- h6 T& ]! U- r
` {% S. t1 M. S; y# h1 HGeological Environment in
" C1 a2 d* _4 J4 b+ B! y+ cthe South China Sea
1 N, w+ ]8 ^ B! k: V. c) z) }* x为了全面展示南海海洋系统的形成历史、范围演变和生态环境的最新研究成果,在海洋治理与发展的基础上构建新的科学框架,Journal of Oceanology and Limnology 2023年第2期出版了“Geological Environment in the South China Sea”专辑。该专辑由南方海洋科学与工程广东省实验室(广州)的唐丹玲教授担任客座主编,中国科学院南海海洋研究所孙珍教授和杜岩教授、广东外语外贸大学隋广军教授和华东师范大学刘东艳教授共同担任客座编辑。' {/ B8 ]2 i, ]+ ?% z
中国南海位于中国南部,面积约350万平方千米,是连接东南亚和太平洋地区的重要海上通道,是世界上最繁忙的航运通道之一。南海拥有丰富的海洋生物资源、石油、天然气、矿产资源及渔业资源;南海是全球气候变化的重要指标之一,研究南海的海洋循环、海洋生态系统、海洋气候,了解南海的生态环境变化和资源分布情况,对沿岸地区的经济发展、安全保障、生态环境保护和全球气候变化研究具有重要意义,同时也有助于更好地保护南海的生态资源、维护国家权益和促进国际合作与交流。
$ W! M7 F- j$ d2021年3-4月,南方海洋科学与工程广东省实验室(广州)的广东省创新团队U项目“南海生态环境权益综合研究”组织了“南海生态环境科学考察U1航次”。U1航次为首次前往南海U形海疆线正南区进行立体科考的综合性航次,搭载了多项我国自主研发的海洋仪器,采集了南海地质结构、生态环境、海气相互作用特征等多学科数据。
& {1 T- a& d. Q! ?0 d6 L本专辑主要集成了广东省创新团队2021南海U1航次的部分研究结果,包含30篇论文,对南海地质地貌、海洋生态、环境动力学、海洋矿物和生物资源、以及海洋装备进行了系统梳理,从6个方面进行研究探讨与展示:1. 南海生态环境特征与海洋动力响应;2. 多尺度海气相互作用于全球环境变化;3. 地质、地貌与海洋矿产;4. 沉积过程与资源;5. 海洋牧场;6. 海洋科学仪器。这种多学科交叉融合的研究方法,有助于深入认识南海,为建立基于南海海洋治理和发展的新科学框架奠定了重要基础,为南海海域资源和环境的决策和可持续发展管理提供重要参考。
9 ?0 q( e. R) H3 c9 g+ b" x★专 辑 文 章★
: O' Y. v/ I. bGeological Environment in' n& @4 B( d' c3 O. b- r
the South China Sea
/ j3 y3 ~5 t+ ]2 C+ @; Z" zPreface: Geological environment in the South China Sea7 x2 j6 `" `# F# y5 Y0 |. v
Danling TANG, Zhen SUN, Guangjun SUI2 H, c: h8 V9 G
Marine ecological environment and its response to marine dynamic processes in the South China Sea/ l* h- A% N% \/ B
SST effect on the pre-monsoon intraseasonal oscillation over the South China Sea based on atmospheric-coupled GCM comparison
- h- s K; U5 h# \/ T% wYun LIANG, Yan DU, Shang-Ping XIE
+ \/ c1 D+ Y" o5 \6 l5 x# T+ nAsymmetric chlorophyll responses enhanced by internal waves near the Dongsha Atoll in the South China Sea
7 ~" a% M7 U/ kMeilin WU, Huijie XUE, Fei CHAI/ W6 B0 ^- |( [ R& L3 }0 M
Uncertainty analysis for the calculation of marine environmental design parameters in the South China Sea3 V) n. d- ~3 n, ^* ]" h( `
Guilin LIU, Xinsheng ZHOU, Yi KOU, Fang WU, Daniel ZHAO, Yu XU
3 y& ~ ~" |/ V; D' D* [, ~8 yImpact of seepage flow on sediment resuspension by internal solitary waves: parameterization and mechanism i: `7 |( k* @) i- ~# Z! G
Zhuangcai TIAN, Chao LIU, Ziyin REN, Xiujun GUO, Mingwei ZHANG, Xiuhai WANG, Lei SONG, Yonggang JIA
5 B4 w% R" j1 f' e+ ~9 e+ vEffects of shellfish culture on the community and mortality of zooplankton in a subtropical Bay/ B4 x6 r* i# `4 d: O7 G+ J
Bijian PANG, Hongjun LI, Mingmin LI, Xin LUO, Ying CHEN, Tianshen LI, Wenlu LAN
$ a) P: n/ N8 N$ y, ]5 V2 L, HEffects of multiple dynamic processes on chlorophyll variation in the Luzon Strait in summer 2019 based on glider observation
' n' }* L. R8 i6 Z9 E% GXiangpeng WANG, Yan DU, Yuhong ZHANG, Tianyu WANG) U' M; q& g5 t1 t
Spatiotemporal characteristics of summer hypoxia in Mirs Bay and adjacent coastal waters, South China A' B d) L3 s! D
Lin LUO, Meilin WU% \- @1 q! _- U9 w+ [1 R& a
Multi-scale marine dynamics, sea-air interactions and forecasting technology in the South China Sea$ P9 l1 ^: F2 N: }' j. w$ {
