IDENTIFICATION OF EXTREME SEA LEVELS AND CONCURRENT MARINE HEATWAVES-EXTREME SEA LEVELS IN SETIO WATERS 1993-2022
The continuously increasing global warming triggers an increase in sea surface temperatures. The rise in sea surface temperatures affects various parameters, particularly sea levels. When extreme sea level (ESLs) events coincide with MHWs events, a phenomenon known as CHESLs (Concurrent Marine He...
Saved in:
| Main Author: | |
|---|---|
| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/82399 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The continuously increasing global warming triggers an increase in sea surface
temperatures. The rise in sea surface temperatures affects various parameters,
particularly sea levels. When extreme sea level (ESLs) events coincide with MHWs
events, a phenomenon known as CHESLs (Concurrent Marine Heatwaves-Extreme
Sea Levels/CHESLs) emerges with greater impact. This study aims to identify ESLs
and CHESLs events in the Southeastern Tropical Indian Ocean (SETIO), which
includes the waters off the western coast of Sumatra, southern Java, and Nusa
Tenggara, over the period of 1993–2022 (30 years). The research focuses on four
station locations: Padang (location A), Cilacap (location B), Prigi (location C),
and Benoa (location D). The primary data used are sea level anomaly (SLA) and
sea surface temperature anomaly (SSTA) obtained from satellite altimetry. The
analysis method employed is statistical. The analysis results indicate a positive
linear trend of SLA and SSTA with varying values at each location. Over the 30
years, 22 ESL events and 4 CHESL events were identified in Padang, 16 ESL events
and 4 CHESL events in Cilacap, 18 ESL events and 4 CHESL events in Prigi, and
23 ESL events and 4 CHESL events in Benoa. ESLs predominantly occur when the
Australian monsoon is active during the DJF period (45%), the La Niña phase
(76%), and N-IOD (40%). CHESLs predominantly occur when the Indian monsoon
is active during the MAM period (53%), the La Niña phase (76%), and N-IOD
(82%). The influence of N-IOD is more dominant at the Padang station. Conversely,
the influence of La Niña is more dominant at the Cilacap, Prigi, and Benoa stations.
ESLs events are more frequently found in onshore areas, while CHESLs are more
frequently found in offshore areas. The total frequency of ESLs and CHESLs events
has increased by 66.7% over the last decade. |
|---|