Seasonal Characteristics of Raindrop Size Distribution and Implication for Radar Rainfall Retrievals in Metro Manila, Philippines

Seasonal Characteristics of Raindrop Size Distribution and Implication for Radar Rainfall Retrievals in Metro Manila, Philippines

This study presents the first comprehensive analysis of the seasonal characteristics of raindrop size distribution (DSD) in Metro Manila, Philippines, using two years of measurements (2018–2020) from the PARSIVEL2 disdrometer. Seasonal properties of DSD for both stratiform and convective rain types...

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Main Authors: Aragon, Larry Ger B., Ibañez, Marco Polo A., Ordinario, Raymond C., Simpas, James Bernard, Cambaliza, Maria Obiminda L, Dado, Julie Mae B., Maquiling, Joel, Reid, Elizabeth A.
Format: text
Published: Archīum Ateneo 2024
Subjects:
Disdrometer
Metro Manila
Monsoon
Precipitation microphysics
Radar rainfall estimation
Raindrop size distribution
Atmospheric Sciences
Oceanography and Atmospheric Sciences and Meteorology
Physical Sciences and Mathematics
Online Access:https://archium.ateneo.edu/manila-observatory/13
https://doi.org/10.1016/j.atmosres.2024.107669
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Institution: Ateneo De Manila University
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spelling ph-ateneo-arc.manila-observatory-10132024-11-18T06:25:02Z Seasonal Characteristics of Raindrop Size Distribution and Implication for Radar Rainfall Retrievals in Metro Manila, Philippines Aragon, Larry Ger B. Ibañez, Marco Polo A. Ordinario, Raymond C. Simpas, James Bernard Cambaliza, Maria Obiminda L Dado, Julie Mae B. Maquiling, Joel Reid, Elizabeth A. This study presents the first comprehensive analysis of the seasonal characteristics of raindrop size distribution (DSD) in Metro Manila, Philippines, using two years of measurements (2018–2020) from the PARSIVEL2 disdrometer. Seasonal properties of DSD for both stratiform and convective rain types were examined during the Southwest Monsoon (SWM; June–September), Northeast Monsoon (NEM; October–February), and pre-SWM or Transition period (March–May). Key findings reveal the dominance of small raindrops (<1 >mm) during the NEM period, while mid-sized (1–3 mm) to large raindrops (>3 mm) are more prevalent during the SWM and Transition periods. The study highlights notable seasonal differences in DSD at moderate rain rates (5–10 mm hr−1), indicating variations in microphysical processes between stratiform and convective rain. Furthermore, the microphysical properties of convective rain in Metro Manila are found to be influenced by both oceanic and continental convective processes based on their mass-weighted mean diameter and generalized intercept parameter for all the monsoon periods. The DSD-derived dual-polarimetric radar variables are also shown to vary with the monsoon periods. Rainfall estimates using the DSD-derived dual-polarimetric relations statistically outperformed the empirical rainfall retrieval equation currently used by operational weather radars in the Philippines. Additionally, the Gamma shape parameter found in this study aligns with existing rainfall retrieval algorithm assumptions in space-borne radars. This similarity, along with the derived microphysical relations, could provide potential improvements in rainfall retrievals of ground-based and space-borne radars in tropical coastal environments like Metro Manila. 2024-12-01T08:00:00Z text https://archium.ateneo.edu/manila-observatory/13 https://doi.org/10.1016/j.atmosres.2024.107669 SOSE Affiliate: Manila Observatory Archīum Ateneo Disdrometer Metro Manila Monsoon Precipitation microphysics Radar rainfall estimation Raindrop size distribution Atmospheric Sciences Oceanography and Atmospheric Sciences and Meteorology Physical Sciences and Mathematics
institution Ateneo De Manila University
building Ateneo De Manila University Library
continent Asia
country Philippines
Philippines
content_provider Ateneo De Manila University Library
