• Title of article

    The reduction of plankton biomass induced by mesoscale stirring: A modeling study in the Benguela upwelling

  • Author/Authors

    Hernلndez-Carrasco، نويسنده , , Ismael and Rossi، نويسنده , , Vincent and Hernلndez-Garcيa، نويسنده , , Emilio and Garçon، نويسنده , , Veronique and Lَpez، نويسنده , , Cristَbal، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2014
  • Pages
    16
  • From page
    65
  • To page
    80
  • Abstract
    Recent studies, both based on remote sensed data and coupled models, showed a reduction of biological productivity due to vigorous horizontal stirring in upwelling areas. In order to better understand this phenomenon, we consider a system of oceanic flow from the Benguela area coupled with a simple biogeochemical model of Nutrient-Phyto-Zooplankton (NPZ) type. For the flow three different surface velocity fields are considered: one derived from satellite altimetry data, and the other two from a regional numerical model at two different spatial resolutions. We compute horizontal particle dispersion in terms of Lyapunov exponents, and analyzed their correlations with phytoplankton concentrations. Our modeling approach confirms that in the south Benguela there is a reduction of biological activity when stirring is increased. Two-dimensional offshore advection and latitudinal difference in primary production, also mediated by the flow, seem to be the dominant processes involved. We estimate that mesoscale processes are responsible for 30–50% of the offshore fluxes of biological tracers. In the northern area, other factors not taken into account in our simulation are influencing the ecosystem. We suggest explanations for these results in the context of studies performed in other eastern boundary upwelling areas.
  • Keywords
    Benguela upwelling system , Plankton dynamics , FSLE , primary production , Horizontal stirring
  • Journal title
    Deep Sea Research Part I: Oceanographic Research Papers
  • Serial Year
    2014
  • Journal title
    Deep Sea Research Part I: Oceanographic Research Papers
  • Record number

    2309976