"船时项目分类列表-黄渤海",,,,,,,

"序号","单位","项目号","项目类型","船时申请人","海区","时段","季节","学科-项目","备注","学科代码","项目名称","电话号码","邮箱""1","中国海洋大学","41076085","面上","刘光兴","渤海、黄海、东海、南海","不限","不限","浮游动物、浮游植物、温盐等环境要素","待定","D0609","海洋桡足类现场食物的分子生物学检测及摄食实验验证","66782672","gxliu@ouc.
edu.
cn""2","中国科学院海洋研究所","41376092","面上","李学刚","(1)渤海湾海域;(2)南黄海及东海北部区域.
","4月至10月","春、夏、秋","需观测海水中的多胺等化感物质.
","站位布设见附图.
","D0604","灾害性水母生消中的化感物质及其作用研究","0532-82898891","lixuegang@qdio.
ac.
cn""3","中国海洋大学","41376010","面上","孙建","1、冬季渤海近海冰边缘;2、黑潮主轴及其延伸体","1、渤海融冰形成的锋面的观测时间:2014年1月和12月;2、黑潮区锋面观测时间:随时可以观测","冬","SST、表层流速、有效波高、海浪谱、大气温度、风速风向","站位附图","D0601","海洋锋对海浪SAR成像及海洋要素反演的影响研究","0532-66786228","Sunjian77@ouc.
edu.
cn""4","中国科学院海洋研究所","41106026","青年","郝佳佳","北黄海海域,南黄海西部","春、冬","春、冬","温、盐、流,基础气象数据,自带并投放漂流浮标.
","32N,33N断面靠近苏北浅滩附近.
北黄海39度断面靠近獐子岛附近.
","D0601","黄东海温跃层长期变化及其影响因素","15063998676","haojiajia@qdio.
ac.
cn""5","南开大学","41276112","面上","易立新","渤海","不限","不限","1.
Ra同位素2.
N、P、Si等生源要素","平行海岸3-4条断面,每个断面5-6个点","D0604","天津滨海地下水排泄与营养盐输入","13752753409","yilixin@nankai.
edu.
cn""6","天津市环境保护科学研究院","41273068","面上","卢学强","渤海","4月至10月","春、夏、秋","需采集海水、表层沉积物以及柱状沉积物样,回实验室分析放射性核素、稳定同位素以及基本理化指标.
","总共设计19个点位,均匀分布在渤海湾中,具体采样点位图见","D0309","渤海湾沉积物来源的百年变化","022-87681635","xueqianglu@yahoo.
com""7","厦门大学","41076091","面上","党宏月","渤海","每航次20~30天,春、夏、秋各一航次或其中两个季节各一航次.
","春、夏、秋","渤海沉积环境氮循环微生物关键功能群分子生态学.
","15~20个左右.
","D0609","黄河口N循环微生物关键功能群分子生态学研究","15960390581","DangHY@xmu.
edu.
cn""8","天津科技大学","41176136","面上","孙军","渤海","1-2,4-5,7-8,11-12","春、夏、秋、冬","浮游植物水样和网样采集,叶绿素样品采集","任务计划设定的采样站位","D0609","海洋硅藻的硅质化过程及相关中国海生物碳汇研究","022-60601116","phytoplankton@163.
com""9","北京大学","41006042","青年","许云平","渤海、北黄海","不限(夏、秋)","不限(夏、秋)","海洋化学/采集海水颗粒物、表层沉积物和柱状样,实验室分析有机物特性,开展海洋有机地球化学的研究工作","拟从南渤海(黄河口)至鸭绿江入海口海域设计约20-30个采样站点,也可依照调查船安排的站位设计","D0604","利用微生物标志物GDGT重建全新世渤海湾有机碳的来源及沉积通量","13466381006","zhangwt@semi.
ac.
cn""10","中国科学院海洋研究所","41206014","青年","刁新源","渤海、黄海、东海","3.
1-7.
1","春、夏","温度、盐度、深度、流速、流向、溶解氧、pH、营养盐","按照航次设计站位即可","D0601","南黄海春季中层冷水形成机制研究","18653270615","Diaoxinyuan@qdio.
ac.
cn""11","中国石油大学(华东)","41274011","面上","范士杰","渤海海域","7月10日~20日","夏","船载动态GPS观测和同步气象观测数据采集","船舶甲板","D0401","渤海三维水汽场构建方法研究","15853276325","fshijie@upc.
edu.
cn""12","中国科学院烟台海岸带研究所","41206086","青年","董志军","渤海和黄海","6月-8月;9月-11月","夏、秋","浮游动物(水母类)","大面调查站位","D0607","我国近岸4种常见水母幼体的荧光定量PCR监测方法建立及应用研究","0535-2109117","zjdong@yic.
ac.
cn""13","中国海洋大学","41375142","面上","陈文忠","渤海及黄海","春季航次和冬季航次,具体时间待定","春、冬","主要观测海上气溶胶光学性质及化学组分特征,辅助观测水体叶绿素浓度、光合有效辐射度、真光层深度等与与初级生产力有关的生物光学参数.
","站位附图","D0512","利用多卫星传感器资料研究大气气溶胶对海洋初级生产力的影响机制","0532-66782305","wzchen@ouc.
edu.
cn""14","国家海洋局第一海洋研究所","41206111","青年","石洪华","渤海-莱州湾","2月-3月,5月,8月,11月","春、夏、秋、冬","温度、盐度、水深、透明度、常规水质(无机氮、无机磷、硅酸盐、叶绿素a)、浮游植物(水采)、浮游动物(网采)、有机碳","站位附表","D0608","基于全局灵敏度和伴随方法的海洋生态动力学模型参数优化","13869895069","shihonghua@fio.
org.
cn""15","厦门大学","41276064","面上","郭卫东","渤黄海","不限","不限","有机物表征及生物降解","生物化学站位","D0604","河口区DOM生物可利用性的时空演变及其调控机制","0592-2185212","wdguo@xmu.
edu.
cn""16","南京信息工程大学","41276186","面上","丘仲锋","渤黄海","4-6月,9-11月","春、秋","水体光谱总吸收系数,水体光谱光束衰减系数,水体光谱后向散射系数,颗粒物现场粒径,悬浮物浓度等","站位共布设调查断面10个,观测站98个,并计划在黄河口附近布设1个连续观测站点.
每次在海上观测实验10-15天","D0610","悬浮物粒径对海水光学性质及遥感算法影响研究","025-58695700","Zhongfeng.
qiu@nuist.
edu.
cn""17","中国海洋大学","41376096","面上","王厚杰","渤黄海海域,10米等深线已深的海域","6-7月份,11-12月份","夏、冬","1)环境动力学观测:ADCP海流剖面、波浪要素;2)站位CTD多参数剖面观测(温、盐、浊度、叶绿素和溶解氧);3)水体采样和表层沉积物采样;4)黄河三角洲沿岸柱状样采样.
