Seasonal productivity dynamics in the pelagic central Benguela System inferred from the flux of carbonate and silicate organisms

Seasonal productivity dynamics in the pelagic central Benguela System inferred from the flux of carbonate and silicate organisms

Flux of bulk components, carbonate- and silicate-bearing skeleton organisms, and the δ 15N-isotopic signal were investigated on a 1-year time-series sediment trap deployed at the pelagic NU mooring site (Namibia Upwelling, ca. 29°S, 13°E) in the central Benguela System. The flux of bulk components m...

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Bibliographic Details
Published in:Journal of marine systems Vol. 37; no. 4; pp. 259 - 278
Main Authors: Romero, O, Boeckel, B, Donner, B, Lavik, G, Fischer, G, Wefer, G
Format: Journal Article
Language:English
Published: London Elsevier B.V 29-11-2002
Elsevier
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Bacillariophyceae
Benguela System
Biological and medical sciences
Coccolithophorids
Diatoms
Foraminifera
Fundamental and applied biological sciences. Psychology
Marine
Particle flux
Sea water ecosystems
Southern Africa
Synecology
Upwelling
South Atlantic
Atlantic Ocean
PSW, South Atlantic, Benguela Upwelling
ASE, South Atlantic, Benguela Current
PSW, Namibia
Particle flux
Southern Africa
Foraminifera
Upwelling
Diatoms
Coccolithophorids
Benguela System
Protozoa
Algae
Flux
Silicates
Nitrogen
Biological productivity
Marine environment
Particle
Heterokontophyta
Chrysophyceae
Bacillariophyta
Seasonal variation
Phytoplankton
Carbonates
Zooplankton
Thallophyta
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Summary:Flux of bulk components, carbonate- and silicate-bearing skeleton organisms, and the δ 15N-isotopic signal were investigated on a 1-year time-series sediment trap deployed at the pelagic NU mooring site (Namibia Upwelling, ca. 29°S, 13°E) in the central Benguela System. The flux of bulk components mostly shows bimodal seasonality with major peaks in austral summer and winter, and moderate to low export in austral fall and spring. The calcium carbonate fraction dominates the export of particulates throughout the year, followed by lithogenic and biogenic opal. Planktonic foraminifera and coccolithophorids are major components of the carbonate fraction, while diatoms clearly dominate the biogenic opal fraction. Bulk δ 15N isotopic composition of particulate matter is positively correlated with the total mass flux during summer and fall, while negatively correlated during winter and spring. Seasonal changes in the intensity of the main oceanographic processes affecting the NU site are inferred from variations in bulk component flux, and in the flux and diversity patterns of individual species or group of species. Influence from the Namaqua (Hondeklip) upwelling cell through offshore migration of chlorophyll filaments is stronger in summer, while the winter flux maximum seems to reflect mainly in situ production, with less influence from the coastal and shelf upwelling areas. On a yearly basis, dominant microorganisms correspond well with the flora and fauna of tropical/subtropical waters, with minor contribution of near-shore organisms. The simultaneous occurrence of species with different ecological affinities mirrors the fact that the mooring site was located in a transitional region with large hydrographic variability over short-time intervals.
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ISSN:0924-7963
1879-1573
DOI:10.1016/S0924-7963(02)00189-6