Statistical analysis of mesoscale eddy propagation velocity in the South China Sea deep basin

Huang, Runqi; Xie, Lingling; Zheng, Quanan; Li, Mingming; Bai, Peng; Tan, Keyi

doi:10.1007/s13131-020-1678-x

Cited by 8 publications

(5 citation statements)

References 41 publications

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“…The mesoscale eddies in the SCS have been studied by previous investigators [13][14][15][16][17][18]. Using temperature and salinity data, Wang et al [19] observed an anticyclonic warm eddy located in the southwestern part of Taiwan Island.…”

Section: Introductionmentioning

confidence: 99%

Statistical Analysis of Mesoscale Eddies Entering the Continental Shelf of the Northern South China Sea

Zhang

Xie

et al. 2022

JMSE

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An Archiving, Validation and Interpretation of Satellite Oceanographic data (AVISO) mesoscale eddy trajectory atlas product is used to analyze the path type and temporal variability of the eddies that entered the continental shelf area of the northern South China Sea (SCS) from 1993 to 2016. A total of 184 mesoscale eddies entered the continental shelf area of the northern SCS during a 24-year period. We classify the mesoscale eddies into four types according to the motion trajectories: along-the-isobath type, intrusion-of-continental-shelf type, local wandering type, and shelf-internal-generation type. The occurrence numbers of these four types were 87, 38, 23, and 36, respectively. The mean amplitude and radius of the along-the-isobath type are the largest, about 18 cm and 153 km, respectively; furthermore, their average lifetime is also the longest, about 93 days. The mean amplitude, radius, and lifetime are the smallest for the shelf-internal-generation type, about 16 cm, 146 km, and 74 days, respectively. The direction and velocity of the background flow field affects the intrusion path of the mesoscale eddies onto the continental shelf of the northern SCS. The seasonal distribution of the mesoscale eddies quantity is also related to the direction and velocity of the corresponding background flow field.

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Section: Introductionmentioning

confidence: 99%

Statistical Analysis of Mesoscale Eddies Entering the Continental Shelf of the Northern South China Sea

Zhang

Xie

et al. 2022

JMSE

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“…Probably to make this methodology more accessible to Chinese researchers, many articles were published in Mandarin and English, however, with the same different content and DOI. (Song et al, 2010;Yang et al, 2010;Huang et al, 2012;Huang et al, 2013;Jiang-Xin et al, 2016;Jiang-Xin et al, 2017;Jun et al, 2019) As seen in figure4 and Tables 2 and 3, there is a predominance of researchers and journals where SO is published in the northern hemisphere. This directly reflects in the places where the studies were conducted.…”

Section: Seismic Oceanography (Consolidated)mentioning

confidence: 96%

Seismic Oceanography Method: A Prisma Based Sistematic Review

Tassinari¹,

Araújo²,

Barbosa³

2023

JER

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Seismic Oceanography (SO) is an innovative method that uses seismic reflection data from surveys to study oceanographic features. We conducted a systematic review using the PRISMA method, retrieving 164 articles published between 2008 and 2023 from Web of Science and Scopus. Analyzing the data with Vosviewer and Bibliometrix software, we found that the SO methodology is expanding its applications and identified four sub-areas: 1) analyzing ocean background features, 2) mapping physical oceanographic features, 3) inverting and processing seismic data, and 4) studying interactions with the background. We traced the history of SO from its early studies in 1979 to recent works in 2023. Interestingly, the term "Seismic Oceanography" gained prominence after 2008, leading to the discovery of 15 additional articles through cross-referencing and citation analysis. Based on common processing techniques, we proposed a working guide with a flowchart for different types of seismic data, advanced processing, and relevant databases. This guide serves as a reference, offering professionals a historical perspective and practical guidance when applying the SO methodology. Our systematic review provides a comprehensive understanding of the current state of SO, identifies areas for further research, and introduces a valuable tool for professionals interested in utilizing the methodology.

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“…[21] Xie group [1f] proposed the concept of "solid state plasticity" to describe this phenomenon where the materials undergo network reconfiguration while remaining in a solid state throughout the reshaping process. Through the incorporation of solid state plasticity into the well-known shape memory polymer systems, [21a,22] the concept of thermadapt shape memory polymers was proposed, [23] with which multiple intriguing applications could be achieved, such as two-way shape memory effect, [24] information encryption, [22b,25] liquid crystal soft actuators, [26] 3D/4D shape morphing materials, [27] microscale structure fabrication, [28] etc. The aforementioned research primarily focuses on reprogramming the geometries and precisely replicating their material properties.…”

Section: Introductionmentioning

confidence: 99%

New Prospects Arising from Dynamically Crosslinked Polymers: Reprogramming Their Properties

Jia,

Qian,

Hao

et al. 2024

Advanced Materials

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Dynamically crosslinked polymers (DCPs) have gained significant attention owing to their applications in fabricating (re)processable, recyclable, and self‐healable thermosets, which hold great promise in addressing ecological issues such as plastic pollution and resource scarcity. However, the current research predominantly focuses on redefining and/or manipulating their geometries while replicating their bulk properties. Given the inherent design flexibility of dynamic covalent networks, DCPs also exhibit a remarkable potential for various novel applications through post‐synthesis reprogramming their properties. In this review, we present the recent advancements in strategies that enable DCPs to transform their bulk properties after synthesis. The underlying mechanisms and associated material properties are overviewed mainly through three distinct strategies, namely latent catalysts, material‐growth, and topology isomerizable networks. Furthermore, the mutual relationship and impact of these strategies when integrated within one material system are also discussed. Finally, the application prospects and relevant issues necessitating further investigation, along with the potential solutions are analyzed.This article is protected by copyright. All rights reserved

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Statistical analysis of mesoscale eddy propagation velocity in the South China Sea deep basin

Cited by 8 publications

References 41 publications

Statistical Analysis of Mesoscale Eddies Entering the Continental Shelf of the Northern South China Sea

Statistical Analysis of Mesoscale Eddies Entering the Continental Shelf of the Northern South China Sea

Seismic Oceanography Method: A Prisma Based Sistematic Review

New Prospects Arising from Dynamically Crosslinked Polymers: Reprogramming Their Properties

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