Imagen de Portada

GPS PrecipitableWater Vapor Estimations over Costa Rica: A Comparison against Atmospheric Sounding and Moderate Resolution Imaging Spectrometer (MODIS)

The quantification of water vapor in tropical regions like Central America is necessary to estimate the influence of climate change on its distribution and the formation of precipitation. This work reports daily estimations of precipitable water vapor (PWV) using Global Positioning System (GPS) dela...

Descripción completa

Autores Principales: Campos - Arias, Polleth, Esquivel-Hernández, Germain, Valverde, José, Rodríguez - Rosales, Stephanie, Moya-Zamora Jorge, Sanchez-Murillo, Ricardo, Boll, Jan
Formato: Artículo
Idioma: Inglés
Publicado: MDPI 2021
Materias:
PRECIPITACIÓN
ATMÓSFERA
ATMOSPHERE
ATMOSPHERIC SOUNDING
COSTA RICA
GPS
MODIS
PRECIPITABLE WATER VAPOR
Acceso en línea: http://hdl.handle.net/11056/20899
Sumario: The quantification of water vapor in tropical regions like Central America is necessary to estimate the influence of climate change on its distribution and the formation of precipitation. This work reports daily estimations of precipitable water vapor (PWV) using Global Positioning System (GPS) delay data over the Pacific region of Costa Rica during 2017. The GPS PWV measurements were compared against atmospheric sounding and Moderate Resolution Imaging Spectrometer (MODIS) data. When GPS PWV was calculated, relatively small biases between the mean atmospheric temperatures (Tm) from atmospheric sounding and the Bevis equation were found. The seasonal PWV fluctuations were controlled by two of the main circulation processes in Central America: the northeast trade winds and the latitudinal migration of the Intertropical Convergence Zone (ITCZ). No significant statistical di erences were found for MODIS Terra during the dry season with respect GPS-based calculations (p > 0.05). A multiple linear regression model constructed based on surface meteorological variables can predict the GPS-based measurements with an average relative bias of 0.02 0.19 mm/day (R2 = 0.597). These first results are promising for incorporating GPS-based meteorological applications in Central America where the prevailing climatic conditions offer a unique scenario to study the influence of maritime moisture inputs on the seasonal water vapor distribution.

Ejemplares similares