collection archium.Ateneo Institutional Repository
topic Disdrometer
Metro Manila
Monsoon
Precipitation microphysics
Radar rainfall estimation
Raindrop size distribution
Atmospheric Sciences
Oceanography and Atmospheric Sciences and Meteorology
Physical Sciences and Mathematics
spellingShingle Disdrometer
Metro Manila
Monsoon
Precipitation microphysics
Radar rainfall estimation
Raindrop size distribution
Atmospheric Sciences
Oceanography and Atmospheric Sciences and Meteorology
Physical Sciences and Mathematics
Aragon, Larry Ger B.
Ibañez, Marco Polo A.
Ordinario, Raymond C.
Simpas, James Bernard
Cambaliza, Maria Obiminda L
Dado, Julie Mae B.
Maquiling, Joel
Reid, Elizabeth A.
Seasonal Characteristics of Raindrop Size Distribution and Implication for Radar Rainfall Retrievals in Metro Manila, Philippines
description This study presents the first comprehensive analysis of the seasonal characteristics of raindrop size distribution (DSD) in Metro Manila, Philippines, using two years of measurements (2018–2020) from the PARSIVEL2 disdrometer. Seasonal properties of DSD for both stratiform and convective rain types were examined during the Southwest Monsoon (SWM; June–September), Northeast Monsoon (NEM; October–February), and pre-SWM or Transition period (March–May). Key findings reveal the dominance of small raindrops (<1 >mm) during the NEM period, while mid-sized (1–3 mm) to large raindrops (>3 mm) are more prevalent during the SWM and Transition periods. The study highlights notable seasonal differences in DSD at moderate rain rates (5–10 mm hr−1), indicating variations in microphysical processes between stratiform and convective rain. Furthermore, the microphysical properties of convective rain in Metro Manila are found to be influenced by both oceanic and continental convective processes based on their mass-weighted mean diameter and generalized intercept parameter for all the monsoon periods. The DSD-derived dual-polarimetric radar variables are also shown to vary with the monsoon periods. Rainfall estimates using the DSD-derived dual-polarimetric relations statistically outperformed the empirical rainfall retrieval equation currently used by operational weather radars in the Philippines. Additionally, the Gamma shape parameter found in this study aligns with existing rainfall retrieval algorithm assumptions in space-borne radars. This similarity, along with the derived microphysical relations, could provide potential improvements in rainfall retrievals of ground-based and space-borne radars in tropical coastal environments like Metro Manila.
format text
author Aragon, Larry Ger B.
Ibañez, Marco Polo A.
Ordinario, Raymond C.
Simpas, James Bernard
Cambaliza, Maria Obiminda L
Dado, Julie Mae B.
Maquiling, Joel
Reid, Elizabeth A.
author_facet Aragon, Larry Ger B.
Ibañez, Marco Polo A.
Ordinario, Raymond C.
Simpas, James Bernard
Cambaliza, Maria Obiminda L
Dado, Julie Mae B.
Maquiling, Joel
Reid, Elizabeth A.
author_sort Aragon, Larry Ger B.
title Seasonal Characteristics of Raindrop Size Distribution and Implication for Radar Rainfall Retrievals in Metro Manila, Philippines
title_short Seasonal Characteristics of Raindrop Size Distribution and Implication for Radar Rainfall Retrievals in Metro Manila, Philippines
title_full Seasonal Characteristics of Raindrop Size Distribution and Implication for Radar Rainfall Retrievals in Metro Manila, Philippines
title_fullStr Seasonal Characteristics of Raindrop Size Distribution and Implication for Radar Rainfall Retrievals in Metro Manila, Philippines
title_full_unstemmed Seasonal Characteristics of Raindrop Size Distribution and Implication for Radar Rainfall Retrievals in Metro Manila, Philippines
title_sort seasonal characteristics of raindrop size distribution and implication for radar rainfall retrievals in metro manila, philippines
publisher Archīum Ateneo
publishDate 2024
url https://archium.ateneo.edu/manila-observatory/13
https://doi.org/10.1016/j.atmosres.2024.107669
_version_ 1816861455220211712

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