Applicability evaluation of ERA5 wind and wave reanalysis data in the South China Sea
2 B6 m+ {) y0 ] T0 D2 O; O5 URongwei ZHAI, Caijing HUANG, Wei YANG, Ling TANG, Wenjing ZHANG ^. |5 H) F- n/ S; O
Assessment of typhoon storm surge disaster scale based on expansion model
" Z$ H' \: R3 } z, Q" p* CGuilin LIU, Xiuxiu NONG, Yi KOU, Fang WU, Daniel ZHAO, Zongbing YU) P1 s( B. k. A( n+ e+ O: H
Geomorphology and geological structure of South China Sea! T4 u, F V& D! x2 r: [' T$ v' h
The sedimentary record of the Sanshui Basin: Implication to the Late Cretaceous tectonic evolution in the northern margin of South China Sea
4 d% R, O7 v2 v i7 Y% [
. w' B+ R! q: K5 `; O3 zZhe ZHANG, Nianqiao FANG, Zhen SUN" G0 W# h& A5 I3 ?) q! a! o
Tectonic boundaries in the South China Sea from aeromagnetic signature
) @( X* v8 j. P$ N B! m* aYao LUO, Hang YIN, Qiang LIU, Jingmin LI, Shihua LIU, Wei GAO, Rui LI, Yi YANG# a6 a2 }1 h% l( y! m6 V
Mantle sources of Cenozoic volcanoes around the South China Sea revealed by geochemical and isotopic data using the principal component analysis% G6 c- V7 w" z# Y0 X# q
Shuangshuang CHEN, Zewei WANG, Rui GAO, Yongzhang ZHOU7 a- s) _0 n. v w& o
Three-dimensional S-wave velocity structure of the upper crust in the Guangdong-Hong Kong-Macao Greater Bay Area: insights into the basins structure and genesis of hot springs
( i; e( }* Q) c1 EYingchen LIU, Shaohong XIA, Changrong ZHANG, Xinyang WANG$ M3 t/ U ~- F1 a, c- O
Formation of the Zengmu and Beikang Basins, and West Baram Line in the southwestern South China Sea margin
( W, ^6 Z$ M' t
" f! N+ t+ B) L4 aBing HAN, Zhongxian ZHAO, Xiaofang WANG, Zhen SUN, Fucheng LI, Benduo ZHU, Yongjian YAO, Liqiang LIU, Tianyue PENG, Genyuan LONG
' N' Z. [2 h P' m ` _Submarine volcanism in the southern margin of the South China Sea9 e8 ?/ U3 `: w; v: c2 Y+ }
Chenglong ZHANG, Shaohong XIA, Chaoyan FAN, Jinghe CAO8 m- h. {. A8 b Y! Q5 h$ e
Gravity modelling of crustal architecture and heterogeneity in the Nansha Block, South China Sea
3 o. N- e% a- e7 LJialing ZHANG, Zhaocai WU, Chun-Feng LI, Hailong LI
$ w/ H" D% R. A8 {Data processing of the Kuiyang-ST2000 deep-towed highresolution multichannel seismic system and application to South China Sea data
# c$ r% R+ i, m7 kYanliang PEI, Mingming WEN, Zhengrong WEI, Baohua LIU, Kai LIU, Guangming KAN
8 c# S' v" K$ P. x# ?( qMg/Ca, Ba/Ca, and S/Ca ratios as environmental and growth proxies for bivalve shells from the Haima cold seep, South China Sea
6 K3 Y" D. h( G vJingya CAO, Shengxiong YANG, Danling TANG, Junxi FENG, Jinqiang LIANG
$ ~6 e0 D. f! Q2 nQuantitative estimation of bubble volume fraction of submarine seep plumes by modeling seismic oceanography data/ _ |0 w; Z5 ~
Tonggang HAN, Jiangxin CHEN, Leonardo AZEVEDO, Bingshou HE, Huaning XU, Rui YANG
& q1 d, \# b0 d; j% RSedimentary processes and resource potential in the South China Sea
' @& X, a1 U, `, B2 \& [# QA preliminary study on the acoustic properties of seafloor sediment in the southern U-boundary of the South China Sea
