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南海反气旋涡旋温度细结构特征分析
引用本文:夏越. 南海反气旋涡旋温度细结构特征分析[J]. 海洋科学进展, 2022, 40(1): 27-40
作者姓名:夏越
作者单位:河海大学海洋学院
基金项目:国家自然基金重点项目——海洋中尺度涡-西边界流相互作用变化及机理研究(42030405);国家自然科学基金面上项目——南海中尺度涡海气界面热量交换过程观测(41976003);2015年度国家社科基金重大项目——海平面上升对我国重点沿海区域发展影响研究(15ZDB17);国家重点研发计划项目——海洋动力环境要素三维结构大数据分析预报技术(517038712)。
摘    要:基于水下滑翔机观测资料,对南海北部一个反气旋涡旋的温度细结构进行了特征分析.温度细结构强度由温度的脉动值确定,并随着尺度的增加呈指数衰减.在垂直方向上,细结构强度随着深度的加深而减弱,细结构特征在海洋表层(0~100m)和表层以下(>100 m)存在显著区别.表层内,垂向混合和水平混合对细结构强度均有贡献,细结构强度大...

关 键 词:中尺度涡  温度细结构  盐指  水下滑翔机

Characteristics of the Temperature Fine Structure of Anticyclonic Eddy in the South China Sea
XIA Yue. Characteristics of the Temperature Fine Structure of Anticyclonic Eddy in the South China Sea[J]. Advances in Marine Science, 2022, 40(1): 27-40
Authors:XIA Yue
Affiliation:(College of Oceanography, Hohai University, Nanjing 210098, China)
Abstract:Based on glider observations,the characteristics of the temperature fine structure of an anticyclonic eddy in the northern South China Sea are analyzed.The strength of temperature fine structure can be defined with the temperature fluctuation value which decays exponentially with the increase of scale.In terms of vertical distribution,the strength of the fine structure decreases with depth,and the fine structure feature in surface layer(0-100 m)and that below the surface layer(>100m)is different.In the surface layer,both vertical mixing and horizontal mixing contribute to the strength of fine structures,and fine structures exhibit greater strength.Below the surface layer,at the depth of about 100-400 m,the fine structure is mainly of a step-like structure,which is caused by salt finger phenomenon due to diffusion and weakened horizontal mixing.The horizontal strength of the fine structure in the surface layer weakens faster inside the eddy than outside the eddy.This is because the deformation inside the eddy is smaller than that outside the eddy,the strength of fine structure gradually increases from the center to the edge of the eddy.Below the surface layer,the salt finger is more obvious inside the eddy and its vertical range is larger.In addition,the fine structure has significant diurnal variation.In the surface layer,the strength of fine structures at night is weaker and decays faster than that in the daytime because the convective mixing developed at night and weakens the fine structures.Due to the diurnal variation of thermocline depth,diurnal variation characteristics below the surface layer are more significant and affects the change of fine structure strength,which is weak in daytime that at night.
Keywords:mesoscale eddy  temperature fine structure  salt finger  glider
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