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46:. These include small and generally fleeting cloud "puffs" and other small cloud features. Microscale meteorology controls the most important mixing and dilution processes in the atmosphere. Important topics in microscale meteorology include
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58:. Measuring these transport processes involves use of micrometeorological (or flux) towers. Variables often measured or derived include net
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are sometimes grouped together as "mesoscale and microscale meteorology" (MMM) and together study all phenomena smaller than
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266:. Translated by Nappo, Carmen J.; Klein. Berlin, Germany: Springer. p. 2.
104:, and many micronets are a denser spatial resolution sub-network of a mesonet.
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89:A micronet is an atmospheric and/or
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93:observation network, composed of
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124:Microscale and macroscale models
235:Air and Noise Pollution Control
210:A Short Course in Cloud Physics
172:American Meteorological Society
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164:"AMS Glossary of Meteorology"
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304:. You can help Knowledge by
26:is the study of short-lived
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233:Pereira, Norman (1979).
139:Surface weather analysis
30:phenomena smaller than
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351:Microscale meteorology
300:–related article is a
262:Foken, Thomas (2017).
129:Misoscale meteorology
208:Rogers, R. (1989).
356:Meteorology stubs
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273:978-3-642-25439-0
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174:. Archived from
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68:latent heat flux
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306:expanding it
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180:. Retrieved
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52:gas exchange
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298:meteorology
84:hydrosphere
72:trace gases
44:weather map
36:meteorology
28:atmospheric
345:Categories
196:Foken 2017
182:2008-04-12
150:References
76:atmosphere
56:turbulence
95:automated
80:biosphere
60:radiation
32:mesoscale
108:See also
119:FLUXNET
102:mesonet
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296:This
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268:ISBN
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