2 n8 e- l2 [: T* `3 I& e- ?- L
- h% ?2 B" n: [9 \. k2 \9 x7 C; [8 gZhengyu HOU, Danling TANG, Yao XIAO, Jingqiang WANG, Bo ZHANG, Xiaoming CUI, Peng HAO
7 O" C5 f w* G& QPhysical characteristics of high concentrated gas hydrate reservoir in the Shenhu production test area, South China Sea
7 F* P+ e, K- {4 ?1 ?4 }- N4 z6 jJiapeng JIN, Xiujuan WANG, Zhenyu ZHU, Pibo SU, Lixia LI, Qingping LI, Yiqun GUO, Jin QIAN, Zhendong LUAN, Jilin ZHOU
4 s3 q' i7 H7 h! K4 N( U6 nOrigin of a giant fuzzy reflection zone and its implication for natural gas exploration in the southwestern Qiongdongnan Basin of the South China Sea
9 `. t+ N$ ?6 j. q$ e1 s ]" xJunhui YU, Pin YAN, Yanlin WANG, Yan QIU, Guanghong TU, Changliang CHEN
: c) p; i8 ~8 V2 FSpatial distribution and inventory of natural gas hydrate in the Qiongdongnan Basin, northern South China Sea
' B! Y/ K5 f. p; mZhongxian ZHAO, Ning QIU, Zhen SUN, Wen YAN, Genyuan LONG, Pengchun LI, Haiteng ZHUO* p+ t$ \% M1 B) ?' }2 ~( X$ k
Deposition processes of gas hydrate-bearing sediments in the inter-canyon area of Shenhu Area in the northern South China Sea
# l5 V, Q, w# t; s5 KZhixuan LIN, Ming SU, Haiteng ZHUO, Pibo SU, Jinqiang LIANG, Feifei WANG, Chengzhi YANG, Kunwen LUO/ k- S+ k$ x; \1 x, z
Discovery of pockmarks in the Zengmu Basin, southern South China Sea and the implication
' p- c! @8 w. BYanlin WANG, Guanghong TU, Junhui YU, Pin YAN, Yongbin JIN, Changliang CHEN, Jie LIU9 i$ v+ w8 s$ n/ {% c6 c
Nepheloid layer generation by gas eruption: unexpected experimental results2 R9 C5 _: v+ s: L$ q
Chaoqi ZHU, Sanzhong LI, Jiangxin CHEN, Dawei WANG, Xiaoshuai SONG, Zhenghui LI, Bo CHEN, Hongxian SHAN, Yonggang JIA6 H4 c! p$ D. D2 m9 u1 o
Geostrategy, rights and interests maintenance, and strategic countermeasures for the South China Sea4 s& M: K! ]3 s) E+ s) j
Suitability evaluation on marine ranching in Guangdong, South China
9 b. s3 l; N+ ]8 g3 Z$ b+ F. i7 [ K. R! N4 p# B8 n5 e# \" j
Anning SUO, Weiguo ZHOU, Dewen DING
& K2 r7 b, Z3 `/ w- h+ J4 _Marine scientific instruments
' N1 [' D7 w% @- W4 `+ J6 {A marine gravimeter based on electromagnetic damping and its tests in the South China Sea
: a+ Q% L% y2 }: F# c) K3 C
$ H M* W& {! FPengfei WU, Lin WU, Lifeng BAO, Long WANG, Bo WANG, Danling TANG: R$ e9 j& J/ K4 B- ^; K% y
Low-noise, low-power-consumption seafloor vector magnetometer4 D4 V3 ^0 G) n& Q
Xiaochen LI, Xianhu LUO, Ming DENG, Ning QIU, Zhen SUN, Kai CHEN+ p# Z! U4 X6 a! a. |% D0 i1 j
An internally damped inertial platform for marine gravimetry and a test case in the South China Sea
2 \9 o1 k7 ~" |Pengfei WU, Lin WU, Lifeng BAO, Long WANG, Bo WANG, Danling TANG7 ]) B& l0 v: {. ` q0 j
期刊主页:https://link.springer.com/journal/343# t9 f$ V' }: `" x8 r. j/ v# g
5 W* F+ T) H+ ]' p5 `% _* u+ y7 `8 e在线投稿:http://mc03.manuscriptcentral.com/c-jol+ I7 ~* U* m$ @, _# O) y
# {) N2 R# U4 g$ r4 Q$ M( ]
+ e2 c1 B1 Z8 n& l9 ?' {: \& w
. \) s& U7 ]% A; e7 r信息来源:JOL海洋湖沼学报。
- z3 Q, y) g3 N W+ z: h |
; }3 W D, g9 x/ x5 P* [
