Hydrographic characteristics and its variation of the South China Sea before and after monsoon burst in 1998

The differences of temperature, salinity distribution characteristics and structure of circulation in the upper layer of the South China Sea (SCS) are analyzed, based on the CTD and ADCP data from the two intensive surveyed cruises (IOP1: April 10 - May 5; IOP2: June 12 - July 6) and carried out before and after the Asian monsoon burst (May 25) during the South China Sea Monsoon Experiment (SCSMEX) in 1998. The results showed that field of temperature in the upper layer of the SCS distinctly changed before and after the monsoon burst, the average surface temperature increased by 0.75℃, with its influence down to the depth of 500 m. The interaction of the local circulation in some areas resulted in the complexity and variability of the temperature and salinity structure in the upper layer, and the alternating distribution of cold and warm water regions (blocks). The high salinity subsurface water obviously intruded into the SCS from the Northwest Pacific, but only limited to the area of southwest of Taiw     

2006年冬季粤东沿岸下降流观测分析

根据珠江口及其附近海域2006年冬季(2006年12月至2007年1月)航次的CTD调查资料发现,由于表层水体冷却而产生的对流作用,以及东北季风、浪、流等强动力条件下,冬季陆架水体垂向混合均匀,但粤东近岸海域却存在显著的温跃层及逆盐跃层,其原因在于:东北季风的Ekman效应引起了陆架表层高温、高盐海水向岸输送,东北季风还驱动了西南向沿岸流,其底边界层的Ekman效应引起了沿岸底层低温、低盐海水离岸输送,这样就形成了陆架方向的次生环流,在沿岸海域则为下降流,并表现为沿岸海域的逆盐跃层及温跃层现象。在下降流显著的区域,溶解氧垂向分布均匀且浓度较高,这应归因于下降流将溶解氧浓度较高的表层水带入深层所致。     

孟加拉湾上层环流研究综述

综述了孟加拉湾上层环流研究的主要成果并指出,研究海区环流与季风转换不完全同步。在西南季风期间,南、北海区各有一气旋式环流;在秋季季风过渡期间,出现海湾尺度的气旋式环流;在东北季风期间,气旋式环流减弱北移,南部则为一反气旋式环流控制;春季与秋季的情形相反,整个湾出现一海湾尺度的反气旋式环流。研究海区环流的变异主要受季风、赤道远地作用和浮力通量等复杂外源作用的影响。东印度沿岸流的季节变化与季风转换也不同步,局地风、内部Ekman抽吸、远地沿岸风及赤道远地作用的影响对沿岸流周年变化有重要作用。孟加拉湾上层环流年际变化显著,此年际变化主要受赤道风场的影响。     

中沙群岛海域春夏交季温盐分布特征

中沙群岛主要由中沙大环礁和黄岩岛组成,其温盐分布对于本区渔业生产、航海保障和水下通讯等具有重要意义。尤其是春夏之交的季节转换时期,该海域水温和盐度及其相应的跃层特性存在显著的季节变化,掌握其季节变化特征具有重要现实意义。本文基于2019年5月（南海春夏季风转换期）中沙大环礁、黄岩岛和2020年6月（夏季风爆发期）中沙大环礁海域大面站调查数据分析,发现中沙大环礁海域水温和盐度分布特征在夏季风爆发前后具有显著的差异性,2个航次的温跃层分布也呈现出较大不同,2019年5月黄岩岛海域温盐中上层分布与中沙大环礁相似,但底层有所差异,跃层深度也较大。2020年6月中沙大环礁内水体升温较快,各层水温均高于2019年5月,其中以底层水体升温最为显著;2019年5月中沙大环礁内水温水平梯度较大,且随着水深加大水平梯度也越大,2020年6日水平温度梯度逐渐减小。2个航次的盐度分布与水温分布较为相似。结合调查时段的海表热通量变化和卫星高度计资料分析认为,2019年5月中沙大环礁西南部海洋吸热高于东北部,故表层水温西南高东北低;2020年6月至7月环礁西南部海洋吸热低于东北部,故表层水温西南低东北高。由于中尺...     

