Litcius/Paper detail

The Evolution of an AgI Cloud‐Seeding Track in Central China as Seen by a Combination of Radar, Satellite, and Disdrometer Observations

Wang Jin, Zhiguo Yue, Daniel Rosenfeld, Lei Zhang, Yannian Zhu, Jin Dai, Xing Yu, Jinhui Li

2021Journal of Geophysical Research Atmospheres40 citationsDOI

Abstract

Abstract Operational cloud seeding has been implemented to alleviate local precipitation shortages in China for over half a century. Here, we present quantitative evidence for the effect of AgI seeding on supercooled layer clouds with a top cloud temperature of −15°C in China, as documented for the first time by a combination of radar, satellite, and disdrometer observations. A radar signature appeared 18 min after seeding, shortly followed by a visible glaciated seeding track. The seeding signature expanded horizontally at a rate of ∼1.4 and ∼0.3 m s −1 before and after 04:25 UTC. The radar signature descended to the surface 40 min after seeding. A disdrometer captured the precipitation of the first seeded raindrops that reached maximum diameter of 2.75 mm compared to the maximum diameter of 1 mm of the light background rain. The enhanced surface rainfall was observed within the subsequent 100 min. A conceptual model for the formation and expansion of the seeding track is presented. Although the precipitation was light, it is a promising step toward the goal of quantifying the impact of cloud seeding in China.

Topics & Concepts

SeedingDisdrometerCloud seedingPrecipitationRadarMeteorologySatelliteEnvironmental scienceAtmospheric sciencesRemote sensingGeologyComputer scienceGeographyPhysicsAstronomyTelecommunicationsRain gaugeThermodynamicsAtmospheric aerosols and cloudsPrecipitation Measurement and AnalysisAeolian processes and effects