","重点关注:黄河三角洲沿岸、莱州湾湾口、渤海海峡南部、山东半岛成山头、苏北近岸以及长江口北侧区域的大面站,在渤海海峡南部及成山头海域开展25小时定点连续观测","D0605","黄河水下三角洲沉积动力分区:过程、机制与沉积效应","0532-66782950","hjwang@ouc.
edu.
cn""18","中国科学院海洋研究所","41376164","面上","王广策","黄渤海","6-7月","夏","微藻种类及分布情况、水样采集","无站位要求","D0609","潮间带大型海藻孔石莼叶黄素循环机制研究","0532-82898574","gcwang@qdio.
ac.
cn""19","中国科学院生态环境研究中心","41176066","面上","张晓山","黄渤海","不限","不限","大气中的气态元素汞/活性汞/颗粒态汞,海水中的溶解性气态汞.
","本项目对观测站位无特殊要求.
","D0604","典型海域海水中二价汞的还原速率、关键影响因素及参数化方案研究","010-62849369","zhangxsh@rcees.
ac.
cn""20","中国科学院海洋研究所","41306151","青年","何林文","黄渤海","6-7月","夏","漂浮藻类种类及分布范围","无站位要求","D0609","条斑紫菜不同世代的代谢流量分析","0532-82898575","Helinwen07@163.
com""21","中国科学院烟台海岸带研究所","41376138","面上","胡晓珂","黄渤海,及山东半岛周边","不限","不限","细菌的丰度、石油烃降解功能微生物丰度和组成用水量:500ml/层/站位沉积物:200g/站位","航次的标准站位","D0609","海洋兼性厌氧石油烃降解菌的降解特性及其在环境中的行为特征","0535-2109127","xkhu@yic.
ac.
cn""22","中国科学院烟台海岸带研究所","41206155","青年","张晓黎","黄渤海,及山东半岛周边","不限","不限","沉积物厌氧脱氮过程的速率、功能微生物丰度和组成;用水量:2L;沉积物:100g","航次的标准站位","D0609","渤海沉积物中反硝化与厌氧氨氧化脱氮速率及相关功能微生物类群的时空特征","0535-2109181","xlzhang@yic.
ac.
cn""23","中国海洋大学","41175006","面上","张苏平","黄东海","4月和10月","春、秋","探空观测、雾滴谱观测、云高观测","主要以大气边界层和层云-海雾观测为主,对站位无具体要求,但海雾观测与做站不同,可能设置的各个站点都无法观测到雾,但航行途中可能会遇到雾,因此希望能够获得机动时间在遇到海雾时可以要求停航观测,时间半小时-1小时以内.
","D0502","黄东海大气边界层高度的变化机理及其与层云-海雾的关系","13864809505","zsping@ouc.
edu.
cn""24","中国海洋大学","41375143","面上","祁建华","黄海","春季沙尘多发期(3~5月份)","春","大气气溶胶及生物气溶胶","因为大气样品是在船走航时观测,所以对站位无特殊要求.
","D0512","沙尘天气对近海大气中生物气溶胶粒径分布和微生物活性及群落结构的影响","0532-66782356","qjianhua@ouc.
edu.
cn""25","中国海洋大学","41176097","面上","石金辉","黄海","春季3月-5月,最佳时间是3月1日-4月30日沙尘多发时段","春","海洋大气气溶胶化学成分,海洋大气污染气体浓度,颗粒物数浓度","大气采样为走航采样,对站位无特别要求","D0608","黄海大气气溶胶中微量元素溶解性研究-氮的非均相反应的影响","0532-66782823","engroup@ouc.
edu.
cn""26","中国海洋大学","41276041","面上","张亭禄","黄海","1月、4月、7月、10月","春、夏、秋、冬","水体光谱吸收系数、光谱散射系数、光谱后向散射系数、悬浮体浓度、叶绿素浓度、叶绿素吸收、黄色物质吸收、水中光辐射(向上辐亮度,向下辐照度)、CTD、大气气溶胶","站位附图","D0602","黄/东海水下太阳紫外辐射传输特性及其遥感方法","66782475","zhangtl@ouc.
edu.
cn""27","中国科学院南海海洋研究所","41176161","面上","杨顶田","黄海","春季、冬季","春、冬","悬浮质,叶绿素、气溶胶、海流等","整个黄海靠近海岸带附近","D0610","基于卫星遥感和现场观测的海岸带海草碳循环和碳通量研究","020-89022958","dtyang@scsio.
ac.
cn""28","天津科技大学","41176136","面上","孙军","黄海","1-2,4-5,7-8,11-12","春、夏、秋、冬","浮游植物水样和网样采集,叶绿素实验,浮游动物拖网实验","任务计划设定的采样站位","D0609","海洋硅藻的硅质化过程及相关中国海生物碳汇研究","022-60601116","phytoplankton@163.
com""29","中国海洋大学","41305087;41306100","青年","陈小燕","黄海","春季和秋季","春、秋","海洋大气气溶胶化学成分,海洋大气污染气体浓度,叶绿素a浓度","大气采样为走航采样,对站位无特别要求;叶绿素a关注大面积及垂向浓度分布,对站位无特别要求.
","D0508、D0608","1、海洋大气活性氯化学对含氮物质浓度和相态变化的影响研究2、海湾生态系统结构-功能关系变化特征及其机理研究——以胶州湾为例","0532-66781397","liuxh1983@ouc.
edu.
cnshallop@ouc.
edu.
cn""30","中国海洋大学","41305086","青年","李鹏远","黄海","4月和7月","春、夏","探空观测、雾滴谱观测、云高观测","主要以海雾观测为主,对站位无具体设置要求,但海雾观测与海洋科学观测不同,可能设置的各个站点都没出现海雾,但航行途中可能会遇到雾,因此希望能够获得机动时间在遇到海雾时可以要求停航观测,时间1-2小时.
","D0508","黄海海雾的微物理特性和数值模拟研究","18660271650","pengyuanli@ouc.
edu.
cn""31","中国海洋大学","41305087","青年","刘晓环","黄海","春季(4-5月)和秋季(10-11月)","春、秋","海洋大气气溶胶化学成分,海洋大气污染气体浓度","大气采样为走航采样,对站位无特别要求","D0508","海洋大气活性氯化学对含氮物质浓度和相态变化的影响研究","0532-66781397","liuxh1983@ouc.
edu.
cn""32","中国海洋大学","21203171","青年","刘盈","黄海","8月","夏","海洋挂片","黄海海洋观测站大连獐子岛海域","B030106","纳米银点阵修饰超双疏涂层的构筑及其海洋防腐防污研究","13210081197","liuyingwda@ouc.
edu.
cn""33","中国海洋大学","41306069","青年","张洪海","黄海","不限","不限","海水中二甲基硫、二甲亚砜的浓度、DMS光化学氧化速率;沉积物间隙水中二甲基硫的分布与通量","大面调查,站位最好能均匀覆盖黄海海域","D0604","中国近海二甲基硫的光化学氧化及其对二甲亚砜的生成贡献研究","13656396578","honghaizhang@ouc.
edu.
cn""34","中国海洋大学","41221004","创新群体","赵美训","黄海,东海陆架区,渤海","不限","不限","沉积物取样","80个表层沉积物站位,20个柱状样;多个表层水颗粒物站位","D0604D0603","海洋有机生物地球化学","0532-66782103","maxzhao@ouc.
edu.
cn""35","国家海洋局第三海洋研究所","41376170","面上","顾海峰","黄海、渤海","8月-9月","夏","采集表层和柱状沉积物样品,采集浮游植物样品.