2006年9月南海北部表层温盐场的走航观测

通过2006年9月南海北部开放航次的走航观测,得到了该海区多个断面的表层温度、盐度分布曲线.QuikScat海面风场资料显示观测期间处于西南季风向东北季风的转换阶段,走航观测所得的温、盐资料显示出在这一季风转换的特殊阶段该海区表层的水文特征.珠江口冲淡水的扩散范围在季风转向前后有显著的变化,低盐的冲淡水在西南季风阶段向珠江口外海区的东南方延伸较远,而在东北季风阶段则受珠江径流量、南海北部表层环流等因素的影响收缩至珠江口附近.闽南近岸和台湾浅滩南部表层具有低温高盐特征,但CTD资料表明台湾浅滩区域存在上升流,结合风场资料,可证实观测期间此处的上升流由海流-地形因素所造成.     

春夏季季风转换期南海南部的异常表层水

对1985－1998年期间的海洋调查温盐深（CTD）资料进行综合分析，发现南海南部春夏季季风转换期存在盐度逆转的异常表层水。实测资料表明，该异常表层水覆盖在南海南部的中部、东部大部分地区。冬季风停止引起苏禄海高温高超国水西向侵入，成为该海区东部近表面异常高盐水的来源之一。海面强的蒸发和表层水弱的垂向混合导致近表面水具有高盐特性，近表面高盐水与其下部保持着冬季遗存的局地低盐水叠置，形成了盐度逆转现象。     

Monsoonal impact on circulation pathways in the Indian Ocean

Monsoon driven water mass exchange between the Bay of Bengal(Bo B) and Arabian Sea(AS) is the common experience. However, it is not yet firmly confirmed that the exchange pathway is either passing through southern tip of Sri Lanka or Palk Strait. Local circulation patterns impact the pathways followed by the East Indian Coastal Currents(EICC) that drive exchange, thereby modulating mixing and water mass transformation in the Bay of Bengal around Sri Lanka. In this study, observations from surface drifters were incorporated with the satellite derived data to understand the monsoonal impact on circulation patterns in the Indian Ocean. This was the first multi-national scientific effort which was conducted in the Bo B and AS during 2013 to 2015 to understand the monsoonal impact on circulation patterns in the complex region. The results indicated that seasonally reversing monsoonal currents of southern Sri Lanka, traced by the wintertime freshwater export pathways of the EICC. The deflection of monsoon currents running along the east coast of Sri Lanka by forming cyclonic and anti-cyclonic eddies, which influence the mixing and stirring associated with these flows. Results further indicate the low salinity cold water flows from the Bo B to AS along the western boundary of the Bo B during northeast monsoon. In the same way, reverses the phenomena during southwest monsoon, transporting high salinity warm water from AS to the Bo B. This maintain the bay status which occurred due to freshwater influx from large rivers and high saline water from AS. However, no evidences were observed for the exchange through Palk Strait during the study.Also, there are some mis-matches in in-situ and remotely sensed measurements which imply the necessity of systematic observation system for the complex region as an alternative approach.     

夏季南黄海海水化学要素的分布特征及影响因素

基于2006年7月对南黄海调查所得资料,对南黄海海水化学要素的分布特征及影响因素进行了探讨.结果表明:(1) 调查海域底层122°E～123°E,33°N以南范围内存在明显的DO亏损现象,证实了长江口外低氧区向南黄海的扩展态势.(2) 南黄海西南部上层水体中的营养盐主要来源于长江冲淡水及苏北沿岸流的输运,且营养盐与盐度之间呈较好的负相关,具有一定的保守性,同时发现表层无机氮盈余状况的分布与该海域环流的扩展途径密切相关;南黄海西南部底层东北向的高营养盐水舌是长江冲淡水、台湾暖流前缘水以及底层有机物分解释放营养盐综合作用的结果;南黄海冷水域因有机物分解而积聚了大量营养盐.(3) 根据南黄海冷水域海水化学要素的断面分布,指出自DO最大值层开始产生至观测之时该层之下、真光层以内光合作用产氧在温跃层下界的积累和保存在氧最大值形成过程中具有极其重要的作用.     

