The Sensitivity of Extreme Rainfall Simulations to WRF Parameters During Two Intense Southwest Monsoon Events in the Philippines

The Sensitivity of Extreme Rainfall Simulations to WRF Parameters During Two Intense Southwest Monsoon Events in the Philippines

The Weather Research and Forecasting (WRF) model has numerous model parameters that significantly affect rainfall forecasts. However, the multitude of parameters makes it challenging to identify which of these are critical for rainfall forecasting and optimization. This study utilizes the Morris One...

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Main Authors: Henson, Kevin C., Olaguera, Lyndon Mark P., Cruz, Faye Abigail T., Villarin, Jose Ramon T
Format: text
Published: Archīum Ateneo 2024
Subjects:
Enhanced southwest monsoon
Parameter sensitivity
WRF
Atmospheric Sciences
Meteorology
Oceanography and Atmospheric Sciences and Meteorology
Physical Sciences and Mathematics
Online Access:https://archium.ateneo.edu/manila-observatory/18
https://doi.org/10.1007/s13143-024-00380-6
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Institution: Ateneo De Manila University
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spelling ph-ateneo-arc.manila-observatory-10182024-11-18T05:54:25Z The Sensitivity of Extreme Rainfall Simulations to WRF Parameters During Two Intense Southwest Monsoon Events in the Philippines Henson, Kevin C. Olaguera, Lyndon Mark P. Cruz, Faye Abigail T. Villarin, Jose Ramon T The Weather Research and Forecasting (WRF) model has numerous model parameters that significantly affect rainfall forecasts. However, the multitude of parameters makes it challenging to identify which of these are critical for rainfall forecasting and optimization. This study utilizes the Morris One-At-a-Time (MOAT) Global Sensitivity Analysis (GSA) to ascertain the sensitivity of the simulated rainfall and other key atmospheric variables to 23 tunable model parameters across seven physics schemes in the WRF model. The MOAT mean and standard deviation were used as sensitivity measures and calculated for two Tropical Cyclone (TC)-enhanced southwest monsoon events in August 2012 and 2013 that resulted in catastrophic flooding over Metro Manila, Philippines. Results show that of the 23 model parameters, the ones more critically important to simulating rainfall are parameters that are related to cumulus schemes such as the multiplier for downdraft mass flux rate (P3), multiplier for entrainment mass flux rate (P4), starting height of downdraft over updraft source layer (P4), and mean consumption time of convective available potential energy (P6). To investigate the optimum parameter for the simulation of rainfall for each of the two events, the root mean square error (RMSE) is computed between the simulated rainfall over Metro Manila and observed data from the Global Satellite Mapping of Precipitation (GSMaP). The best performing set of parameters was able to reduce the RMSE of rainfall over Metro Manila by about 42% and 27% for the 2012 and 2013 enhanced monsoon events, respectively, relative to the default runs. For the first time, this study provides insight into which model parameters in the WRF model are critically important to the simulation of enhanced monsoon events. The results of this study may serve as a basis for future optimization studies of extreme weather events over the Philippines. 2024-11-01T07:00:00Z text https://archium.ateneo.edu/manila-observatory/18 https://doi.org/10.1007/s13143-024-00380-6 SOSE Affiliate: Manila Observatory Archīum Ateneo Enhanced southwest monsoon Parameter sensitivity WRF Atmospheric Sciences Meteorology 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 Enhanced southwest monsoon
Parameter sensitivity
WRF
Atmospheric Sciences
Meteorology
Oceanography and Atmospheric Sciences and Meteorology
Physical Sciences and Mathematics
spellingShingle Enhanced southwest monsoon
Parameter sensitivity
WRF
Atmospheric Sciences
Meteorology
Oceanography and Atmospheric Sciences and Meteorology
Physical Sciences and Mathematics
Henson, Kevin C.
Olaguera, Lyndon Mark P.
Cruz, Faye Abigail T.
Villarin, Jose Ramon T
The Sensitivity of Extreme Rainfall Simulations to WRF Parameters During Two Intense Southwest Monsoon Events in the Philippines
description The Weather Research and Forecasting (WRF) model has numerous model parameters that significantly affect rainfall forecasts. However, the multitude of parameters makes it challenging to identify which of these are critical for rainfall forecasting and optimization. This study utilizes the Morris One-At-a-Time (MOAT) Global Sensitivity Analysis (GSA) to ascertain the sensitivity of the simulated rainfall and other key atmospheric variables to 23 tunable model parameters across seven physics schemes in the WRF model. The MOAT mean and standard deviation were used as sensitivity measures and calculated for two Tropical Cyclone (TC)-enhanced southwest monsoon events in August 2012 and 2013 that resulted in catastrophic flooding over Metro Manila, Philippines. Results show that of the 23 model parameters, the ones more critically important to simulating rainfall are parameters that are related to cumulus schemes such as the multiplier for downdraft mass flux rate (P3), multiplier for entrainment mass flux rate (P4), starting height of downdraft over updraft source layer (P4), and mean consumption time of convective available potential energy (P6). To investigate the optimum parameter for the simulation of rainfall for each of the two events, the root mean square error (RMSE) is computed between the simulated rainfall over Metro Manila and observed data from the Global Satellite Mapping of Precipitation (GSMaP). The best performing set of parameters was able to reduce the RMSE of rainfall over Metro Manila by about 42% and 27% for the 2012 and 2013 enhanced monsoon events, respectively, relative to the default runs. For the first time, this study provides insight into which model parameters in the WRF model are critically important to the simulation of enhanced monsoon events. The results of this study may serve as a basis for future optimization studies of extreme weather events over the Philippines.
format text
author Henson, Kevin C.
Olaguera, Lyndon Mark P.
Cruz, Faye Abigail T.
Villarin, Jose Ramon T
author_facet Henson, Kevin C.
Olaguera, Lyndon Mark P.
Cruz, Faye Abigail T.
Villarin, Jose Ramon T
author_sort Henson, Kevin C.
title The Sensitivity of Extreme Rainfall Simulations to WRF Parameters During Two Intense Southwest Monsoon Events in the Philippines
title_short The Sensitivity of Extreme Rainfall Simulations to WRF Parameters During Two Intense Southwest Monsoon Events in the Philippines
title_full The Sensitivity of Extreme Rainfall Simulations to WRF Parameters During Two Intense Southwest Monsoon Events in the Philippines
title_fullStr The Sensitivity of Extreme Rainfall Simulations to WRF Parameters During Two Intense Southwest Monsoon Events in the Philippines
title_full_unstemmed The Sensitivity of Extreme Rainfall Simulations to WRF Parameters During Two Intense Southwest Monsoon Events in the Philippines
title_sort sensitivity of extreme rainfall simulations to wrf parameters during two intense southwest monsoon events in the philippines
publisher Archīum Ateneo
publishDate 2024
url https://archium.ateneo.edu/manila-observatory/18
https://doi.org/10.1007/s13143-024-00380-6
_version_ 1816861456682975232

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