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Late Holocene current patterns in the northern Patagonian fjords recorded by sediment drifts in Aysen Fjord
Wils, K.; Wermersche, M.; Van Rooij, D.; Lastras, G.; Lamy, F.; Arz, H.W.; Siani, G.; Bertrand, S.; Van Daele, M. (2021). Late Holocene current patterns in the northern Patagonian fjords recorded by sediment drifts in Aysen Fjord. Mar. Geol. 441: 106604. https://dx.doi.org/10.1016/j.margeo.2021.106604
In: Marine Geology. Elsevier: Amsterdam. ISSN 0025-3227; e-ISSN 1872-6151, more
Peer reviewed article  

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Keyword
    Marine/Coastal
Author keywords
    Patagonia; Sediment drift; Bottom current circulation; Climatic variability; Tectonic control

Authors  Top 
  • Lastras, G.
  • Lamy, F.
  • Arz, H.W.
  • Siani, G.
  • Bertrand, S., more
  • Van Daele, M., more

Abstract
    Present-day circulation patterns in the southeastern Pacific Ocean are driven by the Antarctic Circumpolar Current, directing subantarctic surface water into the Patagonian fjords since at least the early Holocene. In this way, bottom current patterns in the area are regulated by the regional climate, although the complex bathymetry of the fjords has a significant impact as well. To understand the potential interplay of climate, seafloor topography and circulation patterns, we study the sedimentary infill of Aysén Fjord (~45°S) and reveal the first active sediment drifts in the region. These allow constraining the present-day circulation patterns in northern Patagonia and show an incoming (southward) as well as returning (northward) flow direction. While the general sedimentary evolution of the fjord (and thus also the sediment drifts) is climate-driven (i.e., it reflects variability in southern westerly wind strength), the onset of drift formation at ~3.7 ka does not seem to have originated from an abrupt change in regional climate. Instead, we propose that a megathrust earthquake described in paleoseismic records in the area could have resulted in subsidence of one (or more) of the many bathymetric highs in the Patagonian fjords, thus contributing to enhanced spilling of subantarctic water into the fjord. This study underscores the importance of multidisciplinary research to understand past and present bottom current circulation patterns and disentangle different possible feedback mechanisms.

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