","大连、天津、锦州、东营、青岛,连云港等相邻海域","D0609","中国近海原多甲藻(甲藻门)的分类和系统发育研究","13063052574","haifenggu@yahoo.
com""36","中国科学院海洋研究所","41176018","面上","于非","黄海、东海","春、夏、秋、冬","春、夏、秋、冬","温度、盐度、海流等","无特殊要求","D0601","黄海冷水团的形成机制与演变过程研究","18653280417","yuf@qdio.
ac.
cn""37","中国科学院海洋研究所","41206020","青年","魏传杰","黄海、东海","春、夏、秋、冬","春、夏、秋、冬","湍流(湍动能耗散率、热耗散率)","无特殊要求","D0601","黄海海区的海洋湍流混合特征研究","13964268184","weicj@qdio.
ac.
cn""38","中国海洋大学","41375016","面上","吴松华","黄海和渤海","5-10月夏秋季节","夏、秋","海气边界层的风速、风向、气温和湿度的廓线分布;海气边界层结构和变化规律.
","定点和走航均可,由于实验数据采集是连续采集,实验系统在穿船静止和运动时都可以采集数据,所以对于站位无具体要求,定点和走航均可.
","D0502","海洋大气边界层结构和三维风场的多普勒激光雷达观测研究","13506396001","wush@ouc.
edu.
cn""39","中国科学院烟台海岸带研究所","41376121","面上","刘东艳","黄海和渤海","6月-8月;9月-11月","夏、秋","硅、甲藻(表层沉积物、柱样沉积物和水体)","大面调查站位","D0608","黄海沉积物中硅、甲藻百年演变特征与环境反演研究","0535-2109116","dyliu@yic.
ac.
cn""40","中国海洋大学","41076088","面上","汪岷","黄海及渤海","不限","不限","微微型浮游植物、浮游病毒及浮游细菌,营养盐,温、盐等环境因子","北黄海养殖区域(YZ)、鸭绿江入海口(YR)、黄渤海交界水域(BJ)、冷水团(LS)、暖流流经海域(NL)及近岸沉积物表层(CJ)6个站点","D0308","北黄海微微型真核浮游生物多样性及其与环境因子的关系","0532-82031859","wangmin30@hotmail.
com""41","中国科学院海洋研究所","41376027","面上","侯一筠","黄海及东海北部","冬半年","秋、冬","海洋动力环境常规观测,包括海温、盐度、流场等的剖面观测和常规气象走航观测.
","无特殊站位要求,服从开放航次总体安排.
","D0601","寒潮大风影响下的海洋灾害机理及数值预测方法研究","0532-82898608(办)13808967578(手机)","yjhou@qdio.
ac.
cn""42","青岛农业大学","31300005","青年","张燕娇","黄海近海水域","3.
06-3.
21;6.
06-6.
21;9.
08-9.
23;12.
07-12.
22","春、夏、秋、冬",,,"C010101","中国黄海近海水域产蛋白酶细菌的分类、多样性以及所产蛋白酶多样性研究","13176398851","zhangyanjiao34@163.
com""43","华东师范大学","41376089","面上","杜金洲","黄海西部沿岸以及南部区域","春、秋","春、秋","营养盐、镭同位素","119°E~124°E33°N~37°N","D0604","我国黄海海底地下水排泄及营养盐入海通量的研究","021-62232761","jzdu@sklec.
ecnu.
edu.
cn""44","中国海洋大学","31172412","面上","朱丽岩","胶州湾及青岛近海.
","2月、5月、8月、12月","春、夏、秋、冬","胶州湾及青岛近岸水体中POPs的分布及其对浮游动物的影响","站位附图","C190303","利用桡足类世代培养体系研究POPs污染对近海生态系统的影响","13506391037","lyzhu@ouc.
edu.
cn""45","中国科学院地质与地球物理研究所","41210005","国际(地区)合作与交流项目","郝天珧","南黄海","不限","不限","海底大地电磁场.
本项目并不占用船时很多,在航次走航经过南黄海中部隆起或北部盆地水深较大海区时(水浅区工业干扰大,渔业活动也会拖走仪器),将4台海底电磁仪投放(每台投放时间约为5分钟,投放点位可以与整个航次计划协商而定),点距为3km.
投放后仪器留海时间不少于2天,即可以回收.
回收时间每台约为20分钟.
","4个站位","D04","黄海及邻区壳幔结构及深浅构造关系的综合地球物理研究","010-82998140","tyhao@mail.
iggcas.
ac.
cn""46","国家海洋局第一海洋研究所","41376073","面上","胡宁静","南黄海","不限","不限","表层沉积物取样;柱状沉积物取样","表层样(14站);柱状样(4站),附表","D0603","末次冰消期以来黄海暖流演化:沉积物硅酸盐碎屑Sr-Nd同位素示踪","0532-88962793","huningjing@fio.
org.
cn""47","南京大学","41376044","面上","汪亚平","南黄海","4-6月","春、夏","流速剖面:船载ADCP结合投放海底三脚架做近底部观测,连续水样采集:表、中、底三层,每小时1次温盐深剖面:采用CTD观测温度、盐度剖面,每小时1次底质采样:抓斗采集表层底质样品,典型时刻","2个全潮锚系站,海图水深约15m,附图.
站位坐标如下:SY1(121°57′36.
18″E,32°55′21″N)SY2(122°8′6.
36″E,32°12′7″N)","D0603","潮流脊影响下开敞型潮滩的地貌动力过程及演化模式","139-51810430","ypwang@nju.
edu.
cn""48","中国科学院海洋研究所","41276052","面上","黄朋","南黄海","不限","不限","表层沉积物取样","35.
3,120.
4;35.
3,120.
6;35.
3,120.
8;35.
3,121.
0;35.
3,121.
2;35.
3,121.
4;35.
6,120.
4;35.
6,120.
6;35.
6,120.
8;35.
6,121.
0;35.
6,121.
2;35.
6,121.
4;","D0603","末次盛冰期黄海陆架气候变化的钙质结核硼-碳-氧同位素记录","82898644","huangpeng@qdio.
ac.
cn""49","国家海洋局第一海洋研究所","41106061","青年","阚光明","南黄海","不限","不限","海底沉积物取样","26个站位,附图表","D0603","南黄海中部海底沉积物声学特性及地声模型研究","13793284730","kgming135@fio.
org.
cn""50","国家海洋局第一海洋研究所","41376093","面上","臧家业","南黄海和长江口","不限","春、夏、秋、冬","沉积物间隙水中溶解氧、锰、铁和硫等;水体中锰及其形态","南黄海水域常规监测站位(往年的监测站位可以满足要求)长江口低氧区(31°~32°N,122°~123°E)范围内2~3个监测站位.
","D0604","乳山湾外近岸海域低氧现象与底边界层过程研究","0532-88967700","zjy@fio.
org.
cn""51","中国科学院海洋研究所","41276026","面上","刘志亮","南黄海西部近岸海区","夏","夏","温、盐、流","拟对该海区33N,34N,35N断面选择站位进行常规CTD观测,并选择典型站位进行潜标海流观测","D0601","夏季南黄海西部沿岸环流的三维结构及其变化规律","13884948128","zhlliu@qdio.
ac.
cn""52","国家海洋局第一海洋研究所","41102142","青年","李官保","南黄海中北部","不限","不限","浅层高分辨率浅层地震观测","测线二条(见附图),端点坐标为:(1)A(123.
