2021
DOI: 10.1080/07055900.2021.1965531
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Effects of Seasonal Ice Coverage on the Physical Oceanographic Conditions of the Kitikmeot Sea in the Canadian Arctic Archipelago

Abstract: The Kitikmeot Sea is a semi-enclosed, east-west waterway in the southern Canadian Arctic Archipelago (CAA). In the present work, the ice conditions, stratification and circulation of the Kitikmeot Sea are diagnosed using numerical simulations with a 1/12 • resolution. The physical oceanographic conditions of the Kitikmeot Sea are different from channels in the northern CAA due to the existence of a substantial ice-free period each year. The consequences of such ice conditions are twofold. First, through fluctu… Show more

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Cited by 7 publications
(19 citation statements)
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“…There is good agreement in the pCO 2 (sw) values between the EC tower and the ONC mooring in May, June, and October 2017 (Figure 5b) and in May and June 2018 (Figure 5c). The breakdown of stratification at the end of the ice-free summer period and over the winter (Xu et al, 2021) may explain the good agreement between the EC tower and the ONC mooring at these times. In June 2017 the two systems diverge, the pCO 2 (sw) at the ONC mooring decreases due to a spring bloom (Duke et al, 2021) whereas pCO 2 (sw) from the EC tower does not.…”
Section: Local Scalecomparisons With the Ocean Carbon Observatoriesmentioning
confidence: 91%
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“…There is good agreement in the pCO 2 (sw) values between the EC tower and the ONC mooring in May, June, and October 2017 (Figure 5b) and in May and June 2018 (Figure 5c). The breakdown of stratification at the end of the ice-free summer period and over the winter (Xu et al, 2021) may explain the good agreement between the EC tower and the ONC mooring at these times. In June 2017 the two systems diverge, the pCO 2 (sw) at the ONC mooring decreases due to a spring bloom (Duke et al, 2021) whereas pCO 2 (sw) from the EC tower does not.…”
Section: Local Scalecomparisons With the Ocean Carbon Observatoriesmentioning
confidence: 91%
“…The Kitikmeot sea is nutrient-limited (Back et al, 2021), and as a result chlorophyll concentrations are also low in the region (Kim et al, 2020). Modelling results suggest that the stratification regime in Dease Strait and Queen Maud Gulf is characterised by a ~40 m warm fresh surface layer and a cold salty bottom layer which extends down to around 100 m (Xu et al, 2021). Coronation Gulf has a three layer regime composed of a 40 m warm fresh surface layer, a colder salty layer down to 100 m and a stable deep layer down to 350 m (Xu et al, 2021).…”
Section: Oceanographic Settingmentioning
confidence: 99%
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“…In the winter, Dease Strait is covered by landfast first-year sea ice that typically consolidates in early November, and breaks up in mid-July (Galley et al, 2012, Xu et al, 2021. The strait is relatively shallow (max depth ~100 m), and surface waters are somewhat less saline (~29) than most of the Archipelago due to high river discharge and bounding sills to the east and west (Williams et al, 2018;Xu et al, 2021). The region is highly nutrient limited, with nitrate concentrations amongst the lowest measured anywhere in the Arctic (Back et al, 2021), however a modest bottom-ice algae bloom still occurs in the spring, peaking in late-May (Campbell et al, 2016).…”
Section: Study Areamentioning
confidence: 99%