1. The extremal spatial dependence of significant wave height in the South China sea.
- Author
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Wang, Rong, Liu, Jincan, and Wang, Jichao
- Subjects
- *
MARKOV chain Monte Carlo , *ROGUE waves , *OCEAN waves - Abstract
The extremal spatial dependence of significant wave height (H S) in the South China Sea (SCS) is discussed by combining altimeter observations of ocean satellites and ERA5 reanalysis dataset from the period 2011–2023. A spatial conditional extremes (SCE) model allowing different classes of extremal dependence is established, which uses a reliable Markov chain Monte Carlo (MCMC) scheme to realize the parameter inference. In this work, four transects are selected in the northern South China Sea (NSCS) and the central South China Sea (CSCS) respectively, which are approximately southwest-northeast (SW-NE) and northwest-southeast (NW-SE), and the H S data is transformed to the standard Laplace scale. The model fitting results show that the extremal dependence characteristics of different regions and directions in the SCS are different. The mean dependence of H S in NSCS decays faster than in CSCS, and the mean dependence on NW-SE transects decays faster than SW-NE transects. In general, the SW-NE transect in CSCS is observed a longer-range extremal dependence, which is potentially related to the storm direction in the SCS. • Simultaneous events of extreme oceans at multiple locations often have greater risks. • Important to analyze the spatial dependence of extreme wave height. • Satellite altimeter (HY-2) and ERA5 reanalysis dataset incorporated. • Spatial conditional extremes model used to quantify extremal spatial dependence of the effective wave heights for four transects in the South China Sea. • Extreme wave height shows greater extremal dependence from southwest to northeast than from northwest to southeast in the central South China Sea. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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