55E,34.
35N)B(123.
15E,35.
4N);(2)C(123.
2E,35.
2N)D(123.
45E,35.
5N)","D0212","南黄海晚新生代构造变形特征及其动力学研究","13963937993","gbli@fio.
org.
cn""53","中国海洋大学","41276069","面上","杨茹君","东黄海及长江口海域","12月或1月航次;5月或秋季航次","秋、冬","采集海水和沉积物样品","黄海海域约20个站位,东海海域约20个站位","D0604","东黄海海水中天然有机配体与溶解态Fe的配位容量及其影响因素研究","0532-66781815(office)13626480303(手机)","yangrj@ouc.
edu.
cn""船时项目分类列表-长江口",,,,,,,"序号","单位","项目号","项目类型","船时申请人","海区","时段","季节","学科-项目","备注","学科代码","项目名称","电话号码","邮箱""1","中国海洋大学","41376055","面上","范德江","长江口海域","2-3天.
","不限","获取柱状沉积物样品,对应的表层沉积物和水体样品.
","位于26°N-30°N、120°E-123°E的区域内.
8-10站","D0603","东海内陆架250年来温盐和生产力重建及其对年代际气候波动的响应","0532-66781956","djfan@ouc.
edu.
cn""2","华东师范大学","51061130544","国际合作","李九发","长江河口及口门水域","2月或3月(枯季15天);7月或8月(洪季15天)","夏、冬","流速、流向、含沙量、盐度、沉积物、悬沙颗粒等","1.
1号测站定点水沙观测(122.
21、00、、,31.
03、48、、)2号断面河槽水沙观测(包括浮泥)(121.
50、00、、,31.
17、00、、~122.
20、00、、,31.
05、30、、)","E090903","长江河口和Ems河口细颗泥沙动力过程及其影响因素","021-62233685","jfli@re.
ecnu.
edu.
cn""3","华东师范大学","41076051","面上","何青","长江河口及邻近海域","7月或8月(洪季15天),11月或12月(枯季15天)","夏、冬","流速、流向、含沙量、盐度、温度、水样","122°30′,30°45′~122°45′,31°45′断面","D0605","长江河口水沙输运时间研究","021-62233688","qinghe@sklec.
ecnu.
edu.
cn""4","华东师范大学","41106098","青年","高磊","长江河口及邻近海域","2-3月,7-8月","夏、冬","悬浮颗粒物粒径谱、22m浮游植物网样品采集以及生源要素、流式细胞仪样品的采集.
","四点(31°45′N,122°00′E;31°45′N,123°30′E;30°45′N,123°30′E;30°45′N,122°00′E)连线区域的大面站和定点连续站.
","D0608","长江口生源要素与悬浮颗粒物粒径谱之间相互关系的初步研究","021-62232174","lgao@sklec.
ecnu.
edu.
cn""5","华东师范大学","41106074","青年","宗海波","长江河口及邻近海域","7月(洪季,4天),12月(枯季,4天)","夏、冬","盐度、温度、浊度、水样、沉积物柱状样","122°05′E,31°27′N~122°45′E,31°15′N断面","D0605","河口水质模型中的沉积物-水界面氮交换研究","021-62238711","hbzong@sklec.
ecnu.
edu.
cn""6","华东师范大学","41130856","重点","杨世伦","长江河口及邻近海域","1、7月(各18天)","夏、冬","流速、流向、含沙量、沉积物、浅剖和测深等","见附图","D0605","三峡工程对长江河口-三角洲动力沉积过程和地貌演化的影响","021-62233115","slyang@sklec.
ecnu.
edu.
cn""7","华东师范大学","41271223","面上","张卫国","长江河口水下三角洲","2月或3月;7月或8月","春、夏","表层沉积物、柱样、悬浮泥沙","31°00′-32°00′N,122°00′-123°00′E","D0104","近两千年来长江三角洲沉积物物源及黄河南迁的影响","021-62233406","wgzhang@sklec.
ecnu.
edu.
cn""8","复旦大学","41376051","面上","郭志刚","长江口","夏、冬","夏、冬","表层沉积物和沉积物短柱样","基金委航次设置的走航大面站","D0603","长江口-东海内陆架泥质区典型污染物的季节性源汇作用与机制","02165643117","guozgg@fudan.
edu.
cn""9","华东师范大学","41376098","面上","蒋雪中","长江口","1月或2月、5月或者7月或者8月","夏、冬","水文、泥沙、光谱辐射、现场粒径","A(121°0'25″E,31°47'20″N)、B(122°4'52″E,31°22'48″N)C(122°20'E,31°22'45″N)、D(121°56'10″E,31°9'30″N)","D0605","长江口细颗粒泥沙絮凝对表层水体光谱反射率的影响","021-62233843","xzjiang@sklec.
ecnu.
edu.
cn""10","中国海洋大学","41176063","面上","姚鹏","长江口、浙闽沿岸","3月/8月","春、夏","温度、盐度、深度、浊度、溶解氧、溶解态营养盐、悬浮颗粒物(分层取水过滤)、表层沉积物和柱状沉积物;水文参数(水深、流速、流向、流量等)、气象参数(气温、风速、风向等).
","70m等深线内,26°-32°N,120°-124°E.
站位附图.
","D0604","不同来源有机碳在长江口-东海内陆架的水动力分选研究","18669809903","yaopeng@ouc.
edu.
cn""11","同济大学","41276045","面上","范代读","长江口-东海内陆架","3月和8月","春、夏","近底边界层特征观测","站位经纬度:12235'E,3058'N;12315'E,3100'N","D0603","钱塘江河口涌潮沉积作用与地层形成机制","13818079236","ddfan@tongji.
edu.
cn""12","中国海洋大学","41106038","青年","杨红梅","长江口附近海域泥质区及闽浙沿岸泥质区","春夏季","春、夏","水体颗粒物,沉积物","见附图,图中蓝色方框中为本项目所需采样站位位置","D0603","利用生物标志物ladderane研究长江口外低氧区的时空分布规律及形成机制","15905425021","yhm@ouc.
edu.
cn""13","国家海洋局第二海洋研究所","41203085","青年","王奎","长江口和东海海区","6、7、8、9月","春、夏、秋","水体剖面温度盐度溶解氧营养盐,沉积物样品采集等","122-125°E,29.
5-32.
5°N.
连续站1个:嵊山外侧(122°50′,30°45).
大面站:30、31、32°N断面各若干站位,介于122~125°E之间.
","D0309","长江口沉积物-水界面不同性质有机质对低氧发展过程的贡献","15888882588","Wang.
kui@msn.
com""14","中国海洋大学","41176062","面上","刘春颖","长江口和相邻的东海","春、夏、秋、冬","春、夏、秋、冬","海水中丙烯酸、DMS和DMSP浓度以及现场的水温,盐度,pH,叶绿素等参量","选择有代表性的站位进行大面观测和季节变化的观测","D0604","海洋中丙烯酸的产生、分布和迁移转化","15863450282","Roseliu@ouc.
edu.
cn""15","厦门大学","41376177","面上","商少凌","长江口及附近海域","不限","不限","水体光学参数测量,包括表面光谱、水下剖面光谱、水体光吸收系数、色素","不限","D0608","建立基于无人机的水体二氧化碳分压遥感算法","0592--2186871","slshang@xmu.
edu.
cn""16","华东师范大学","41306080","青年","葛建忠","长江口及邻近海域","夏、冬","夏、冬","表层沉积物、悬浮泥沙采样","见附图中蓝色走航站位.
