Artículo
Modelling suspended particulate matter dynamics at an Antarctic fjord impacted by glacier melt
Neder, Camila
; Fofonova, Vera; Androsov, Alexey; Kuznetsov, Ivan; Abele, Doris; Falk, Ulrike; Schloss, Irene Ruth
; Sahade, Ricardo Jose
; Jerosch, Kerstin
Fecha de publicación:
03/2022
Editorial:
Elsevier Science
Revista:
Journal of Marine Systems
ISSN:
0924-7963
Idioma:
Inglés
Tipo de recurso:
Artículo publicado
Clasificación temática:
Resumen
When Antarctic glaciers retreat, high sediment loads from geomorphological and glaciological sources can disturb the biota, especially filtering organisms, and thereby significantly alter the ecology of the Antarctic coast. We applied the Finite volumE Sea-ice Ocean-Coastal Model (FESOM-C), a numerical tool equipped with a sediment module, to simulate for the first time the suspended particulate matter (SPM) dynamics in a fjordic environment at the northern West Antarctic Peninsula, Potter Cove as a case study. Depth-averaged SPM dynamics during a meteorologically representative austral summer (120 days from December to March) considered tidal and atmospheric forcing. Additionally, idealised experiments with passive particles based on post-processing Lagrangian module identified and followed possible material trajectories in Potter Cove. Particle dynamics in the area show them to be primarily tidal and wind-driven, sensitive to bathymetry, with the higher SPM concentrations in the inner cove and the highest hydrographical complexity in the transitional area between the fjordic and marine habitat. The SPM plume covers 5.5 km2 of the total inlet of 9 km2, with monthly mean values between 15 and 330 mg/l. The maximum SPM concentrations are during January (790 mg/l), and the maximum plume expansion during February. The model was validated with available in situ measurements. With this study, we can identify areas in Potter Cove (and similar coastal fjordic environments, prospectively) of increasing physical stress by longer SPM residence time and high accumulation rates induced by glacial meltwater. These factors are crucial for pelagic and benthic assemblages dependent on light and food availability, as well sediment deposition.
Palabras clave:
COASTAL ECOSYSTEMS
,
FESOM-C
,
OCEAN MODEL
,
SEDIMENT
,
SPM DYNAMICS
Archivos asociados
Licencia
Identificadores
Colecciones
Articulos(CADIC)
Articulos de CENTRO AUSTRAL DE INVESTIGACIONES CIENTIFICAS
Articulos de CENTRO AUSTRAL DE INVESTIGACIONES CIENTIFICAS
Citación
Neder, Camila; Fofonova, Vera; Androsov, Alexey; Kuznetsov, Ivan; Abele, Doris; et al.; Modelling suspended particulate matter dynamics at an Antarctic fjord impacted by glacier melt; Elsevier Science; Journal of Marine Systems; 231; 103734; 3-2022; 1-17
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