Identificador persistente para citar o vincular este elemento: http://hdl.handle.net/10553/55830
Título: Interaction of sinking behaviour of Saharan dust and lithogenic and biogenic fluxes in the Canary Basin
Otros títulos: Interacción sedimentaria del polvo sahariano, y los flujos biogénicos y litogénicos en la cuenca oceánica de Canarias
Autores/as: Báez-Hernández, Maite
García, Noemí
Menéndez González, Inmaculada 
Jaramillo, Alfredo
Sánchez-Pérez, Isora
Santana del Pino, Ángelo 
Alonso Bilbao, Ignacio 
Mangas Viñuela, José 
Hernández León, Santiago Manuel 
Clasificación UNESCO: 250618 Sedimentología
250607 Geomorfología
120903 Análisis de datos
Palabras clave: Lithogenic flux
Biogenic flux
POC flux
TEP
Image analysis, et al.
Fecha de publicación: 2019
Publicación seriada: Scientia Marina 
Resumen: Saharan dust events are currently the predominant source of lithogenic particles in the Canary Basin. In order to quantify this input and its relationship with the biogenic fluxes, a sediment trap was deployed in a free-drifting system at 150 m depth, 50 km off the north coast of Gran Canaria (Canary Islands). The mineralogy of the lithogenic particles included illite, calcite, hematite quartz, barite and kaolinite. The biogenic matter was composed of chitin, transparent exopolymer particles, and carbonates from foraminifera and gastropod shells. The average Saharan dust flux over the ocean surface was approximately 5±4 mg m–2 day-1. The lithogenic, carbonate and chitin fluxes were 0.8±0.6, 6.0±7.4 and 154±386 mg m–2 day-1, respectively. A fairly strong Saharan dust event during sampling was observed in the trap, with a delay of three days in the peaks of lithogenic and biogenic fluxes. The theoretical settling velocity of the lithogenic particles associated with Saharan dust events at 150 m depth was vStokes=275 m day-1, and the experimental settling was about 50 m day-1. The associated sinking behaviour of particulate organic carbon and biogenic and lithogenic fluxes observed in this study may contribute to a more realistic prediction of these fluxes in carbon biological pump models.
URI: http://hdl.handle.net/10553/55830
ISSN: 1886-8134
DOI: 10.3989/scimar.04877.19A
Fuente: Scientia Marina [ISSN 0214-8358], v. 83 (2), p. 121-132, (Junio 2019)
Colección:Artículos
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