Distinctive stratification regimes and their biochemical implications across 
Queen Charlotte Sound, a highly-productive shelf sea in the Northeast Pacific

Jhugroo, Khushboo; Waterman, Stephanie; Jackson, Jennifer; Klymak, Jody; Ross, Tetjana; Hannah, Charles

doi:10.57757/IUGG23-3630

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Distinctive stratification regimes and their biochemical implications across Queen Charlotte Sound, a highly-productive shelf sea in the Northeast Pacific

Authors

Jhugroo, Khushboo
IUGG 2023, General Assemblies, 1 General, International Union of Geodesy and Geophysics (IUGG), External Organizations;

Waterman, Stephanie
IUGG 2023, General Assemblies, 1 General, International Union of Geodesy and Geophysics (IUGG), External Organizations;

Jackson, Jennifer
IUGG 2023, General Assemblies, 1 General, International Union of Geodesy and Geophysics (IUGG), External Organizations;

Klymak, Jody
IUGG 2023, General Assemblies, 1 General, International Union of Geodesy and Geophysics (IUGG), External Organizations;

Ross, Tetjana
IUGG 2023, General Assemblies, 1 General, International Union of Geodesy and Geophysics (IUGG), External Organizations;

Hannah, Charles
IUGG 2023, General Assemblies, 1 General, International Union of Geodesy and Geophysics (IUGG), External Organizations;

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Citation

Jhugroo, K., Waterman, S., Jackson, J., Klymak, J., Ross, T., Hannah, C. (2023): Distinctive stratification regimes and their biochemical implications across Queen Charlotte Sound, a highly-productive shelf sea in the Northeast Pacific, XXVIII General Assembly of the International Union of Geodesy and Geophysics (IUGG) (Berlin 2023).
https://doi.org/10.57757/IUGG23-3630

Cite as: https://gfzpublic.gfz-potsdam.de/pubman/item/item_5020912

Abstract

Queen Charlotte Sound (QCS) is a broad shelf region off Canada's west coast that is highly biologically productive and hosts several Marine Protected Areas. However, ecosystems in QCS are becoming increasingly susceptible to climate change stressors such as marine heatwaves, ocean acidification, and deoxygenation. In this system, stratification plays an important role in setting the physical and chemical environment, thus impacting how climate change affects the region. Here, one year of near-continuous underwater glider observations are used to investigate how variability in stratification influence the physical and biogeochemical properties in QCS. We document how varying contributions of temperature and salinity to density stratification set up distinct stratification regimes: a salinity-dominated beta regime, a temperature-dominated alpha regime and a transitional regime, whose presence and spatial extent vary seasonally across the shelf. We use this stratification regime characterisation to 1) map where and when these regimes manifest and consider the drivers of variability in regime spatial and temporal extents; 2) quantify the stratification strength as a function of regime; and 3) demonstrate the usefulness of this characterisation to present the differences in biochemical properties and their distribution in the regimes. The relationships between forcing fields (heat fluxes, freshwater inputs, winds, upwelling index) and the active regimes are also investigated to test the sensitivity of each regime to atmospheric and lateral exchange processes. Lastly, we will discuss what these findings inform us about stratification in QCS in the context of climate change with increased riverine inputs, melting glaciers, increased precipitation and warmer waters.