Seasonal and spatial variability of vertical particle flux along the Beagle Channel (Southern Patagonia)

Flores-Melo, X.; Giesecke, R.; Schloss, I. R.; Latorre, M. P.; de Madron, X. Durrieu; Bourrin, F.; Spinelli, M. L.; Menniti, C.; Gonzales, H. E.; Menschel, E.; Martin, J.

Abstract

The Beagle Channel is a 300-km long passage connecting the Pacific and Atlantic Oceans at similar to 55 degrees S, where glaciers and river streams meet subantarctic waters. Here we present the first evaluation of downward fluxes and composition of particulate matter in the channel. Settling particle fluxes were collected by sequential sediment traps deployed in two contrasting areas: one in the western part of the channel, corresponding to an early post-glacial environment (site A) and a second, fully deglaciated, river-dominated environment (site B) in the eastern part. In early summer, fluxes at both sites are driven by organic matter produced in spring, with peak organic carbon fluxes of 289 and 413 mg C m(-2) d(-1) at sites A and B, respectively (C:N ratios of 7.3 and 6.3, respectively). During winter, the fluxes of fecal pellets, particulate organic carbon (POC) and particulate nitrogen (PON) were at their minimum. At site A (integrated annual POC flux of 74 g C m(-2) yr(-1)), seasonality was weak and the flux was driven by ballast material (>95% of total particle flux) of glacial origin year-around, which also promotes the POC export. According to isotopic and taxonomic analyses performed at site A, the low seasonality in the organic component of the flux appears to be mainly related to autochthonous production of nano- and pico-phytoplankton during autumn and winter, later replaced by microphytoplankton fluxes during spring and summer. At site B, ballast material accounted for <60% of total mass flux and the POC flux showed a marked seasonality with a well-defined maximum after the spring phytoplankton bloom. Regarding the contribution of zooplankton, fecal pellets of appendicularians dominated at the western sector of the channel (site A) while Munida gregaria pellets dominated the flux at the eastern site (site B). This work is a contribution to ongoing efforts to unveil the physical and biogeochemical variables driving the biological carbon pump and the land-sea connections in this high-latitude ecosystem threatened by climate change.

Más información

Título según WOS: Seasonal and spatial variability of vertical particle flux along the Beagle Channel (Southern Patagonia)
Título de la Revista: JOURNAL OF MARINE SYSTEMS
Volumen: 241
Editorial: Elsevier
Fecha de publicación: 2024
DOI:

10.1016/j.jmarsys.2023.103913

Notas: ISI