","D0605","高含沙河口导堤丁坝算法的建立以及在长江口北槽的初步应用","021-62238951","jzge@sklec.
ecnu.
edu.
cn""17","华东师范大学","41271114","面上","侯立军","长江口及其近岸海域","1-3月份、7-9月份和11-12月份","春、夏、冬","沉积物-水界面营养盐的交换通量、ANAMMOX过程,anammox菌群动力学变化","可与其他科考成员协商确定具体站位","D010106","河口潮滩湿地厌氧氨氧化及其环境调控机理研究","021-62603621","ljhou@sklec.
ecnu.
edu.
cn""18","中国海洋大学","41320104008","重大国际合作","杨桂朋","长江口及其邻近海区","不限","不限","DMS,VHCs,叶绿素a,细菌总量,营养盐,pH,碳酸盐系统.
","长江口及其邻近海区调查站位20-30个.
","D0604","海洋酸化对河口近岸生态系和生源活性气体生物地球化学过程的影响","13969887736","gpyang@ouc.
edu.
cn""19","华东师范大学","41371346","面上","LeonidSokoletsky","长江口及其邻近海域","不限","不限","叶绿素浓度、含沙量、有色可溶性有机物;水体固有及表观光学参数等","重点范围:南北纬度范围30°N—32°N,东西经度120°E—125°E","D0106","基于遥感传输和颗粒光学的近似方法遥感估算沿海浑浊水体光学和生物地球化学参数","021-52134943","sokoletsky.
leonid@gmail.
com""20","华东师范大学","41176069","面上","李占海","长江口及其邻近海域","1-3月份、6-9月份和11-12月份","春、夏、冬","底质空间分布、流速剖面、悬沙浓度剖面、悬沙级配","长江口南潮、北槽及其邻近水域","D0605","长江口最大浑浊带再悬浮作用机制和悬沙浓度剖面研究","021-62233931","zhli@sklec.
ecnu.
edu.
cn""21","中国海洋大学","41276070","面上","姚庆祯","长江口及浙闽沿岸","2、6、10、12月","春、夏、秋、冬","水体及柱状沉积物","设计站位10-20个","D0604","长江口及邻近海域沉积物再悬浮对近岸营养盐循环的影响研究","0532-66782046","qzhyao@ouc.
edu.
cn""22","华东师范大学","41171376","面上","周俊良","长江口门至其邻近海域","春、夏、秋、冬","春、夏、秋、冬","水样采集;悬浮颗粒物采集;水文特征等","可与其他科考成员协商确定具体站位","D010901","利用被动式采样技术研究河口水环境中的新型有机污染物","021-52135451","jlzhou@sklec.
ecnu.
edu.
cn""23","华东师范大学","41176071","面上","朱建荣","长江口外海区","1月或2月,7月或8月","夏、冬","长江口海区科学考察实验","与以往长江口海区观测站位相同","D0601","长江河口盐水入侵对大通和三峡大坝径流量变化的响应时间","021-62233683","jrzhu@sklec.
ecnu.
edu.
cn""24","国家海洋局第三海洋研究所","41276058","面上","蔡锋","长江口外海域","6月—8月","夏","多波束地形测量、侧扫声呐地貌观测、柱状沉积物样品采集","多波束、声呐测量采用走航式,测线约500km,在精细研究区内需要2天的工作时间,单道地震测量也采用走航式,在精细研究区内需要半天工作时间,可与其他走航式观测实验同时进行.
附站点","D0603","扬子浅滩南部地形地貌精细研究及成因机制分析","0592-2191398","fcai800@126.
com""25","中国地质大学(武汉)","41376090","面上","吕晓霞","长江口外上升流区","8月1日-8月15日12月1日-12月15日","夏、冬","水体相应层位的温度、盐度、密度、pH、溶解氧(DO)、叶绿素、营养元素等","附图","D0604","长江口外上升流区微生物四醚膜脂的来源与分布及环境意义","18971268198","luxiaox@163.
com""26","天津科技大学","41376081","面上","谢会祥","长江口至东海E124°以西一条断面","5月,7-8月","春、夏","海水化学取样","在长江口至东经124°以西选取三个站位,盐度分别为0,15,33-34.
拟定站位1(E121.
23°,N31.
65°),站位2【(E121.
78°,N31.
24°)—(E122°,N31.
11°)之间】,站位3(E124°,N30.
5°)以东.
","D0604","海洋中无色有机物的光敏和生物降解研究","13110049598","liguij@tust.
edu.
cn""27","华东师范大学","41130856","重点","邓兵","长江口、东海","6月-7月","夏","表层沉积物采样,重力管沉积物采样.
沉积物粒度、含水率、干容重信息.
","近岸区,长江口北部启东口以南,浙江台州以北,北纬123.
5度以西的海区.
共计九个段面,每个段面8-9个采样站位具体取样站位见附表","D0605","三峡工程对长江河口-三角洲动力沉积过程和地貌演化的影响","021-622232572","dengbing@sklec.
ecnu.
edu.
cn",,,,,,,,,,,,,,"船时项目分类列表-东海",,,,,,,"序号","单位","项目号","项目类型","船时申请人","海区","时段","季节","学科-项目","备注","学科代码","项目名称","电话号码","邮箱""1","中国科学院海洋研究所","41206016","青年","李峣","东部沿海","7月-10月","夏、秋","温度,盐度,海流","基本站位:24N-38N每隔一度纬向断面:经向半度间隔;重点在苏北沿岸至闽浙沿岸一带.
加密站位:30N断面:122.
5E-123.
5E,0.
2度间隔;123E断面:29.
5N-30.
5N,0.
2度间隔36N和37N断面:0.
1度间隔","D0601","中国东南近海跨陆架穿刺锋面的数值模拟及其动力机制研究","13864231511","Liyao@ms.
qdio.
ac.
cn""2","复旦大学","41375141","面上","陈莹","东海","春、秋或冬","春、秋或冬","海域气溶胶样品","基金委航次设置的走航线路","D0512","东海气溶胶中人为源识别及其沉降的生态效应研究","021-55665497","yingchen@fudan.
edu.
cn""3","厦门大学","41273083","面上","SelvarajKandasamy","东海","1)03-042)09-103)11-12","春、秋、冬","我们会采集表层和柱状的沉积物和相对应站位的CTD数据推断出水柱的特征.
样品将在船上冷冻干燥后带回厦门大学,并分析其粒径、总有机碳、总氮、总无机碳、溴含量及碳、氮同位素.
","晋江、闽江和瓯江外的东海陆架边缘,北纬24–29东经118–122之间的区域.
在上面所提及的区域按照网格模型设150个站位,采集表层沉积样和沉积物柱状样.
本次计划不设置监测站.
