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Momentum balance in zonal flows and resonance of baroclinic Rossby waves (1999)

Völker, Christoph

AMS (American Meteorological Society)

In: Journal of Physical Oceanography, 29 . pp. 1666-1681.

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Publication Date: 2020-08-04

Description: Wind-driven flow in a baroclinic quasigeostrophic channel with simple bottom topography is studied in a model with reduced physics and degrees of freedom as an analogy to the Antarctic Circumpolar Current. For a sinusoidal topography an approximate analytical solution is found using a low-order spectral model. Resonance of baroclinic Rossby waves can lead to different flow regimes of which one is a blocked state, where most of the momentum, imparted to the fluid by the wind stress, is transferred to the earth by bottom form stress. For some parameter values there are both resonant and nonresonant solutions to the model equations. It is shown that these results of the low-order model apply also to a more complicated spectral model with sinusoidal but also with Gaussian ridge topography. The steady states of these models are found numerically using a continuation algorithm. In the case of the ridge topography, the resonant and nonresonant steady states coexist over a wide range of topography heights.

Type: Article , PeerReviewed

Format: text

DOI: 10.1175/1520-0485(1999)029〈1666:MBIZFA〉2.0.CO;2

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OceanRep: Article in a Scientific Journal - peer-reviewed

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A multi-model study on the Southern Ocean CO2 uptake and the role of the biological carbon pump in the 21st century (2015)

Hauck, Judith ; Völker, Christoph ; Wolf-Gladrow, Dieter ; [et al.]

EGU General Assembly 2015

In: EPIC3EGU General Assembly 2015, Vienna, 2015-04-12-2015-04-17Vienna, EGU General Assembly 2015

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Publication Date: 2015-04-30

Description: The Southern Ocean is one of the key regions for global carbon uptake and it is under discussion how physical changes will alter its CO2 balance both directly and indirectly through changes in biological production. Here we analyse a suite of eight RCP8.5 model simulations until 2100 from the MAREMIP and CMIP5 model intercomparison projects on changes in export production and CO2 uptake. We explore how the counter-acting effects of stronger winds ("SAM signal", less stratification) and global warming (more stratification) affect CO2 fluxes in different models and different regions of the Southern Ocean. The models simulate a broad range of responses with no agreement on the dominance of the SAM or global warming signal or on nutrient or light as the dominant drivers for changes in export production. There is agreement on an increase in export production south of 58◦S and on a nutrient-driven decrease of export production in the region 30-44◦S (global warming signal). Based on a box-model, we can identify the most important drivers for the future CO2 uptake in the Southern Ocean where the pure increase of atmospheric CO2 has the largest effect, followed by the enhanced biological production and the larger effect of biological production on CO2 uptake at higher Revelle factor. The enhanced upwelling of carbon-rich deep water, and the effects of warming on the CO2 solubility and faster gas-exchange at higher wind-speeds are less important.

Repository Name: EPIC Alfred Wegener Institut

Type: Conference , notRev

Format: application/pdf

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