VARIATION OF CROSS-EQUATORIAL NORTHERLY SURGE FORMATION CHARACTERISTICS AND ITS IMPACT ON RAINFALL IN THE WESTERN MARITIME CONTINENT
Cross-equatorial northerly surge (CENS) is a synoptic-scale atmospheric phenomenon in the boreal winter season characterized by strong northerly winds from the South China Sea crossing the equator. This phenomenon could cause extreme rainfall in the northern part of western Java western. A known...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/77529 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Cross-equatorial northerly surge (CENS) is a synoptic-scale atmospheric
phenomenon in the boreal winter season characterized by strong northerly winds
from the South China Sea crossing the equator. This phenomenon could cause
extreme rainfall in the northern part of western Java western. A known
phenomenon that can trigger the formation of CENS is a cold surge (CS), but
many CENS events are not triggered by CS. Therefore, this research will examine
phenomena other than CS that can trigger CENS as well as identify the difference
in the impact of rainfall in the western Maritime Continent caused between CENS
triggered by CS (CENS-CS) and not triggered by CS (CENS-noCS). CENS-CS
and CENS-noCS have different patterns of formation. Northerly wind anomalies
in CENS-CS are caused by high-pressure propagation from extratropic, while
northerly wind anomalies in CENS-noCS appear due to high-pressure anomalies
around the equator. Based on the composite analysis of wind and pressure
patterns, it was found that phenomena other than CS that could potentially trigger
CENS are Madden Julian Oscillation (MJO) phases 6 and 7, Mixed Rossbygravity
(MRG) phases 1 and 4 (dry and drying in the northern equator), and
Equatorial Rossby (ER) phases 2 and 3 (moistening and wet). There are some
differences in the impact of the rainfall in the western Maritime continent caused
between CENS-CS and CENS-noCS. In the southern equator, CENS-CS causes
wet anomalies along the northern part of Java Island to Nusa Tenggara, while
CENS-noCS is only centralized around the northern part of western Java.
Nevertheless, the rainfall in the northern part of western Java on CENS-noCS is
stronger than on CENS-CS. In the northern equator, the CENS-CS has caused
drought anomalies in Sumatera and the Malayan Peninsula and wet anomalies in
western Kalimantan, while CENS-noCS causes drought anomalies in those three
regions.
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