","D0308","中国边缘海沉积物陆源与海源有机碳埋藏通量的定量分析——运用两端元混合模式",,"4","中国海洋大学","41276041","面上","张亭禄","东海","1月、4月、7月、10月","春、夏、秋、冬","水体光谱吸收系数、光谱散射系数、光谱后向散射系数、悬浮体浓度、叶绿素浓度、叶绿素吸收、黄色物质吸收、水中光辐射(向上辐亮度,向下辐照度)、CTD、大气气溶胶","站位附图","D0602","黄/东海水下太阳紫外辐射传输特性及其遥感方法","66782475","zhangtl@ouc.
edu.
cn""5","中国科学院海洋研究所","41176132","面上","类彦立","东海","不限","不限","水深、海流、水温、盐度、海况、浊度、风速、风向、气温、气压、相对湿度,表层沉积物、悬浮体粒级与浓度","东海所有站位","D0609","黄海现生底栖有孔虫多样性与生态分布,50年区系演变能否解释全球变化","82898795","leiyanli@qdio.
ac.
cn""6","中国人民解放军理工大学","41376012","面上","张文静","东海","7月-9月","夏","海流、海温和盐度","长江口外东北海域:范围1210E-1250E、310N-340N,中心位置(1230E,330N).
济州岛附近海域:范围1240E-1280E、310N-340N,中心位置(125.
50E,31.
50N)或(1250E,330N).
走航式大面观测","D0601","东海中尺度涡和长江冲淡水低盐水团的相互关系","13851878933","zhangwenjing78@sina.
com""7","中山大学","41176129","面上","殷克东","东海","7-10月","夏、秋","海水中的营养盐、叶绿素、溶解有机碳、溶解无机碳、颗粒有机碳、沉积物柱状样(图中红圈站位)","见","D0609","浮游植物氮磷比与细菌分解有机物矿物化效率的种间差异","13826102685","yinkd@mail.
sysu.
edu.
cn""8","天津科技大学","41176136","面上","孙军","东海","1-2,4-5,7-8,11-12","春、夏、秋、冬","浮游植物水样和网样采集,叶绿素样品采集","任务计划设定的采样站位","D0609","海洋硅藻的硅质化过程及相关中国海生物碳汇研究","022-60601116","phytoplankton@163.
com""9","中国科学院海洋研究所","41306070","青年","段丽琴","东海","不限","不限","上覆水的温度、盐都、pH、Eh;表层沉积物的温度、pH、Eh、颜色、沉积物类型;柱状沉积物的温度、pH、Eh、颜色、沉积物类型","122-125oE,29-32.
5oN范围内采集44个表层沉积物;在122°30.
54′E,31°01.
37′N,122°31.
05′E,29°30.
25′N,124°59.
66′E,32°30.
04′N采集3根柱状样.
具体见附图1.
","D0604","长江口邻近海域环境演变的痕量元素示踪解析","0532-82898592","duanliqin@qdio.
ac.
cn""10","中国科学院海洋研究所","41306021","青年","司广成","东海","春季和秋季","春、秋","温度、盐度、海流","东海靠近黑潮的站位","D0601","东海黑潮锋面涡旋的特征研究","0532-82898537/13553001018","siguangcheng@qdio.
ac.
cn""11","天津科技大学","41306118","青年","冯媛媛","东海","1-2,4-5,7-8,11-12","春、夏、秋、冬","碳酸盐体系测定,现场培养实验","任务计划设定的采样站位","D0609","海洋酸化和暖化对中国海颗石藻光合与钙化作用及种群结构的影响研究","022-60601116","f.
yuanyuan@gmail.
com""12","中国海洋大学","41176063","面上","姚鹏","东海,","6月/10月","夏、秋","温度、盐度、深度、浊度、溶解氧、溶解态营养盐、悬浮颗粒物(分层取水过滤)、表层沉积物和柱状沉积物;水文参数(水深、流速、流向、流量等)、气象参数(气温、风速、风向等).
","25°-32°N,120°-126°E.
站位附图.
","D0604","不同来源有机碳在长江口-东海内陆架的水动力分选研究","18669809903","yaopeng@ouc.
edu.
cn""13","国家海洋局第二海洋研究所","41206170","青年","陶邦一","东海,浙江南部海域,以及长江口外与舟山群岛附近海域","4月至5月;7月至8月","春、夏","离水辐亮度,遥感反射率等水体表观光学特性;吸收、散射等水下固有光学特性","无特殊要求","D0610","赤潮水体的红光波段高光谱特性监测机理研究","13588492481","taobangyi@sio.
org.
cn""14","中国海洋大学","41376146","面上","周红","东海、南海","不限","不限","采泥:大型和小型底栖生物,沉积环境因子CTD:温、盐、深","东海:35个站位,分布在长江口以外的水深100米以上的海域,若涉及敏感海域可随总计划调整.
南海:35个站位,重点分布在800-2000米深陆架边缘,涉及少数海盆站位.
","D0609","海洋底栖动物关键功能群DNA条形码及分子生物多样性研究","18364265871","hzhou@ouc.
edu.
cn""15","华东师范大学","41271375","面上","沈芳","(1)黄、渤海区(2)东海海区(3)长江口","不限","不限","叶绿素浓度、营养盐、含沙量、水体固有及表观光学参数等","重点范围:南北纬度范围36°N—26°N,东西经度120°E—125°E","D0106","近岸浑浊富沙水体叶绿素浓度的遥感反演方法及光学机理","021-62233467","fshen@sklec.
ecnu.
edu.
cn""16","中国海洋大学","41376106","面上","苏荣国","黄海、长江口及东海","春、夏、秋","春、夏、秋","浮游藻色素萃取液荧光、温度、盐度、溶氧、叶绿素、浊度等","设计站位60个","D0607","基于三维荧光光谱的浮游藻化学分类学方法研究","66781815","surongguo@ouc.
edu.
cn""17","中国科学院海洋研究所","41376163","面上","李新正","黄海、东海、南海","5月、8月、11月","春、夏、秋","采集虾类特别是藻虾类样品","海区大面站,没有严格要求.
","D0609","中国海域藻虾科生物多样性与动物地理学研究","0532-82898771","lixzh@qdio.
ac.
cn""18","中国海洋大学","41176099","面上","姚小红","黄海-东海","3月-5月,最佳时间是3月1日-4月30日沙尘多发时段","春","海洋大气气溶胶化学成分,海洋大气污染气体浓度,纳米颗粒数浓度","大气采样为走航采样,对站位无特别要求","D0608","近岸、边远海污染大气中二次有机气溶胶形成过程研究","0532-66782565","xhyao@ouc.
edu.
cn""19","天津科技大学","41376112","面上","魏皓","东海50m、70m等深线","不限","不限","连续25小时每半小时进行颗粒物粒径谱、水下光谱和剪切谱的连续剖面观测,每小时采样测定沉积物上覆水和间歇水中的DIC、DOC、POC和其他营养盐","泥质、沙质沉积区等典型区域不同季节各选取一个连续站","D0608","黄东海碳通量季节、年际变化的模拟与机制分析","13072079535","weihao@ouc.
edu.
cn""20","厦门大学","41176112","面上","黄邦钦","东海北部、长江口区域、PN断面、台湾海峡北部","春季(4-5月)夏季(7-8月)","春、夏","青绿藻的组成、丰度、生物量及固碳速率时空变化规律.
浮游植物光合色素、粒级组成,POC输出通量.