南沙群岛海域混合层深度季节变化特征

基于南沙群岛海域综合科学考察11个航次的实测资料,研究了南沙群岛海域的混合层深度季节变化特征。研究结果表明,南沙群岛海域混合层深度存在明显的季节变化,并且与季风和海表热通量的变化密切相关。春季,风速较小且风向不稳定,海面得到的净热通量全年最大,上层水体层结稳定,混合层深度较小;夏季,南海西南季风盛行,上层为反气旋式环流,海面得到的净热通量减少,混合层呈加深的趋势;秋季,海面净热通量继续减少,混合层深度达到最大值;冬季,东北季风驱动下形成的上层气旋式环流引起深层冷水的上升,限制了混合层的加深。     

Eutrophication and hypoxia in the upper Gulf of Thailand

In this study, we investigated the mechanism of eutrophication and hypoxia in the upper Gulf of Thailand from August 2014 to June 2015 based on field observation data, box model analysis, and the unscaled trophic status index (UNTRIX). Fresh water residence time derived from a simple box model was long (38.61 days) during the transition period between the southwest to northeast monsoon in September 2014. In contrast, fresh water residence time was short (2.63 days) during the late northeast monsoon in February 2015. Long residence time was related to the development of widespread strong hypoxia in near-bottom waters in over half of the gulf during the transition between the southwest and the northeast monsoon, when river discharge was also very large. UNTRIX is used to assess water trophic levels, and is based on water qualities including concentrations of chlorophyll-a (Chl-a), dissolved oxygen (DO), dissolved inorganic nitrogen (DIN), and dissolved inorganic phosphorus (DIP). Hypertrophic and eutrophic conditions were observed at river mouths; their seasonal eutrophication was related to river discharge and circulation. Nutrients were mainly increased by river discharge. Water column stratification and long residence time were required for the development of severe hypoxia in the study area.

     

Phytoplankton dynamics associated with the monsoon in the Sulu Sea as revealed by pigment signature

Phytoplankton dynamics during the northeast monsoon was investigated in the Sulu Sea from algal pigment analysis. We visited the Sulu Sea in February 2000, a mid period of the northeast monsoon, and in November and December 2002, the beginning of the northeast monsoon. SeaWiFS images showed generally low concentrations of surface chlorophyll a (Chl a) during the southwest monsoon and higher concentrations with several peaks during the northeast monsoon. In the beginning of the northeast monsoon, subsurface chlorophyll maxima (SCM) occurred, where vertical variation in class-specific composition as estimated from pigment signatures was prominent. Prochlorococcus, cyanobacteria, prymnesiophytes and crysophytes were important groups above the SCM, and the contribution of cyanobacteria to Chl a became much lower at and below the SCM. Contributions of chlorophytes and prasinophytes to Chl a generally showed maxima near the SCM. This distribution was accompanied by vertical changes in the concentration of photoprotective pigments relative to photosynthetic accessory pigments. During the mid northeast monsoon, the upward supply of nutrients was probably enhanced at some stations due to vertical mixing, and as a consequence diatoms dominated in the upper 100 m water column of these stations, and other eukaryotic flagellates including prymnesiophytes, chrysophytes and cryptophytes were secondary major components of the community. The elevation of Chl a concentration and changes in phytoplankton community during the northeast monsoon likely influence the variation in biological production at higher trophic levels in the Sulu Sea.     

浙南近岸海流季节变化特征

为了揭示浙南海流特征及其季节和垂向变化规律,于2006—2007年在浙南岸外一固定点(平均水深约32m)利用ADP潜标进行了春、夏、秋、冬季4次多个潮周期分层海流流速流向观测。结果表明:(1)测点最大流速为148.9cm/s,相应流向为75°,出现在春季表层大潮落潮阶段;垂向平均最大流速为106.2cm/s,平均流向为81°,出现在夏季大潮落潮落急阶段。(2)剖面各层流速垂向差异明显,表层流速(28m层以上)受海况影响明显,秋季平均流速最大(65.4cm/s),冬季最小(42.8cm/s),20~28m层冬季最强,春季最弱,20m层以下夏季最强,秋季最弱(仅小潮);垂线平均流速夏季最强(46.5cm/s),春季最小(33.7cm/s)。(3)夏季海流基本上为(偏)北向流;秋、冬则基本上为(偏)南向流;春季具往复流特点,但以北向流为主。(4)垂向上夏季和春季流向较一致,冬季和秋季流向分异明显(20m和10m层)。(5)垂线平均余流为12.8~29.8cm/s,夏季最强春季最弱;夏季和春季各层余流均为东北向,冬季为西南向,而秋季11m层(包括11m层)以下为E-NEE向,11m层以上为西南向。结论:测点海流受到潮汐、季风和台湾暖流的共同制约。季风的影响夏、冬两季大于春、秋两季;季风的影响自表层向底层减弱(主要限于表层以下10m)。     

