Vertical Resolution of the Surface Layer versus Finite-volume and Topography Issues

With probably no exception, in atmospheric numerical models, a high vertical resolution is used close to the surface, with gradually reduced resolution higher up. This seems an obvious choice given the importance and complexity of processes close to the ground, and the cost of using a high near-surf...

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Published in	Boundary-layer meteorology Vol. 187; no. 1-2; pp. 95 - 104
Main Author	Mesinger, Fedor
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.05.2023 Springer Springer Nature B.V
Subjects	Advection Atmospheric models Atmospheric Protection/Air Quality Control/Air Pollution Atmospheric Sciences byproducts Earth and Environmental Science Earth Sciences Horizontal cells Mathematical models Meteorology Modelling Numerical models Numerical schemes prediction Research Article Resolution Surface boundary layer Surface layers Temperature Terrain following Topography Wind speed United States > US Surface-layer resolution Zilitinkevich constant Topography Finite-volume schemes Vertical coordinate
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ISSN	0006-8314 1573-1472
DOI	10.1007/s10546-022-00745-2

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Abstract	With probably no exception, in atmospheric numerical models, a high vertical resolution is used close to the surface, with gradually reduced resolution higher up. This seems an obvious choice given the importance and complexity of processes close to the ground, and the cost of using a high near-surface resolution throughout the model atmosphere. But there are disadvantages involved that deserve attention. One is that the performance of numerical schemes is generally better for uniform resolution, in particular when the finite-volume approach is used. Another is that with the usual terrain-following vertical coordinate, horizontal flow across high topography will be subject to severe resolution changes encountering the topography. An unintended experiment of the impact of these disadvantages is a by-product of the so-called “parallel” run of two models at the U.S. National Centers for Environmental Prediction in 2006, when the operational Eta model was compared against its intended replacement, the NMM model. In that four+ month experiment the Eta model more accurately forecast 10-m wind speed and 2-m temperatures over the mostly high topography of the western United States than the NMM, despite its much poorer vertical resolution over that area and not too different physical parametrizations. It is suggested that the severe NMM grid cell resolution change of horizontal flow encountering high topography with terrain-following coordinates is the main cause of this result.
AbstractList	With probably no exception, in atmospheric numerical models, a high vertical resolution is used close to the surface, with gradually reduced resolution higher up. This seems an obvious choice given the importance and complexity of processes close to the ground, and the cost of using a high near-surface resolution throughout the model atmosphere. But there are disadvantages involved that deserve attention. One is that the performance of numerical schemes is generally better for uniform resolution, in particular when the finite-volume approach is used. Another is that with the usual terrain-following vertical coordinate, horizontal flow across high topography will be subject to severe resolution changes encountering the topography. An unintended experiment of the impact of these disadvantages is a by-product of the so-called “parallel” run of two models at the U.S. National Centers for Environmental Prediction in 2006, when the operational Eta model was compared against its intended replacement, the NMM model. In that four+ month experiment the Eta model more accurately forecast 10-m wind speed and 2-m temperatures over the mostly high topography of the western United States than the NMM, despite its much poorer vertical resolution over that area and not too different physical parametrizations. It is suggested that the severe NMM grid cell resolution change of horizontal flow encountering high topography with terrain-following coordinates is the main cause of this result.
Audience	Academic
Author	Mesinger, Fedor
Author_xml	– sequence: 1 givenname: Fedor orcidid: 0000-0002-8667-9012 surname: Mesinger fullname: Mesinger, Fedor email: fedor.mesinger@gmail.com organization: Department of Mathematics, Physics and Geo-Sciences, Serbian Academy of Sciences and Arts
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Cites_doi	10.2151/jmsj.2020-050 10.1175/1520-0493(1990)118<1429:TSMCPP>2.0.CO;2 10.1175/1520-0493(1994)122<0927:TSMECM>2.0.CO;2 10.1023/A:1001838832436 10.1007/BF00122488 10.1029/RG020i004p00851 10.1029/JZ067i008p03095 10.1175/2009WAF2222201.1 10.1007/978-3-642-11640-7_4 10.3390/atmos10050274 10.1175/BAMS-87-3-343 10.1007/BF01025365 10.1007/s00703-012-0182-z 10.1023/A:1001765727956 10.1175/1520-0469(1974)031<1791:AHOTCM>2.0.CO;2 10.1175/1520-0469(1988)045<0055:AQETEM>2.0.CO;2 10.1023/A:1000531001463 10.1175/1520-0493(1984)112<1234:NASAEC>2.0.CO;2 10.2495/AIR950071 10.1175/MWR-D-19-0219.1 10.1007/s00703-016-0496-3 10.1007/978-1-4419-6412-0 10.1175/1520-0493(1994)122<1509:IOSSOP>2.0.CO;2 10.1029/2009GL037980 10.1093/acrefore/9780190228620.013.617 10.1088/1755-1315/13/1/012005
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Snippet	With probably no exception, in atmospheric numerical models, a high vertical resolution is used close to the surface, with gradually reduced resolution higher...
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SubjectTerms	Advection Atmospheric models Atmospheric Protection/Air Quality Control/Air Pollution Atmospheric Sciences byproducts Earth and Environmental Science Earth Sciences Horizontal cells Mathematical models Meteorology Modelling Numerical models Numerical schemes prediction Research Article Resolution Surface boundary layer Surface layers Temperature Terrain following Topography Wind speed
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Title	Vertical Resolution of the Surface Layer versus Finite-volume and Topography Issues
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