Wednesday, October 25, 2023

 

A new method is proposed to improve the ocean observational network in the tropical western Pacific


Peer-Reviewed Publication

SCIENCE CHINA PRESS

The distribution of optimal observational sites and the improvement in reducing initial errors. 

IMAGE: 

IN FIGURES (A) AND (B), THE COLORS DEPICT THE UNCERTAINTY LEVELS BEFORE AND AFTER APPLYING OPTIMAL OBSERVATIONS. IN FIGURE (B), THE LABELED POINTS AND NUMBERS INDICATE THE POSITIONS OF MOORING SITES AND THEIR RESPECTIVE RANKINGS.

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CREDIT: ©SCIENCE CHINA PRESS




ENSO, short for the El NiƱo and Southern Oscillation, is the most influential interannual oscillation, and significantly impacts global climate. The Tropical Pacific Observation System (TPOS), including the moored buoys, plays an important role in understanding, monitoring, and forecasting the ENSO events. Unfortunately, many of the moorings in the western Pacific have deteriorated, hindering our ability to model and predict ENSO accurately. To address it, an international project called TPOS 2020 has been launched. In the project, the regional observation program undertaken by China urgently needs to design a buoy layout scheme in the western Pacific.

The study aims to enhance the prediction of ENSO by strategically deploying expensive and limited moored buoys in the most favorable locations. The research team, led by Hohai University in China, introduces an innovative approach for optimal long-term array design. Their new method allows the observed region/variables to differ from the prediction target, effectively surmounting the limitations of traditional techniques.

Based on the requirements of the TPOS 2020, the study applies the new approach to identify an optimal mooring array in the western Pacific. This optimal array considerably reduces the uncertainty associated with ENSO predictions, enhancing their accuracy and reliability. Given its efficacy, the proposed approach is expected to be widely used in establishing stationary observation networks.

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See the article:

A new ensemble-based targeted observational method and its application in TPOS 2020

https://doi.org/10.1093/nsr/nwad231

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