Seasonal variability of eddy kinetic energy in the Banda Sea revealed by an ocean model: An energy budget perspective

IF 2.3 3区地球科学 Q2 OCEANOGRAPHY

Deep-sea Research Part Ii-topical Studies in Oceanography Pub Date : 2023-10-01 DOI:10.1016/j.dsr2.2023.105320

Zhanjiu Hao , Zhenhua Xu , Ming Feng , Peiwen Zhang , Jia You , Baoshu Yin

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Abstract

Seasonal eddy kinetic energy (EKE) variability in the Banda Sea during 1993–2014 is studied from an energy budget perspective, based on the outputs of Ocean Forecasting Australian Model version 3. High EKE is confined within the upper 300 m of the western Banda Sea with the largest intensity exceeding 3 $\times$ 10³ J/m² in the northwest monsoon (NWM) season. In this strong EKE region during NWM, eddies derive almost two thirds of their kinetic energy from the direct wind power input (WP), with additional contributions from the barotropic (BT) and baroclinic instability (BC) of the background flow. Both WP and BT modulate the EKE seasonality and drive the peak energy during NWM, while BC strengthens in the southeast monsoon (SEM) season because of the intensified baroclinicity of the upper circulation. The westerly wind bursts associated with the Madden-Julian Oscillation (MJO), together with steep topography, facilitate more cyclonic eddy generation events in the western Banda Sea during NWM. During SEM, EKE becomes relatively moderate across the Banda Sea but with a regional peak to the southwest of the Buru Island, which can be attributed to island wake effect. Over the Banda Sea, WP, BT and BC contribute 74% (42%), 14% (19%) and 12% (39%) of total energy to EKE during NWM (SEM), respectively. The majority of EKE generated is diverged horizontally by pressure work and dissipated by turbulent viscosity, with dissipation depleting the most. This study highlights the importance of both monsoon and MJO wind forcing in generating EKE variability along the pathway of the Indonesian Throughflow.

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海洋模型揭示的班达海涡旋动能的季节变化：能源预算视角

基于澳大利亚海洋预测模型第3版的输出，从能源预算的角度研究了1993-2014年班达海的季节涡动能（EKE）变化。高EKE被限制在班达海西部的300 m上游，在西北季风季节最大强度超过3×103 J/m2。在NWM期间的这个强EKE区域，涡流几乎三分之二的动能来自直接风力输入（WP），背景流的正压（BT）和斜压不稳定性（BC）也有额外的贡献。WP和BT在NWM期间都调节EKE的季节性并驱动峰值能量，而BC在东南季风季节由于上层环流的斜压性增强而增强。与麦登-朱利安振荡（MJO）相关的西风爆发，加上陡峭的地形，促进了NWM期间班达海西部更多的气旋涡生成事件。在SEM期间，班达海的EKE变得相对温和，但在布鲁岛西南部有一个区域峰值，这可归因于岛屿尾流效应。在班达海上空，WP、BT和BC分别占NWM（SEM）期间EKE总能量的74%（42%）、14%（19%）和12%（39%）。产生的大部分EKE通过压力功水平发散，并通过湍流粘度耗散，其中耗散消耗最大。这项研究强调了季风和MJO风力在印尼贯流路径上产生EKE变化的重要性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Deep-sea Research Part Ii-topical Studies in Oceanography 地学-海洋学

CiteScore

6.40

自引率

16.70%

发文量

115

审稿时长

3 months

期刊介绍： Deep-Sea Research Part II: Topical Studies in Oceanography publishes topical issues from the many international and interdisciplinary projects which are undertaken in oceanography. Besides these special issues from projects, the journal publishes collections of papers presented at conferences. The special issues regularly have electronic annexes of non-text material (numerical data, images, images, video, etc.) which are published with the special issues in ScienceDirect. Deep-Sea Research Part II was split off as a separate journal devoted to topical issues in 1993. Its companion journal Deep-Sea Research Part I: Oceanographic Research Papers, publishes the regular research papers in this area.