Electromagnetic Ducting in the Near‐Shore Marine Environment: Results From the CASPER‐East Field Experiment

We used the observations from the east coast of the USA and model simulations to elicit marine atmospheric surface layer (MASL) processes that controlled the spatial variability of electromagnetic ducting conditions in the near‐shore (60 km) marine environment during CASPER‐East field campaign. The...

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Bibliographic Details
Published in:Journal of geophysical research. Atmospheres 2022-11, Vol.127 (22), p.n/a
Main Authors: Alappattu, Denny P., Wang, Qing, Yamaguchi, Ryan T., Haack, Tracy, Ulate, Marcela, Fernando, Harindra J., Frederickson, Paul
Format: Article
Language:English
Subjects:
Advection
air/sea interaction
boundary layer processes
coastal processes
Ducts
Environmental conditions
Evaporation
Geophysics
Height
Marine environment
Oceans
Offshore
radio wave propagation
Spatial distribution
Spatial variability
Spatial variations
Surface boundary layer
Surface layers
Surface stability
Variability
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Summary:We used the observations from the east coast of the USA and model simulations to elicit marine atmospheric surface layer (MASL) processes that controlled the spatial variability of electromagnetic ducting conditions in the near‐shore (60 km) marine environment during CASPER‐East field campaign. The estimated evaporation duct height (EDH) showed an average decrease of ∼2.5 m over every 10 km distance from the shore. The surface layer stability conditions chiefly determined the duct heights. While the mean duct height remained ∼10 m under unstable conditions, deeper (>20 m) evaporation ducts were frequently evident (∼40% of the time) during stable MASL conditions, which were responsible for the observed near‐shore EDH variability. Episodes of warm offshore flow and advection of hot and humid air from the Gulfstream region created ideal environmental conditions for stable MASL development and thus deeper ducts over the coastal ocean. A detailed case study of warm and humid Gulfstream air advection over the cooler coastal ocean is presented to elucidate the temporal evolution of the surface layer stability and associated changes in the spatial distribution of the evaporation duct height. Key Points Stable conditions in the nearshore CASPER‐East region can be caused by both offshore flow and flow from the Gulf Stream The near‐shore region of Duck, North Carolina, showed a gradual decrease of evaporation duct height from the shore ∼2.5 m for every 10 km High‐evaporation ducts are associated with stable stratifications in the coastal marine atmospheric surface layer
ISSN:2169-897X
2169-8996
DOI:10.1029/2022JD037423