GNSS precipitable water vapor from an Amazonian rain forest flux tower

Adams, David K.; Silva Fernandes, Rui Manuel da; Maia, Jair Max Furtunato

Use este identificador para citar ou linkar para este item: https://repositorio.inpa.gov.br/handle/1/16175

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Campo DC	Valor	Idioma
dc.contributor.author	Adams, David K.	-
dc.contributor.author	Silva Fernandes, Rui Manuel da	-
dc.contributor.author	Maia, Jair Max Furtunato	-
dc.date.accessioned	2020-05-25T20:59:14Z	-
dc.date.available	2020-05-25T20:59:14Z	-
dc.date.issued	2011	-
dc.identifier.uri	https://repositorio.inpa.gov.br/handle/1/16175	-
dc.description.abstract	Understanding the complex interactions between water vapor fields and deep convection on the mesoscale requires observational networks with high spatial (kilometers) and temporal (minutes) resolution. In the equatorial tropics, where deep convection dominates the vertical distribution of the most important greenhouse substance-water-these mesoscale networks are nonexistent. Global Navigational Satellite System (GNSS) meteorological networks offer high temporal/spatial resolution precipitable water vapor, but infrastructure exigencies are great. The authors report here on very accurate precipitable water vapor (PWV) values calculated from a GNSS receiver installed on a highly nonideal Amazon rain forest flux tower. Further experiments with a mechanically oscillating platform demonstrate that errors and biases of approximately 1 mm (2%-3% of PWV) can be expected when compared with a stable reference GNSS receiver for two different geodetic grade receivers/antennas and processing methods [GPS-Inferred Positioning System (GIPSY) andGAMIT]. The implication is that stable fixed antennas are unnecessary for accurate calculation of precipitable water vapor regardless of processing techniques or geodetic grade receiver. © 2011 American Meteorological Society.	en
dc.language.iso	en	pt_BR
dc.relation.ispartof	Volume 28, Número 10, Pags. 1192-1198	pt_BR
dc.rights	Attribution-NonCommercial-NoDerivs 3.0 Brazil	*
dc.rights.uri	http://creativecommons.org/licenses/by-nc-nd/3.0/br/	*
dc.subject	Amazon Rainforest	en
dc.subject	Complex Interaction	en
dc.subject	Convective Storms	en
dc.subject	Deep Convection	en
dc.subject	Gnss Receivers	en
dc.subject	Instrumentation/sensors	en
dc.subject	Meso Scale	en
dc.subject	Mesoscale Networks	en
dc.subject	Mesoscale Process	en
dc.subject	Navigational Satellites	en
dc.subject	Nonideal	en
dc.subject	Oscillating Platform	en
dc.subject	Positioning System	en
dc.subject	Precipitable Water Vapor	en
dc.subject	Processing Method	en
dc.subject	Processing Technique	en
dc.subject	Rain Forests	en
dc.subject	Vertical Distributions	en
dc.subject	Water Vapor Fields	en
dc.subject	Forestry	en
dc.subject	Geodesy	en
dc.subject	Geodetic Satellites	en
dc.subject	Global Positioning System	en
dc.subject	Natural Convection	en
dc.subject	Navigation Systems	en
dc.subject	Processing	en
dc.subject	Rain	en
dc.subject	Signal Receivers	en
dc.subject	Water Vapor	en
dc.subject	Accuracy Assessment	en
dc.subject	Convective System	en
dc.subject	Gnss	en
dc.subject	Gps	en
dc.subject	Mesoscale Meteorology	en
dc.subject	Precipitation Assessment	en
dc.subject	Precipitation Intensity	en
dc.subject	Rainforest	en
dc.subject	Spatial Resolution	en
dc.subject	Temporal Variation	en
dc.subject	Water Vapor	en
dc.subject	Forestry	en
dc.subject	Processing	en
dc.subject	Rain	en
dc.subject	Satellites	en
dc.subject	Sensors	en
dc.subject	Signals	en
dc.subject	Water Vapor	en
dc.subject	Amazonia	en
dc.title	GNSS precipitable water vapor from an Amazonian rain forest flux tower	en
dc.type	Artigo	pt_BR
dc.identifier.doi	10.1175/JTECH-D-11-00082.1	-
dc.publisher.journal	Journal of Atmospheric and Oceanic Technology	pt_BR
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