",,"D0609","东海青绿藻的生态学研究","0592-2187783","bqhuang@xmu.
edu.
cn""21","厦门大学","41330959","重点","林森杰","东海长江口至福建沿岸赤潮高发区","5月15日——6月15日","春、夏","海区涉及藻类生长有关的物化指标,如光照度,浊度,营养盐浓度,溶解氧,PH值等.
采集藻类样品,尤其是可能的赤潮爆发样品.
现场固定样品并返回实验室分析赤潮爆发区域的物种结构,物种分布以及分子生态学数据","ZA,ZB,ZC断面FA,FB,FC断面.
(详细见后面附表)","D0609","通过生态基因组学分析探索东海原甲藻的生态适应机制",,"senjie.
lin@xmu.
edu.
cn""22","中国科学院南海海洋研究所","41306110","青年","张凌","东海大陆架","不限","不限","沉积柱,间隙水","附图","D0608","珠江口及近海细菌对有机质的改造:来自氨基酸异构体及碳稳定同位素的证据","020-89023991","lzhang@scsio.
ac.
cn""23","中国科学院海洋研究所","41106084","青年","姜静波","东海或南海水深大于70米","不限","不限","波浪驱动海洋剖面测量系统短期运行","自备波浪驱动海洋剖面测量系统","D0607","波浪驱动海洋剖面测量系统动力特性分析与仿真研究","82898736","jiangjingbo@qdio.
ac.
cn""24","南京师范大学","41273082","面上","刘金娥","东海--江苏:苏北盐城滩涂外海域(附图1);福建:罗源湾海域(附图3)","3月20-22日,7月29-31日,10月20-22日,12月28-30日","四季","观测海水潮流速度,CO2通量观测,水温,盐度,pH,气温,连续观测24小时.
海水垂直分层取样(用于分析悬沙含量、海水有机颗粒物含量、海水有机碳及海水稳定碳同位素丰度).
","江苏海域站位(附图2):1.
苏北射阳新洋港外,2.
大丰港港区北侧,3.
东台辐射沙洲海域.
罗源湾海域站位(附图4):1.
罗源湾内;2.
罗源湾外.
","D0308","互花米草盐沼土壤有机碳积累动态及其驱动机制研究","13585106973","liujine@njnu.
edu.
cn""25","中国海洋大学","41176096","面上","任景玲","东海陆架","4月、8月和11月","春、夏、秋","海水中溶解态锰、有机结合态锰、颗粒态锰及沉积物中不同结合态的锰","观测站位主要布设在东海陆架,每次40个左右","D0608","长江口及东海溶解态锰的分布、形态转化及其影响机制","13573866779","renjingl@ouc.
edu.
cn""26","中国计量学院","51374188","面上","王强","东海相关近海","不限","不限","CTD数据采集水文条件(海水温、盐、深剖面测量)、APDC等","东海DH4-1,DH4-2,DH4-3,DH4-4,DH4-5,DH4-6","E041004","基于分布式光纤传感技术的海底高压天然气管道泄漏检测方法","131850105820571-87676301","qiangwang@cjlu.
edu.
cn""27","浙江大学","41376095","面上","贺治国","舟山海域、东海","6-8月,10-11月","夏、秋、冬","温度、盐度、浊度、营养盐及海流剖面数据;风、浪数据.
","杭州湾舟山海域规划6条航线(每航线15站点),东海海域规划7条航线(每航线12站点).
","D0605","基于水沙动力过程的强潮河口及近海底边界层营养盐交换研究","13968116493","hezhiguo@gmail.
com""28","中国海洋大学","41210008","国际合作","高会旺","南黄海、东海","春季3月-5月,最佳时间是3月10日-4月30日沙尘多发时段","春","水体的分级叶绿素浓度,浮游植物、小型浮游动物种类与丰度","在黄海、东海分别选5个站位开展海洋物理、化学、生物环境要素的垂直剖面观测;走航过程中开展藻类培养实验;走航采集气溶胶样品.
","D0608","亚洲沙尘沉降对近海和大洋初级生产过程影响的对比研究","0532-66782977","hwgao@ouc.
edu.
cn""29","同济大学","41376047","面上","刘传联","东海和黄海","春季和冬季两个航次,每个航次约20天","春、冬","颗石藻分析","东海站位同2011年基金委共享航次站位;黄海站位覆盖全海区","D0603","东、黄海现代颗石藻及其环境响应","021-65984876","liucl@tongji.
edu.
cn""30","中国海洋大学","41376088","面上","张桂玲","东海和黄海","8月、12月","夏、冬","水体中溶解N2O和羟胺,水体硝化速率等","观测站位主要布设在东海和黄海,每次60个左右","D0604","典型边缘海羟胺的分布、产生和转化及其调控机制研究","13697686750","guilingzhang@ouc.
edu.
cn""31","中国海洋大学","41030858","重点","杨桂朋","东海和黄海","不限","不限","DMS,DMSP,叶绿素a,细菌总量,营养盐,溶解有机碳(DOC)氨基酸,碳水化合物.
","中国东海和黄海大面调查站位30-40个,连续观测站位1-2个.
","D0604","中国东海和黄海中生源硫的生产、分布、迁移转化与环境效应","13969887736","gpyang@ouc.
edu.
cn""32","国家海洋局第二海洋研究所","41322039","优青","何贤强","不限","夏、冬","夏、冬","水体归一化离水辐亮度、遥感反射率(含偏振测量);水体衰减系数、吸收系数、颗粒后向散射系数;水体组份吸收系数(CDOM吸收系数、颗粒吸收系数、非色素颗粒吸收系数).
","需要覆盖不同类型水体","D0610","海洋水色遥感","13588756817","hexianqiang@sio.
org.
cn""33","中国科学院烟台海岸带研究所","41176144","面上","秦松","东海及南海北部","9月-10月","秋","浮游植物的遗传多样性及丰度","航次的标准站位","D0609","高光和氮缺乏胁迫下十个雨生红球藻虾青素合成相关基因顺式作用元件的协同作用","0535-2109005","sqin@yic.
ac.
cn""34","中国科学院青岛生物能源与过程研究所","31271410","面上","宁康","东海,西太平洋海","春","春","标准层采水,温盐深数据","东海海域:DH2-1至DH7-1各站位,DH2-4至DH7-4各站位,DH2-7至DH7-7各站位.
西太平洋海域:18°N断面和130°E断面各站位.
","C060703","基于海量样本的高性能元基因组数据分析策略和方法开发","0532-80662624","ningkang@qibebt.
ac.
cn""船时项目分类列表-台湾海峡",,,,,,,"序号","单位","项目号","项目类型","船时申请人","海区","时段","季节","学科-项目","备注","学科代码","项目名称","电话号码","邮箱""1","厦门大学","41276063","面上","蔡毅华","台湾海峡","不限","不限","表层沉积物、沉积物岩芯采集及采水","遵循以往共享航次历史断面","D0604","基于231Pa/230Th活度比值重建近15万年来南海深层环流","13616027156","yihua_cai@xmu.
edu.
cn""2","厦门大学","41276007","面上","张文舟","台湾海峡","不限","不限","垂直剖面流、水温和盐度;走航流、水温、盐度和水深","分别在三个站点(119.
30E,24.