Distribution of Pacific-origin water in the region of the Chukchi Plateau in the Arctic Ocean in the summer of 2003

1Introduction Besidestheprecipitationandriverdischarges,the watersinthePacificOceanandtheAtlanticOceanare thesourcesoftheArcticOceanwater.TheAtlantic waterenterstheArcticOceanviatheFramStraitand theBarentsSea.Foritsdenserfeatureduetohigh salinity,mostofitsinkstothenorthofSvaldbardand circulatesinallthedeepbasinsintheArcticOcean, formingthedeepandbottomwatersoftheArcticO- cean(Aagaardetal.,1985;Rudelsetal.,1999).The BeringStraitistheonlychannelforthePacificwater toflowintotheArcticOce…     

2016年春季季风转换期的珠江冲淡水分布与生态特征分析

基于2016年4—6月珠江口航次的现场调查资料及卫星数据, 对春季季风转换期的风场分布特征, 冲淡水路径的时空变化情况以及相应的生态响应进行了分析。结果显示珠江口及其临近海域在4—5月表现为过渡性风场, 受冬季风和夏季风的共同作用, 且风向多变。至6月, 冬季风消失, 西南季风控制了整个研究海域, 与此同时珠江径流量逐月增大, 冲淡水的分布特征也随着风场及径流变化发生转变。具体表现为4—5月份冲淡水向粤西沿岸方向扩展, 且在5月流幅更宽, 可达离岸70km处。6月冲淡水向东西两个方向扩展, 向西的冲淡水在河口外受到夏季风场以及背景流场的抑制, 形成以盐度和浊度为特征的锋面; 向东的冲淡水离岸扩展, 在粤东外海形成大面积的羽状流。此外, 珠江口叶绿素和溶解氧的分布主要受冲淡水的影响, 其分布形态与冲淡水路径相似。垂向上, 可观测到珠江口低氧的形成过程, 海水层化, 稳定水柱的形成以及生物分解过程共同导致了珠江口底部的溶解氧较低。浊度的分布主要受径流携带的悬沙影响, 与盐度有很强的负相关性。     

2000—2017年东印度洋季风带海域温度锋时空特征变化分析

基于2000-2017年的MODIS-Terra气候态月平均海表温度数据检测了东印度洋季风带海域的温度锋,统计了各锋面每月发生的锋点数量、锋面平均强度及中心线长度,并基于2000—2017年逐年海表温度数据,研究了以恒河-雅鲁藏布江河口锋和爪哇岛锋为代表的典型温度锋面的年际变化。结果发现:在3、4月,东印度洋季风带海域的锋面最弱、数量最少;5-10月期间,5°~15°N及5°~15°S一带的温度锋出现并发展;12、1、2月最北部锋面发展并趋向成熟。研究区存在恒河-雅鲁藏布江河口锋、爪哇岛锋、Palk海峡锋、东锡兰锋及伊洛瓦底江河口锋5个温度锋,其中最北部的恒河-雅鲁藏布江河口锋全年存在,东北季风时期长度较长,强度较大,最南部的爪哇岛锋存在于4—11月,西南季风时期较强,长度和数量也处于较高水平,其余锋面主要发生于西南季风盛行时期,且强度、长度等变化相对较小。两个典型温度锋空间位置的年际变化均不大,恒河-雅鲁藏布江河口锋平均强度的年际变化较大,最大超过0.03℃/km,长度变化相对较小;爪哇岛锋平均强度的变化相对平稳,但锋点数量和中心线长度存在较大的年际变化。     

西南黄海2018年夏季溶解氧分布特征及其影响因素的初步分析

利用2018年夏季在西南黄海的现场调查资料,分析了海温、盐度和溶解氧(dissoloved oxygen,DO)分布特征.海区西侧的江苏沿海有明显的冷水带,冷水带对应表层较高的DO浓度.在海区南侧的长江口附近,盐度由南向北升高,上部海水DO浓度高,下部海水DO浓度低.综合现场观测数据、CCMP (Cross Calib...     

