What Causes Extreme Precipitation in the Southern Philippines During El Niño Winters?

As an archipelagic nation, the Philippines is highly susceptible to the adverse impacts of weather-related hazards, notably extreme precipitation events. Despite the typical dry conditions associated with the warm phase of El Niño–Southern Oscillation (ENSO), this study unravels that extreme precipi...

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Published inJournal of climate Vol. 38; no. 9; pp. 2047 - 2061
Main Authors Zhang, Wen-Jun, Wu, Renguang, Dai, Panxi, Gu, Qinlu
Format Journal Article
LanguageEnglish
Published Boston American Meteorological Society 01.05.2025
Subjects
Agriculture
Anomalies
Climate change
Cold surges
Comparative analysis
Cyclones
Datasets
El Nino
El Nino events
El Nino phenomena
El Nino-Southern Oscillation event
Extreme weather
Heavy rainfall
Hurricanes
Influence
Madden-Julian oscillation
Precipitation
Precipitation days
Rain
Rainfall
Sea surface temperature
Sea surface temperature anomalies
Southern Oscillation
Storm damage
Surface temperature
Surges
Temperature anomalies
Tropical cyclones
Tropical depressions
Vortices
Weather hazards
Winter
South China Sea
Philippine Sea
Philippines
Luzon
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Abstract As an archipelagic nation, the Philippines is highly susceptible to the adverse impacts of weather-related hazards, notably extreme precipitation events. Despite the typical dry conditions associated with the warm phase of El Niño–Southern Oscillation (ENSO), this study unravels that extreme precipitation can occur in the southern Philippines during boreal winters of El Niño events. The extreme precipitation is caused by two distinct wind systems. One is the northwestward-moving tropical cyclones or tropical depressions (TCs/TDs), and the other is the southward-moving northeasterly cold surges (CSs). Additionally, the northward extension of the eastward-propagating Madden–Julian oscillation (MJO) wet phase contributes to extreme precipitation in the southern Philippines. The northwestward-moving TCs/TDs and the southward-moving northeasterly CSs reach the southern Philippines under the guidance of the MJO wet phase. A comparative analysis between extreme and weak precipitation days reveals that westward-shifted positive sea surface temperature (SST) anomalies in the equatorial Pacific favor the generation of TCs/TDs in the western part of the tropical western North Pacific and CSs over East Asia. This study suggests a critical role of multiscale influences in the occurrence of extreme precipitation in the southern Philippines during El Niño winters.
AbstractList As an archipelagic nation, the Philippines is highly susceptible to the adverse impacts of weather-related hazards, notably extreme precipitation events. Despite the typical dry conditions associated with the warm phase of El Niño–Southern Oscillation (ENSO), this study unravels that extreme precipitation can occur in the southern Philippines during boreal winters of El Niño events. The extreme precipitation is caused by two distinct wind systems. One is the northwestward-moving tropical cyclones or tropical depressions (TCs/TDs), and the other is the southward-moving northeasterly cold surges (CSs). Additionally, the northward extension of the eastward-propagating Madden–Julian oscillation (MJO) wet phase contributes to extreme precipitation in the southern Philippines. The northwestward-moving TCs/TDs and the southward-moving northeasterly CSs reach the southern Philippines under the guidance of the MJO wet phase. A comparative analysis between extreme and weak precipitation days reveals that westward-shifted positive sea surface temperature (SST) anomalies in the equatorial Pacific favor the generation of TCs/TDs in the western part of the tropical western North Pacific and CSs over East Asia. This study suggests a critical role of multiscale influences in the occurrence of extreme precipitation in the southern Philippines during El Niño winters.Significance StatementThe Philippines experiences heavy rainfall during typically dry El Niño winters due to tropical cyclones and depressions (TCs/TDs) and cold surges (CSs) moving from the tropical western-central Pacific and midlatitudes. In addition, the wet phase of the Madden–Julian oscillation (MJO) contributes to heavy rainfall by guiding the northwestward movement of TCs/TDs and the southward invasion of CSs in the southern Philippines. Westward-shifted positive sea surface temperature anomalies in the equatorial central-eastern Pacific are favorable for the generation of TCs/TDs in the western part of the tropical western North Pacific and CSs over East Asia. This study shows that different factors work together to cause extreme precipitation in the southern Philippines during El Niño winters.
As an archipelagic nation, the Philippines is highly susceptible to the adverse impacts of weather-related hazards, notably extreme precipitation events. Despite the typical dry conditions associated with the warm phase of El Niño–Southern Oscillation (ENSO), this study unravels that extreme precipitation can occur in the southern Philippines during boreal winters of El Niño events. The extreme precipitation is caused by two distinct wind systems. One is the northwestward-moving tropical cyclones or tropical depressions (TCs/TDs), and the other is the southward-moving northeasterly cold surges (CSs). Additionally, the northward extension of the eastward-propagating Madden–Julian oscillation (MJO) wet phase contributes to extreme precipitation in the southern Philippines. The northwestward-moving TCs/TDs and the southward-moving northeasterly CSs reach the southern Philippines under the guidance of the MJO wet phase. A comparative analysis between extreme and weak precipitation days reveals that westward-shifted positive sea surface temperature (SST) anomalies in the equatorial Pacific favor the generation of TCs/TDs in the western part of the tropical western North Pacific and CSs over East Asia. This study suggests a critical role of multiscale influences in the occurrence of extreme precipitation in the southern Philippines during El Niño winters.
Author Dai, Panxi
Wu, Renguang
Gu, Qinlu
Zhang, Wen-Jun
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Snippet As an archipelagic nation, the Philippines is highly susceptible to the adverse impacts of weather-related hazards, notably extreme precipitation events....
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StartPage 2047
SubjectTerms Agriculture
Anomalies
Climate change
Cold surges
Comparative analysis
Cyclones
Datasets
El Nino
El Nino events
El Nino phenomena
El Nino-Southern Oscillation event
Extreme weather
Heavy rainfall
Hurricanes
Influence
Madden-Julian oscillation
Precipitation
Precipitation days
Rain
Rainfall
Sea surface temperature
Sea surface temperature anomalies
Southern Oscillation
Storm damage
Surface temperature
Surges
Temperature anomalies
Tropical cyclones
Tropical depressions
Vortices
Weather hazards
Winter
Title What Causes Extreme Precipitation in the Southern Philippines During El Niño Winters?
URI https://www.proquest.com/docview/3190965959
Volume 38
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