Abstract
The intent of this study is to develop a better understanding of the behavior of late spring through early fall marine layer stratus and fog at Vandenberg Air Force Base, which accounts for a majority of aviation forecasting difficulties. The main objective was to use (1995) study as a starting point to evaluate synoptic and mesoscale processes involved, and identify specific meteorological parameters that affected the behavior of marine layer stratus and fog. After identifying those parameters, the study evaluates how well the various weather models forecast them. The main conclusion of this study is that weak upper-air dynamic features work with boundary layer motions to influence marine layer behavior. It highlights the importance of correctly forecasting the surface temperature by showing how it ties directly to the wind field. That wind field, modified by the local terrain, establishes the low-level convergence and divergence pattern and the resulting marine layer cloud thicknesses and visibilities.
Key words
- Marine layer
- sky cover
- temperature
- precipitation
- visibility
- winds
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References
Detachment 30 (1969), Forecasting Stratus/Fog Daytime Breaking, 6th Weather Wing, 1–7.
Evermann, G.S. (1976), Marine fog development along the West Coast during 1973 using transient ship and coastal station observations, Naval Post Graduate School Thesis, 1–96.
Felsch, Peter (1990), Stratus surge prediction along the Central California Coast, NOAA Technical Memorandum NWS WR-209, 1–17.
Ireton, Greg, S. (2001), Classification of summertime West Coast fog and stratus forecast techniques, Naval Post Graduate School Thesis, 1–131.
Leipper, D.F. (1994), Fog on the U.S. West Coast: A Review, BAMS, 72(2), 229–240.
Leipper, D.F. (1995), Fog forecasting objectively in the California Coastal area using LIBS, AMS Weather and Forecasting, 10(2), 741–761.
Mack, E.J. et al. (1975). Marine fog studies off the California Coast, Third Annual Summary Report Project Sea Fog, Calspan Corporation, Naval Air System Command, 1–87.
McConnell, M.C. (1975), Forecasting marine layer on the West Coast of the United States using the linear discriminant analysis approach, Naval Post Graduate School Thesis, 1–69.
Naval Electronics Laboratory Center (1976), Fog Related to Stratus Clouds in Southern California, Naval Air Systems Command.
Noonkester, V.R. (1979), Coastal marine fog in southern California, Mon. Wea. Rev. 107, 830–850.
Nuss, W.A. (1996), Coastal meteorology science plan, Naval Post Graduate School Thesis 1–29.
Paluch, I.R. and Lenschow, D.H. (1991), Stratiform cloud formation in the marine boundary layer, J. Atmos. Sci. 4819, 2141–2158.
Peterson, C.A. (1975), Fog sequences on the Central California Coast with examples, Naval Post Graduate School Thesis, 1–84.
Pilie, R.J., Mack, E.J., Rogers, C.W., Katz, U., and Kocmond, W.C. (1979), The formation of marine fog and the development of fog-stratus systems along the California Coast, J. Appl. Meteor. 18, 1276–1286.
Rogers, C.W. (1974), The Life Cycle of California Coastal Fog Onshore, Calspan Corporation, Air Force Systems Command, pp. 1–93.
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© 2007 Birkhäuser Verlag
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Wells, L.A. (2007). Marine Layer Stratus Study. In: Gultepe, I. (eds) Fog and Boundary Layer Clouds: Fog Visibility and Forecasting. Pageoph Topical Volumes. Birkhäuser Basel. https://doi.org/10.1007/978-3-7643-8419-7_17
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DOI: https://doi.org/10.1007/978-3-7643-8419-7_17
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Publisher Name: Birkhäuser Basel
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