Idealized dry quasi 2‐D mesoscale simulations of cold‐air outbreaks over the marginal sea ice zone with fine and coarse resolution

Chechin, Dmitry; Lüpkes, Christof; Репина, И. А.; Gryanik, Vladimir M.

doi:10.1002/jgrd.50679

Cited by 45 publications

(42 citation statements)

References 145 publications

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“…We found the typical vertical temperature structure of a convective case with a well-mixed layer between the surface and a strong capping inversion together with an increasing temperature and atmospheric boundary layer height with distance from the ice edge. This documents the convective character of the ABL as found earlier during Fram Strait CAOs (Brümmer, 1997;Hartmann et al, 1997;Chechin et al, 2013;Lüpkes and Schlünzen, 1996;Wacker et al, 2005). The vertically averaged ABL potential temperature increased from 243 K at 64 km north of the ice edge by 18 K at 214 km south of it (Fig.…”

Section: Cold Air Outbreaks North Of Svalbard In March 2013supporting

confidence: 85%

“…The latter regions are of special interest for oceanatmosphere interactions due to frequent cold air outbreaks (CAOs) (e.g., Kolstad and Bracegirdle, 2008;Brümmer and Pohlmann, 2000;Chechin et al, 2013;Gryschka et al, 2008) with extremely large energy fluxes between ocean and atmosphere downstream of the ice margin. This means that, even if the number of CAOs remained unchanged, a position change of the ice edge would have a strong impact on the local temperature conditions.…”

Section: Introductionmentioning

confidence: 99%

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Brief Communication: Trends in sea ice extent north of Svalbard and its impact on cold air outbreaks as observed in spring 2013

et al. 2014

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Abstract. An analysis of Special Sensor Microwave/Imager (SSM/I) satellite data reveals that the Whaler's Bay polynya north of Svalbard was considerably larger in the three winters from 2012 to 2014 compared to the previous 20 years. This increased polynya size leads to strong atmospheric convection during cold air outbreaks in a region north of Svalbard that was typically ice-covered in the last decades. The change in ice cover can strongly influence local temperature conditions. Dropsonde measurements from March 2013 show that the unusual ice conditions generate extreme convective boundary layer heights that are larger than the regional values reported in previous studies.

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Section: Cold Air Outbreaks North Of Svalbard In March 2013supporting

confidence: 85%

Section: Introductionmentioning

confidence: 99%

Brief Communication: Trends in sea ice extent north of Svalbard and its impact on cold air outbreaks as observed in spring 2013

et al. 2014

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“…Lüpkes et al (2012b) determined that the simplest possibility for successfully parameterizing turbulent transport in a strong convective regime is to use closures allowing countergradient transport of heat. Applying a mesoscale model with different grid sizes, Chechin et al (2013) found for idealized cases that the strength of the ice breeze developing in CAOs over open water downstream of the MIZ was strongly affected by the grid sizes: models with grid sizes larger than 20 km tend to underestimate the wind speed close to the ice edge. This finding confirms earlier results by Renfrew et al (2009a, b) and Haine et al (2009).…”

Section: Atmosmentioning

confidence: 99%

Advances in understanding and parameterization of small-scale physical processes in the marine Arctic climate system: a review

et al. 2014

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Abstract. The Arctic climate system includes numerous highly interactive small-scale physical processes in the atmosphere, sea ice, and ocean. During and since the International Polar Year 2007-2009, significant advances have been made in understanding these processes. Here, these recent advances are reviewed, synthesized, and discussed. In atmospheric physics, the primary advances have been in cloud physics, radiative transfer, mesoscale cyclones, coastal, and fjordic processes as well as in boundary layer processes and surface fluxes. In sea ice and its snow cover, advances have been made in understanding of the surface albedo and its relationships with snow properties, the internal structure of sea ice, the heat and salt transfer in ice, the formation of superimposed ice and snow ice, and the small-scale dynamics of sea ice. For the ocean, significant advances have been related to exchange processes at the ice-ocean interface, diapycnal mixing, double-diffusive convection, tidal currents and diurnal resonance. Despite this recent progress, some of these small-scale physical processes are still not sufficiently understood: these include wave-turbulence interactions in the atmosphere and ocean, the exchange of heat and salt at the ice-ocean interface, and the mechanical weakening of sea ice. Many other processes are reasonably well understood as stand-alone processes but the challenge is to understand their interactions with and impacts and feedbacks on other processes. Uncertainty in the parameterization of small-scale processes continues to be among the greatest challenges facing climate modelling, particularly in high latitudes. Further improvements in parameterization require new year-round field campaigns on the Arctic sea ice, closely combined with satellite remote sensing studies and numerical model experiments.

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“…There are also studies with mesoscale non-eddy resolving models (Wacker et al 2005;Chechin et al 2013) The (resolved) contributions by rolls (long dashed lines) and unorganized turbulence (short dashed lines) for the roll-case are shown, respectively. The solid black lines (appearing as almost one line, a, c) represent the subgrid-scale contributions to the total turbulent fluxes.…”

Section: Cold-air Outbreaksmentioning

confidence: 99%

Meteorology and oceanography of the Atlantic sector of the Southern Ocean—a review of German achievements from the last decade

et al. 2016

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German universities and the AWI as well as other institutes involved in polar research. Here, we review the main findings in meteorology and oceanography of the last decade, funded by the priority program. The paper presents field observations and modelling efforts, extending from the stratosphere to the deep ocean. The research spans a large range of temporal and spatial scales, including the interaction of both climate components. In particular, radiative processes, the interaction of the changing ozone layer with large-scale atmospheric circulations, and changes in the sea ice cover are discussed. Climate and weather forecast models provide an insight into the water cycle and the climate change signals associated with synoptic cyclones. Investigations of the atmospheric boundary layer focus on the interaction between atmosphere, sea ice and ocean in the vicinity of polynyas and leads. The chapters dedicated to polar oceanography review the interaction between the ocean and ice shelves with regard to the freshwater input and discuss the changes in water mass characteristics, ventilation and formation rates, crucial for the deepest limb of the global, climate-relevant meridional overturning circulation. They also highlight the associated storage of anthropogenic carbon as well as the cycling of carbon, nutrients and trace metals in the ocean with special emphasis on the Weddell Sea.

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Idealized dry quasi 2‐D mesoscale simulations of cold‐air outbreaks over the marginal sea ice zone with fine and coarse resolution

Cited by 45 publications

References 145 publications

Brief Communication: Trends in sea ice extent north of Svalbard and its impact on cold air outbreaks as observed in spring 2013

Brief Communication: Trends in sea ice extent north of Svalbard and its impact on cold air outbreaks as observed in spring 2013

Advances in understanding and parameterization of small-scale physical processes in the marine Arctic climate system: a review

Meteorology and oceanography of the Atlantic sector of the Southern Ocean—a review of German achievements from the last decade

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