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Seasonal Variability of the Ocean Circulation in Queen Charlotte Strait, British Columbia

Seasonal Variability of the Ocean Circulation in Queen Charlotte Strait, British Columbia Queen Charlotte Strait (QCST) is a large marine area separating northern Vancouver Island from the British Columbia mainland. Although it is an important waterway connecting Queen Charlotte Sound with Johnstone Strait and eventually the Strait of Georgia, complex dynamics in QCST, including tides, surface winds, river runoffs, and coastal currents, are yet understudied. In this numerical study, a high-resolution (up to approximately 10 m in the horizontal) model was developed for QCST and adjacent areas to investigate the circulation in the strait, using the unstructured grid, Finite-Volume, primitive equation Community Ocean Model (FVCOM). Two operational larger-scale models force the FVCOM model: the Coastal Ice Ocean Prediction System for the West coast (CIOPS-W) at the open ocean (one-way nesting), and the High-Resolution Deterministic Prediction System (HRDPS) at surface boundaries. Prevailing winds over QCST are southeasterly in winter and northwesterly in summer and the model demonstrated the capacity to reproduce the ocean circulation regimes in both seasons of 2019. Complex empirical orthogonal function (CEOF) and correlation analyses determined that surface winds play a dominant role on the variability of residual flow in QCST in the winter, while river runoffs strongly influence the variability during the summer. The analyses highlight that QCST is a complex estuarine system with significant seasonal variability rather than just a simple conduit between Queen Charlotte Sound and the Strait of Georgia. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png ATMOSPHERE-OCEAN Taylor & Francis

Seasonal Variability of the Ocean Circulation in Queen Charlotte Strait, British Columbia

Lin, Yuehua; Bianucci, Laura
ATMOSPHERE-OCEAN , Volume OnlineFirst: 23 – Mar 17, 2023
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23 pages

Seasonal Variability of the Ocean Circulation in Queen Charlotte Strait, British Columbia

Abstract

Queen Charlotte Strait (QCST) is a large marine area separating northern Vancouver Island from the British Columbia mainland. Although it is an important waterway connecting Queen Charlotte Sound with Johnstone Strait and eventually the Strait of Georgia, complex dynamics in QCST, including tides, surface winds, river runoffs, and coastal currents, are yet understudied. In this numerical study, a high-resolution (up to approximately 10 m in the horizontal) model was developed for QCST...
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Publisher
Taylor & Francis
Copyright
© 2023 Copyright of the Crown in Canada. Fisheries and Oceans Canada. Published by Informa UK Limited, trading as Taylor & Francis Group
ISSN
1480-9214
eISSN
0705-5900
DOI
10.1080/07055900.2023.2184321
Publisher site
See Article on Publisher Site

Abstract

Queen Charlotte Strait (QCST) is a large marine area separating northern Vancouver Island from the British Columbia mainland. Although it is an important waterway connecting Queen Charlotte Sound with Johnstone Strait and eventually the Strait of Georgia, complex dynamics in QCST, including tides, surface winds, river runoffs, and coastal currents, are yet understudied. In this numerical study, a high-resolution (up to approximately 10 m in the horizontal) model was developed for QCST and adjacent areas to investigate the circulation in the strait, using the unstructured grid, Finite-Volume, primitive equation Community Ocean Model (FVCOM). Two operational larger-scale models force the FVCOM model: the Coastal Ice Ocean Prediction System for the West coast (CIOPS-W) at the open ocean (one-way nesting), and the High-Resolution Deterministic Prediction System (HRDPS) at surface boundaries. Prevailing winds over QCST are southeasterly in winter and northwesterly in summer and the model demonstrated the capacity to reproduce the ocean circulation regimes in both seasons of 2019. Complex empirical orthogonal function (CEOF) and correlation analyses determined that surface winds play a dominant role on the variability of residual flow in QCST in the winter, while river runoffs strongly influence the variability during the summer. The analyses highlight that QCST is a complex estuarine system with significant seasonal variability rather than just a simple conduit between Queen Charlotte Sound and the Strait of Georgia.

Journal

ATMOSPHERE-OCEANTaylor & Francis

Published: Mar 17, 2023

Keywords: Queen Charlotte Strait; FVCOM; coastal modelling; tidal current; residual flow; wind-driven current; river runoffs; complex empirical orthogonal function

References

  • Physical drivers of the summer 2019 North Pacific marine heatwave
  • Environmental control of the breeding success of rhinoceros auklets at Triangle Island, British Columbia
  • Extratropical storm inundation testbed: Intermodel comparisons in Scituate, Massachusetts
  • Surface currents in British Columbia coastal waters: comparison of observations and model predictions
  • Summer circulation of the waters in Queen Charlotte sound
  • Simulation of barotropic and baroclinic tides off northern British Columbia
  • Canadian west coast fjords and inlets of the NE Pacific Ocean as depositional archives
  • Versatile harmonic tidal analysis: Improvements and applications
  • A finite volume model simulation for the Broughton Archipelago, Canada
  • A circulation model for the discovery islands, British Columbia
  • Estuarine and tidal currents in the Broughton Archipelago
  • M2 tidal dissipation around Vancouver Island: An inverse approach
  • Three-dimensional model simulations of tides and buoyancy currents along the west coast of Vancouver Island
  • Currents along the Pacific coast of Canada
  • Gmsh: A 3-D finite element mesh generator with built-in pre- and post-processing facilities
  • Watershed classification predicts streamflow regime and organic carbon dynamics in the Northeast Pacific coastal temperate rainforest
  • Variability of longshore surface current on the shelf edge and continental slope off the West Coast of Canada
  • Assessment of circulation and inter-basin transport in the Salish Sea including Johnstone Strait and Discovery Islands pathways
  • Enhancing tidal harmonic analysis: Robust (hybrid L-1/L2) solutions
  • Impacts of model resolution on simulation of meso-scale eddies in the Northeast Pacific Ocean
  • North American regional reanalysis
  • The pan-Canadian high resolution (2.5 km) deterministic prediction system
  • Classical tidal harmonic analysis including error estimates in MATLAB using T_TIDE
  • The distribution of certain benthonic algae in Queen Charlotte Strait, British Columbia, in relation to some environmental factors
  • A generic length-scale equation for geophysical turbulence models