Advantages of vertically adaptive coordinates in numerical models of stratified shelf seas

•Twin experiment for the coupled system North Sea/Baltic Seas.•Comparison of s-coordinates and vertically adaptive coordinates.•Adaptive coordinates show a better representation of the summer thermoclines.•Adaptive coordinates show lower numerical mixing compared to s-coordinates. Shelf seas such as...

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Published inOcean modelling (Oxford) Vol. 92; pp. 56 - 68
Main Authors Gräwe, Ulf, Holtermann, Peter, Klingbeil, Knut, Burchard, Hans
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.08.2015
Subjects
Adaptive coordinates
Baltic Sea
Computation
Density
Diffusivity
GETM
Mathematical models
North Sea
Numerical mixing
Nutrients
Shelves
Stratification
ANE, North Sea
ANE, Baltic Sea
Adaptive coordinates
North Sea
Numerical mixing
Stratification
GETM
Baltic Sea
Online AccessGet full text
ISSN1463-5003
1463-5011
DOI10.1016/j.ocemod.2015.05.008

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Abstract •Twin experiment for the coupled system North Sea/Baltic Seas.•Comparison of s-coordinates and vertically adaptive coordinates.•Adaptive coordinates show a better representation of the summer thermoclines.•Adaptive coordinates show lower numerical mixing compared to s-coordinates. Shelf seas such as the North Sea and the Baltic Sea are characterised by spatially and temporally varying stratification that is highly relevant for their physical dynamics and the evolution of their ecosystems. Stratification may vary from unstably stratified (e.g., due to convective surface cooling) to strongly stratified with density jumps of up to 10 kg/m3 per m (e.g., in overflows into the Baltic Sea). Stratification has a direct impact on vertical turbulent transports (e.g., of nutrients) and influences the entrainment rate of ambient water into dense bottom currents which in turn determine the stratification of and oxygen supply to, e.g., the central Baltic Sea. Moreover, the suppression of the vertical diffusivity at the summer thermocline is one of the limiting factors for the vertical exchange of nutrients in the North Sea. Due to limitations of computational resources and since the locations of such density jumps (either by salinity or temperature) are predicted by the model simulation itself, predefined vertical coordinates cannot always reliably resolve these features. Thus, all shelf sea models with a predefined vertical coordinate distribution are inherently subject to under-resolution of the density structure. To solve this problem, Burchard and Beckers (2004) and Hofmeister et al. (2010) developed the concept of vertically adaptive coordinates for ocean models, where zooming of vertical coordinates at locations of strong stratification (and shear) is imposed. This is achieved by solving a diffusion equation for the position of the coordinates (with the diffusivity being proportional to the stratification or shear frequencies). We will show for a coupled model system of the North Sea and the Baltic Sea (resolution ∼ 1.8 km) how numerical mixing is substantially reduced and model results become significantly more realistic when vertically adaptive coordinates are applied. We additionally demonstrate that vertically adaptive coordinates perform well in simulating the two dynamically different regions North Sea and Baltic Sea with a single parameter set. An analysis of the computational overhead of the adaptive coordinates indicates an increase of 5–8% in runtime. This is still less expensive than adding more sigma-layers to reduce spurious numerical mixing.
AbstractList •Twin experiment for the coupled system North Sea/Baltic Seas.•Comparison of s-coordinates and vertically adaptive coordinates.•Adaptive coordinates show a better representation of the summer thermoclines.•Adaptive coordinates show lower numerical mixing compared to s-coordinates. Shelf seas such as the North Sea and the Baltic Sea are characterised by spatially and temporally varying stratification that is highly relevant for their physical dynamics and the evolution of their ecosystems. Stratification may vary from unstably stratified (e.g., due to convective surface cooling) to strongly stratified with density jumps of up to 10 kg/m3 per m (e.g., in overflows into the Baltic Sea). Stratification has a direct impact on vertical turbulent transports (e.g., of nutrients) and influences the entrainment rate of ambient water into dense bottom currents which in turn determine the stratification of and oxygen supply to, e.g., the central Baltic Sea. Moreover, the suppression of the vertical diffusivity at the summer thermocline is one of the limiting factors for the vertical exchange of nutrients in the North Sea. Due to limitations of computational resources and since the locations of such density jumps (either by salinity or temperature) are predicted by the model simulation itself, predefined vertical coordinates cannot always reliably resolve these features. Thus, all shelf sea models with a predefined vertical coordinate distribution are inherently subject to under-resolution of the density structure. To solve this problem, Burchard and Beckers (2004) and Hofmeister et al. (2010) developed the concept of vertically adaptive coordinates for ocean models, where zooming of vertical coordinates at locations of strong stratification (and shear) is imposed. This is achieved by solving a diffusion equation for the position of the coordinates (with the diffusivity being proportional to the stratification or shear frequencies). We will show for a coupled model system of the North Sea and the Baltic Sea (resolution ∼ 1.8 km) how numerical mixing is substantially reduced and model results become significantly more realistic when vertically adaptive coordinates are applied. We additionally demonstrate that vertically adaptive coordinates perform well in simulating the two dynamically different regions North Sea and Baltic Sea with a single parameter set. An analysis of the computational overhead of the adaptive coordinates indicates an increase of 5–8% in runtime. This is still less expensive than adding more sigma-layers to reduce spurious numerical mixing.
Shelf seas such as the North Sea and the Baltic Sea are characterised by spatially and temporally varying stratification that is highly relevant for their physical dynamics and the evolution of their ecosystems. Stratification may vary from unstably stratified (e.g., due to convective surface cooling) to strongly stratified with density jumps of up to 10 kg/m3 per m (e.g., in overflows into the Baltic Sea). Stratification has a direct impact on vertical turbulent transports (e.g., of nutrients) and influences the entrainment rate of ambient water into dense bottom currents which in turn determine the stratification of and oxygen supply to, e.g., the central Baltic Sea. Moreover, the suppression of the vertical diffusivity at the summer thermocline is one of the limiting factors for the vertical exchange of nutrients in the North Sea. Due to limitations of computational resources and since the locations of such density jumps (either by salinity or temperature) are predicted by the model simulation itself, predefined vertical coordinates cannot always reliably resolve these features. Thus, all shelf sea models with a predefined vertical coordinate distribution are inherently subject to under-resolution of the density structure. To solve this problem, Burchard and Beckers (2004) and Hofmeister et al. (2010) developed the concept of vertically adaptive coordinates for ocean models, where zooming of vertical coordinates at locations of strong stratification (and shear) is imposed. This is achieved by solving a diffusion equation for the position of the coordinates (with the diffusivity being proportional to the stratification or shear frequencies). We will show for a coupled model system of the North Sea and the Baltic Sea (resolution 1.8 km) how numerical mixing is substantially reduced and model results become significantly more realistic when vertically adaptive coordinates are applied. We additionally demonstrate that vertically adaptive coordinates perform well in simulating the two dynamically different regions North Sea and Baltic Sea with a single parameter set. An analysis of the computational overhead of the adaptive coordinates indicates an increase of 5-8% in runtime. This is still less expensive than adding more sigma-layers to reduce spurious numerical mixing.
Author Klingbeil, Knut
Burchard, Hans
Gräwe, Ulf
Holtermann, Peter
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  givenname: Knut
  surname: Klingbeil
  fullname: Klingbeil, Knut
– sequence: 4
  givenname: Hans
  surname: Burchard
  fullname: Burchard, Hans
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Keywords Adaptive coordinates
North Sea
Numerical mixing
Stratification
GETM
Baltic Sea
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Snippet •Twin experiment for the coupled system North Sea/Baltic Seas.•Comparison of s-coordinates and vertically adaptive coordinates.•Adaptive coordinates show a...
Shelf seas such as the North Sea and the Baltic Sea are characterised by spatially and temporally varying stratification that is highly relevant for their...
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SubjectTerms Adaptive coordinates
Baltic Sea
Computation
Density
Diffusivity
GETM
Mathematical models
North Sea
Numerical mixing
Nutrients
Shelves
Stratification
Title Advantages of vertically adaptive coordinates in numerical models of stratified shelf seas
URI https://dx.doi.org/10.1016/j.ocemod.2015.05.008
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