Linkage Between Radar Reflectivity Slope and Raindrop Size Distribution in Precipitation with Bright Bands

This study investigates the linkage between the radar reflectivity slope and raindrop size distribution (DSD) in precipitation with bright bands through coordinated C-band/Ka-band radar and disdrometer observations in southern China. Precipitation is classified into three types based on the reflecti...

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Published in	Remote sensing (Basel, Switzerland) Vol. 17; no. 14; p. 2393
Main Authors	Li, Qinghui, Sun, Xuejin, Liu, Xichuan, Li, Haoran
Format	Journal Article
Language	English
Published	Basel MDPI AG 01.07.2025
Subjects	Algorithms Altitude Analysis bright band C band Classification schemes Coalescence Evaporation Extremely high frequencies Freezing Humidity microphysical processes Precipitation Radar radar reflectivity slope Rain Rain and rainfall raindrop size distribution (DSD) Raindrops Rainfall Rainfall intensity Reflectance Regression analysis Relative humidity Sedimentation & deposition Signal to noise ratio Size distribution Velocity China
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ISSN	2072-4292 2072-4292
DOI	10.3390/rs17142393

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Abstract	This study investigates the linkage between the radar reflectivity slope and raindrop size distribution (DSD) in precipitation with bright bands through coordinated C-band/Ka-band radar and disdrometer observations in southern China. Precipitation is classified into three types based on the reflectivity slope (K-value) below the freezing level, revealing distinct microphysical regimes: Type 1 (K = 0 to −0.9) shows coalescence-dominated growth; Type 2 (\|K\| > 0.9) shows the balance between coalescence and evaporation/size sorting; and Type 3 (K = 0.9 to 0) demonstrates evaporation/size-sorting effects. Surface DSD analysis demonstrates distinct precipitation characteristics across classification types. Type 3 has the highest frequency of occurrence. A gradual decrease in the mean rain rates is observed from Type 1 to Type 3, with Type 3 exhibiting significantly lower rainfall intensities compared to Type 1. At equivalent rainfall rates, Type 2 exhibits unique microphysical signatures with larger mass-weighted mean diameters (Dm) compared to other types. These differences are due to Type 2 maintaining a high relative humidity above the freezing level (influencing initial Dm at bottom of melting layer) but experiencing limited Dm growth due to a dry warm rain layer and downdrafts. Type 1 shows opposite characteristics—a low initial Dm from the dry upper layers but maximum growth through the moist warm rain layer and updrafts. Type 3 features intermediate humidity throughout the column with updrafts and downdrafts coexisting in the warm rain layer, producing moderate growth.
AbstractList	This study investigates the linkage between the radar reflectivity slope and raindrop size distribution (DSD) in precipitation with bright bands through coordinated C-band/Ka-band radar and disdrometer observations in southern China. Precipitation is classified into three types based on the reflectivity slope (K-value) below the freezing level, revealing distinct microphysical regimes: Type 1 (K = 0 to −0.9) shows coalescence-dominated growth; Type 2 (\|K\| > 0.9) shows the balance between coalescence and evaporation/size sorting; and Type 3 (K = 0.9 to 0) demonstrates evaporation/size-sorting effects. Surface DSD analysis demonstrates distinct precipitation characteristics across classification types. Type 3 has the highest frequency of occurrence. A gradual decrease in the mean rain rates is observed from Type 1 to Type 3, with Type 3 exhibiting significantly lower rainfall intensities compared to Type 1. At equivalent rainfall rates, Type 2 exhibits unique microphysical signatures with larger mass-weighted mean diameters (Dm) compared to other types. These differences are due to Type 2 maintaining a high relative humidity above the freezing level (influencing initial Dm at bottom of melting layer) but experiencing limited Dm growth due to a dry warm rain layer and downdrafts. Type 1 shows opposite characteristics—a low initial Dm from the dry upper layers but maximum growth through the moist warm rain layer and updrafts. Type 3 features intermediate humidity throughout the column with updrafts and downdrafts coexisting in the warm rain layer, producing moderate growth. This study investigates the linkage between the radar reflectivity slope and raindrop size distribution (DSD) in precipitation with bright bands through coordinated C-band/Ka-band radar and disdrometer observations in southern China. Precipitation is classified into three types based on the reflectivity slope (K-value) below the freezing level, revealing distinct microphysical regimes: Type 1 (K = 0 to −0.9) shows coalescence-dominated growth; Type 2 (\|K\| > 0.9) shows the balance between coalescence and evaporation/size sorting; and Type 3 (K = 0.9 to 0) demonstrates evaporation/size-sorting effects. Surface DSD analysis demonstrates distinct precipitation characteristics across classification types. Type 3 has the highest frequency of occurrence. A gradual decrease in the mean rain rates is observed from Type 1 to Type 3, with Type 3 exhibiting significantly lower rainfall intensities compared to Type 1. At equivalent rainfall rates, Type 2 exhibits unique microphysical signatures with larger mass-weighted mean diameters (D [sub.m]) compared to other types. These differences are due to Type 2 maintaining a high relative humidity above the freezing level (influencing initial D [sub.m] at bottom of melting layer) but experiencing limited D [sub.m] growth due to a dry warm rain layer and downdrafts. Type 1 shows opposite characteristics—a low initial D [sub.m] from the dry upper layers but maximum growth through the moist warm rain layer and updrafts. Type 3 features intermediate humidity throughout the column with updrafts and downdrafts coexisting in the warm rain layer, producing moderate growth.
Audience	Academic
Author	Li, Haoran Liu, Xichuan Sun, Xuejin Li, Qinghui
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Snippet	This study investigates the linkage between the radar reflectivity slope and raindrop size distribution (DSD) in precipitation with bright bands through...
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SubjectTerms	Algorithms Altitude Analysis bright band C band Classification schemes Coalescence Evaporation Extremely high frequencies Freezing Humidity microphysical processes Precipitation Radar radar reflectivity slope Rain Rain and rainfall raindrop size distribution (DSD) Raindrops Rainfall Rainfall intensity Reflectance Regression analysis Relative humidity Sedimentation & deposition Signal to noise ratio Size distribution Velocity
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Title	Linkage Between Radar Reflectivity Slope and Raindrop Size Distribution in Precipitation with Bright Bands
URI	https://www.proquest.com/docview/3233249965 https://doaj.org/article/6c20d6bd7150417484ab3f324926aa19
Volume	17
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