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A well-observed polar low analysed with a regional and a global weather-prediction model

Permanent link
https://hdl.handle.net/10037/19180
DOI
https://doi.org/10.1002/qj.3764
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Date
2020-02-13
Type
Journal article
Tidsskriftartikkel
Peer reviewed

Author
Stoll, Patrick; Valkonen, Teresa Maaria; Graversen, Rune; Noer, Gunnar
Abstract
The capability of a regional (AROME‐Arctic) and a global (ECMWF HRES) weather‐prediction model are compared for simulating a well‐observed polar low (PL). This PL developed on 3–4 March 2008 and was measured by dropsondes released from three flights during the IPY‐THORPEX campaign. Validation against these measurements reveals that both models simulate the PL reasonably well. AROME‐Arctic appears to represent the cloud structures and the high local variability more realistically. The high local variability causes standard error statistics to be similar for AROME‐Arctic and ECMWF HRES. A spatial verification technique reveals that AROME‐Arctic has improved skills at small scales for extreme values. However, the error growth of the forecast, especially in the location of the PL, is faster in AROME‐Arctic than in ECMWF HRES. This is likely associated with larger convection‐induced perturbations in the former than the latter model. Additionally, the PL development is analysed. This PL has two stages, an initial baroclinic and a convective mature stage. Sensible heat flux and condensational heat release both contribute to strengthen the initial baroclinic environment. In the mature stage, latent heat release appears to maintain the system. At least two conditions must be met for this stage to develop: (a) the sensible heat flux sufficiently destabilises the local environment around the PL, and (b) sufficient moisture is available for condensational heat release. More than half of the condensed moisture within the system originates from the surroundings. The propagation of the PL is “pulled” towards the area of strongest condensational heating. Finally, the sensitivity of the PL to the sea‐surface temperature is analysed. The maximum near‐surface wind speed connected to the system increases by 1–2 m·s−1 per K of surface warming and a second centre develops in cases of highly increased temperature.
Is part of
Stoll, P.J. (2020). On polar lows and their formation. (Doctoral thesis). https://hdl.handle.net/10037/19183.
Publisher
Royal Meteorological Society
Citation
Stoll P, Valkonen, Graversen, Noer. A well-observed polar low analysed with a regional and a global weather-prediction model. Quarterly Journal of the Royal Meteorological Society. 2020;146(729):1740-1767
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