-205 (PDF)
Entire thesis in one comprehensive file (PDF)
Date
2015-11-13Type
Doctoral thesisDoktorgradsavhandling
Author
Wiedmann, IngridAbstract
Detailed predictions of the downward particulate organic carbon (POC) flux in a future Arctic are challenging due to the poor understanding of potential drivers. Short-term sediment traps, partly modified with gel-containing jars, were deployed in the Barents Sea (BS) and in Adventfjorden, Svalbard, to determine the downward POC flux and the particle flux (≥ 0.05 mm equivalent spherical diameter ESDimage) in a parallel manner. In this way, the quality of the sinking material could be linked to the downward POC flux and this link gave new insights into potential drivers of the carbon flux. In the Barents Sea, the highest downward POC flux (260-670 mg POC m^-2 d^-1) occurred in ice-free, deeply mixed waters. Sinking particles were < 1.00 mm ESDimage and had a high POC: volume ratio. Pulsed nitrate injections from deeper layers most likely stimulated new production, and the downward flux was enhanced by vertical mixing and “biomass repackaging” into fast-sinking pellets by zooplankton. In Adventfjorden, the highest POC flux (770-1530 mg POC m^-2 d^-1) occurred during autumn, coinciding with glacial run-off. Large, fast-sinking particles (0.05-3.62 mm ESDimage) apparently enhanced the downward POC, despite their low POC: volume ratio. In addition, entrained terrestrial POC enhanced the downward POC flux. Ballasting effects by entrained lithogenic material, flocculation and aggregate formation by pteropods are likely, but need further investigation. The present study illustrates that a high downward POC flux in Arctic marine ecosystems may occur during the phytoplankton bloom, but the highest POC downward fluxes found in the BS and Adventfjorden were found in deep-mixed waters during a post bloom situation or during an autumn situation influenced by glacial run-off, respectively. It is also shown, that a high POC downward flux may not only be caused by large particles, but also by small particles with a high POC: volume ratio.
Publisher
UiT The Arctic University of NorwayUiT Norges arktiske universitet
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