Abstract
Abstract. The sensitivity of sea breeze structure to sea surface temperature (SST) and coastal orography is investigated in convection-permitting Met Office Unified Model simulations of a case study along the south coast of England. Changes in SST of 1 K are shown to significantly modify the structure of the sea breeze immediately offshore. On the day of the case study, the sea breeze was partially blocked by coastal orography, particularly within Lyme Bay. The extent to which the flow is blocked depends strongly on the static stability of the marine boundary layer. In experiments with colder SST, the marine boundary layer is more stable, and the degree of blocking is more pronounced. Although a colder SST would also imply a larger land–sea temperature contrast and hence a stronger onshore wind – an effect which alone would discourage blocking – the increased static stability exerts a dominant control over whether blocking takes place. The implications of prescribing fixed SST from climatology in numerical weather prediction model forecasts of the sea breeze are discussed.
Highlights
A sea breeze is a mesoscale circulation driven by the differential heating of land and sea surfaces
The effect of sea surface temperature (SST) and coastal orography on the sea breeze along the south coast of England has been investigated in a set of convection-permitting numerical simulations with the Met Office Unified Model (MetUM)
It has been shown that the interaction of the sea breeze with coastal orography results in a narrow region of decreased wind speeds immediately offshore
Summary
A sea breeze is a mesoscale circulation driven by the differential heating of land and sea surfaces. It is characterized by a surface flow from the sea towards the land, and a deeper, weaker return flow aloft. Sea breezes have been extensively studied worldwide due to their daily recurrence in many regions of dense human population. They are of particular interest to air-quality control bodies and many marine and littoral industries. In this paper we demonstrate the critical dependence of sea breeze structure on sea surface temperature (SST) for a case study on the English south coast
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