A synthesis of the circulation and hydrography of the South Aegean Sea and the Straits of the Cretan Arc (March 1994–January 1995)

Four seasonal oceanographic cruises were carried out in the Eastern Mediterranean Sea, within the framework of the CEC/MAST-MTP Project PELAGOS, during 1994–1995. The surveys covered the South Aegean Sea and the adjacent open sea regions (southeastern Ionian, northwestern Levantine). Analysis of CTD data revealed that a multiscaled circulation pattern prevails in the area. It differs from the circulations detected during the 1986–87, thus indicating interannual variability. Cyclonic and anticyclonic gyres and eddies are interconnected by currents and jets variable in space and time. Most of the features are persistent, others seem transitional or recurrent. The hydrological structure is also complex and apart from the upper layer does not present basinwide any significant seasonality. Dynamical and hydrological regimes are variable in the upper and intermediate layers at the Straits of the Cretan Arc, while the deep regime seems rather constant. Topographic control is evident on the flows through the straits. The new very dense deep water mass, namely the Cretan Deep Water (CDW) and a well-defined intermediate layer of minimum temperature and salinity, the so-called Transition Mediterranean Water (TMW), consists the new important structural elements of the South Aegean Sea. The CDW outflows towards the deep and bottom layers of the Eastern Mediterranean, thus considerably contributing to the formation of the new, denser Deep and Bottom Water of the Eastern Mediterranean, which sinks and displaces the Eastern Mediterranean Deep Water of Adriatic origin in the adjacent sea regions outside the Aegean Sea.     

应用Argo资料分析西北太平洋冬、夏季水团

应用Argo剖面浮标观测的温、盐度资料,分析了西北太平洋海域冬、夏季的温、盐度分布、水团结构及其分布。首先采用T-S点聚图法分析了该海域水团分布的基本情况,由点聚分析结果可知,该海域至少存在6种以上水团;再用模糊聚类软化法对水团作进一步划分,分别计算了该海域6至11类水团的F和△F值,结果表明,冬、夏季的△F值都以划分为8类时为最大,这与大洋水团的稳定性是一致的,因此,该海域冬、夏季水团以划分为8类最佳,它们分别是北太平洋热带表层水、北太平洋次表层水、北太平洋中层水、北太平洋副热带模态水、北太平洋深层水和赤道表层水,以及南太平洋次表层水和南太平洋中层水。     

2015年7月珠江口逆温现象的观测与分析

根据珠江口2015年7月6日至17日航次的CTD（conductivity, temperature, and depth）观测结果,分析得到：珠江口附近海域存在海水的垂向逆温现象,逆温差平均值为0.42 oC,上界深度在1 m-6 m间,下界深度在3 m-10 m间,逆温层平均厚度约为4 m。根据时空分布差异的不同,逆温现象可区分为以下三种情况：（1）在狮子洋、太平水道和蕉门水道的出口汇集处,存在温、盐差异的不同水体的交互过程中,由于潮汐和径流的作用所形成的水平流场差异导致了垂向温度的逆转现象。（2）在珠江口西侧的盐度锋面区域附近,第一航段观测期间锋面内侧低盐水团的温度低于锋面外侧高盐水团约2 oC,此时可观测到逆温现象;但在同一区域的第二航段观测期间由于河口内表层水温的上升,导致了逆温现象消失。该区域盐度锋面附近的两个水团在锋面位置附近发生叠置,冲淡水覆盖于海水之上,两个水团的温、盐差异是温度逆转现象的主因。（3）香港西南侧的上升流区域与盐度锋面的相互作用导致了该区域逆温现象的产生。     

东北季风与南海海洋环流的相互作用

针对冬、春季南海区风场，表层海流、海温场的季节变化，选用了２＾１／３层海洋模式和简单一层大气边界层模式，研究了冬、春季我作用下南海上层海洋环流的基本形态及其对ＳＳＴ的影响，估算了这种影响对海南风场的反馈效应。研究结果表明，冬、春季东北 与南海五流的相互作用对吕宋岛西部海域的气旋式冷涡的形成和维持有利。冬季（１月）强东北风作用使南海上层为一气旋式环流，上层环流对季风的反馈作用可使南海西北部东北风减弱