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Rapid phytoplankton response to wind forcing influences productivity in upwelling bays

Esperanza Broullón, Peter J. S. Franks, Bieito Fernández Castro, Miguel Gilcoto, Antonio Fuentes‐Lema, María Pérez‐Lorenzo, Emilio Fernández, Beatriz Mouriño‐Carballido

2023Limnology and Oceanography Letters15 citationsDOIOpen Access PDF

Abstract

Abstract Bays are often ecological hotspots within highly‐productive eastern boundary upwelling systems. Though the physics of such bays are well understood, there is no consensus about the factors underlying their high productivity. Three weeks of high‐temporal‐resolution observations in two long, narrow bays (Rías Baixas, NW‐Iberia ), showed that during an upwelling pulse, deep, nutrient‐rich isopycnals rose into the euphotic zone inside the rías in a few hours. The response of the isopycnals to changes in wind forcing is approximately three times faster inside the rías than the Ekman spin‐up time, triggering rapid nutrient uptake and subsequent formation of a subsurface chlorophyll and production maximum. The tight coupling and rapid response of phytoplankton growth to wind forcing could explain the higher productivity of the rías, and also be at play in other upwelling bays with similar morphologies and orientations. Resolving short‐term variability of physical–biological coupling is crucial to discern the future evolution of upwelling bays.

Topics & Concepts

UpwellingPhotic zoneOceanographyPhytoplanktonForcing (mathematics)ProductivityEkman transportGeologyEnvironmental scienceNew productionWind stressBoundary currentNutrientAtmospheric sciencesOcean currentEcologyBiologyEconomicsMacroeconomicsGeology and Paleoclimatology ResearchMarine and coastal ecosystemsMethane Hydrates and Related Phenomena
Rapid phytoplankton response to wind forcing influences productivity in upwelling bays | Litcius