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Toronto Water Vapor Lidar Inter-Comparison Campaign

Zen Mariani, Noah A. Stanton, J. A. Whiteway, Raisa Lehtinen

2020Remote Sensing28 citationsDOIOpen Access PDF

Abstract

This study presents comparisons between vertical water vapor profile measurements from a Raman lidar and a new pre-production broadband differential absorption lidar (DIAL). Vaisala’s novel DIAL system operates autonomously outdoors and measures the vertical profile of water vapor within the boundary layer 24 h a day during all weather conditions. Eight nights of measurements in June and July 2018 were used for the Toronto water vapor lidar inter-comparison field campaign. Both lidars provided reliable atmospheric backscatter and water vapor profile measurements. Comparisons were performed during night-time observations only, when the York Raman lidar could measure the water vapor profile. The purpose was to validate the water vapor profile measurements retrieved by the new DIAL system. The results indicate good agreement between the two lidars, with a mean difference (DIAL–Raman) of 0.17 ± 0.14 g/kg. There were two main causes for differences in their measurements: horizontal displacement between the two lidar sites (3.2 km) and vertical gradients in the water vapor profile. A case study analyzed during the campaign demonstrates the ability for both lidars to measure sudden changes and large gradients in the water vapor’s vertical structure due to a passing frontal system. These results provide an initial validation of the DIAL’s measurements and its ability to be implemented as part of an operational program.

Topics & Concepts

LidarWater vaporDialEnvironmental scienceRemote sensingPlanetary boundary layerMeteorologyBackscatter (email)Atmospheric sciencesGeologyTurbulencePhysicsTelecommunicationsAcousticsComputer scienceWirelessAtmospheric and Environmental Gas DynamicsAtmospheric aerosols and cloudsSpectroscopy and Laser Applications
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