TY - JOUR
T1 - 100 Years of Progress in Mesoscale Planetary Boundary Layer Meteorological Research
AU - Kristovich, David A.R.
AU - Takle, Eugene
AU - Young, George S.
AU - Sharma, Ashish
N1 - Funding Information:
The authors thank members of the Mesoscale/Boundary Layer Meteorology Group at the ISWS, Prairie Research Institute, past and present, for their help and input. Thank you to Greg McFarquhar and Bob Rauber for organizing this. Special thanks to the major federal funding agencies fostering advancements in atmospheric sciences, including NSF, NOAA, EPA, and many others. Partial financial support was provided from the National Science Foundation Iowa EPSCoR Grant 1101284, the National Science Foundation Wind-Energy Science, Engineering and Policy IGERT Grant 1069283 for wind farm analyses and the National Science Foundation Grant AGS 12-59004. Partial funding also was provided by USDA/NIFA/ Hatch fund IOW04414. Many informative discussions with D. A. Rajewski are acknowledged.
Funding Information:
Acknowledgments. The authors thank members of the Mesoscale/Boundary Layer Meteorology Group at the ISWS, Prairie Research Institute, past and present, for their help and input. Thank you to Greg McFarquhar and Bob Rauber for organizing this. Special thanks to the major federal funding agencies fostering advancements in atmospheric sciences, including NSF, NOAA, EPA, and many others. Partial financial support was provided from the National Science Foundation Iowa EPSCoR Grant 1101284, the National Science Foundation Wind-Energy Science, Engineering and Policy IGERT Grant 1069283 for wind farm analyses and the National Science Foundation Grant AGS 12-59004. Partial funding also was provided by USDA/NIFA/ Hatch fund IOW04414. Many informative discussions with D. A. Rajewski are acknowledged.
Publisher Copyright:
© 2019 American Meteorological Society.
Copyright:
Copyright 2020 Elsevier B.V., All rights reserved.
PY - 2019/1/1
Y1 - 2019/1/1
N2 - This chapter outlines the development of our understanding of several examples of mesoscale atmospheric circulations that are tied directly to surface forcings, starting from thermally driven variations over the ocean and progressing inland to man-made variations in temperature and roughness, and ending with forced boundary layer circulations. Examples include atmospheric responses to 1) overocean temperature variations, 2) coastlines (sea breezes), 3) mesoscale regions of inland water (lake-effect storms), and 4) variations in land-based surface usage (urban land cover). This chapter provides brief summaries of the historical evolution of, and tools for, understanding such mesoscale atmospheric circulations and their importance to the field, as well as physical processes responsible for initiating and determining their evolution. Some avenues of future research we see as critical are provided. The American Meteorological Society (AMS) has played a direct and important role in fostering the development of understanding mesoscale surface-forced circulations. The significance of AMS journal publications and conferences on this and interrelated atmospheric, oceanic, and hydrological fields, as well as those by sister scientific organizations, are demonstrated through extensive relevant citations.
AB - This chapter outlines the development of our understanding of several examples of mesoscale atmospheric circulations that are tied directly to surface forcings, starting from thermally driven variations over the ocean and progressing inland to man-made variations in temperature and roughness, and ending with forced boundary layer circulations. Examples include atmospheric responses to 1) overocean temperature variations, 2) coastlines (sea breezes), 3) mesoscale regions of inland water (lake-effect storms), and 4) variations in land-based surface usage (urban land cover). This chapter provides brief summaries of the historical evolution of, and tools for, understanding such mesoscale atmospheric circulations and their importance to the field, as well as physical processes responsible for initiating and determining their evolution. Some avenues of future research we see as critical are provided. The American Meteorological Society (AMS) has played a direct and important role in fostering the development of understanding mesoscale surface-forced circulations. The significance of AMS journal publications and conferences on this and interrelated atmospheric, oceanic, and hydrological fields, as well as those by sister scientific organizations, are demonstrated through extensive relevant citations.
KW - lake effects
KW - boundary layer
KW - sea breezes
KW - air-sea interaction
KW - mesoscale processes
KW - urban meteorology
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U2 - 10.1175/AMSMONOGRAPHS-D-18-0023.1
DO - 10.1175/AMSMONOGRAPHS-D-18-0023.1
M3 - Article
SN - 0065-9401
VL - 59
SP - 19.1-19.41
JO - Meteorological Monographs
JF - Meteorological Monographs
ER -