70N),(118.
94E,24.
40N)和(119.
50E,24.
38N)进行27小时连续逐时观测,其它大面观测站点待定.
","D0601","台风影响下台湾海峡环流变异研究","0592-2184209","zwenzhou@xmu.
edu.
cn""3","中国科学院海洋研究所","31172054","面上","沙忠利","台湾海峡","不限","春、夏、秋、冬","底栖生物采泥和拖网","底栖拖网和采泥的设备","C040201","中国海鼓虾科分类研究","53282898682","shazl@qdio.
ac.
cn""4","厦门大学","41106119","青年","陈炳章","台湾海峡","不限","不限","在现场水温和现场水温+3℃利用稀释法测定海水中微型浮游动物对浮游植物摄食率","与2013年一致","D0609","全球变暖对海洋微型浮游动物摄食浮游植物的影响","13799256446","bzchen2011@xmu.
edu.
cn""5","国家海洋局第三海洋研究所","41230529","重点(主持人:陈立奇)","詹力扬","台湾海峡","3月,6月","春、夏","N2O、CH4走航观测,水样采集","台湾海峡常规站位","D0611","南大洋N2O源汇格局:驱动机制及其对海洋N2O收支的影响","1340054796","liyangzhan@139.
com""6","厦门大学","31372167","面上","孙萍","台湾海峡、珠江口及南海近岸","春季、夏季与秋季","春、夏、秋","固着类原生动物的分子系统学;原生动物在水平和垂直方向上组成变化、分布规律;3、热带、亚热带近岸水体中原生动物群落结构与组分的比较研究","台湾海峡西南部C断面;全水柱采样、重点采集表层、DCM层及深层水体(至1400米深);3、珠江口沿盐度梯度的表层水和全水柱采集;4、南海近岸表层水体采集","C040202","福建滨海湿地固着缘毛类原生动物的分类学与分子系统学","0592-2880217","psun@xmu.
edu.
cn""7","厦门大学","41176112","面上","黄邦钦","台湾海峡海域至粤东上升流海区","春季(3-4月)夏季(7-8月)秋季(10-11月)","春、夏、秋","浮游植物种类组成、光合色素、粒级组成,初级生产力、新生产力、Chla,POC输出通量、微型浮游动物组成及其对浮游植物的摄食压力.
",,"D0609","东海青绿藻的生态学研究","0592-2187783","bqhuang@xmu.
edu.
cn""8","厦门大学","41171365","面上","吴水平","台湾海峡及南海北部","夏季及冬季","夏、冬","MOUDI、PAHs、nitro-PAHs、颗粒显微结构","莆田外海、厦门外海、福州外海和东山外海","D0109","紫外辐射和气溶胶有机组成对多环芳烃迁移能力的影响","0592-2188592","wsp@xmu.
edu.
cn""9","华东师范大学","41301214","青年","陈静","台湾海峡西北部","不限","不限(春、夏为好)","柱状样、表层沉积物获取.
","台湾海峡西北部(见附图)24.
7-26.
0N,119.
6-120.
5E5个站位(见附图),4个站位用于表层沉积物样品的采集,1个站位进行重力柱状样的采集.
","D0104","东海内陆架泥质区末端中晚全新世物源及其对洋流的指示","62231028","jchen@geo.
ecnu.
edu.
cn""10","国家海洋局第三海洋研究所","41376070","面上","王爱军","台湾海峡中北部海域","春、夏、秋、冬","春、夏、秋、冬","大面调查主要包括水体温度、盐度、浊度、叶绿素荧光、悬浮体浓度、现场粒度,以及采集表层沉积物、柱状沉积物等;投放与回收2个站位的座底三脚架及沉积物捕获器锚系.
","主要开展50个站位的大面调查及2个站位座底三脚架及沉积物捕获器锚系的投放与回收","D0603","突发性天气事件与流域过程对陆架泥质沉积记录形成与保存的影响","0592-2195056","ajwang@163.
com""11","厦门大学",,"两岸联合基金","洪华生","九龙江河口湾、厦金海域,台湾海峡西部近海","夏季、冬季台湾海峡河口湾-近海交界区各10个工作日","夏、冬","温度、盐度、叶绿素、浊度、溶解氧、Alk、营养盐、生物项目、CDOM、DOC、POC、悬浮颗粒物、沉积物观测项目等.
","待设计","L03","极端天气下台湾海峡动力环境演变与生态响应",,"12","厦门大学","61301098","青年","王德清","台湾海峡或中国南海","下半年","秋、冬","远程跳频水声通信系统,中近程正交频分复用水声通信系统","具有收发两端,相距10公里~50公里","F010203","基于协作频谱感知的水声传感器网络链路接入跨层设计关键技术研究","(0592)2580185","deqing@xmu.
edu.
cn""13","中国海洋大学","41206164","青年","楚晓亮","台湾浅滩","不限","不限","X波段雷达水深测量",,"D0610","基于X波段导航雷达的近岸浅水地形信息反演方法研究","13105186196","xlchu@ouc.
edu.
cn""14","厦门大学","41276006","面上","胡建宇","南海北部、台湾海峡南部","春季、夏季、秋季","春、夏、秋","温度、盐度、海流大面观测、断面观测与水位、海流锚系观测","春季航次进行3个站锚系潜标的布放及5~8个断面的大面观测;夏季航次进行5~8个断面的大面观测;秋季航次进行3个站锚系潜标的回收及5~8个断面的大面观测","D0601","南海北部陆架波观测与分析","0592-2186981","hujy@xmu.
edu.
cn""15","闽南师范大学","41206096","青年","黄旭光","台湾海峡海域至粤东上升流海区","春季或夏季","春或夏","微量金属镍的浓度和形态、尿素浓度、浮游植物组成",,"D0608","近海海水中镍的形态及生物可利用对浮游植物吸收尿素及其群落结构的影响","15892011680","huangxuguang@mnnu.
edu.
cn""16","闽南师范大学","21175115","面上","李顺兴","台湾海峡海域至粤东上升流海区","春季或夏季","春或夏","微量金属在水体、浮游植物、浮游动物中浓度及形态分布",,"B0511","表面修饰Fe3O4@SiO2@TiO2磁性纳米粒子吸附及可见光光催化在微量元素分析样品前处理中的应用","0596-2592563","lishunxing@fjzs.
edu.
cn""船时项目分类列表-南海深部过程综合航次(重大计划)"序号","单位","项目号","项目类型","船时申请人","海区","时段","季节","学科-项目","备注","学科代码","项目名称","电话号码","邮箱""1","中山大学","91128101","重大计划-培育","孙晓明","南海东沙和西沙盆地,包括台西南和神狐盆地","30天","不限","1.
现场采集自生沉积物样品;2.
现场测定温度、压力、pH、盐度等地球化学参数;3.
现场拍摄海底录像",,"D0304","南海海底冷泉喷口自生沉积物纳米矿物学和地球化学","13922110158","2","北京大学","91228209","重大计划-重点","周力平","南海、西太平洋、东印度洋","不限","春、夏、秋、冬","采集海水(表层至海底);采集海底表层沉积物及柱状沉积物岩心;测量海水温度(表层至海底)","深海区域、上升流区","D0604","南海深部过程的海水14C示踪研究","010-62756052","lpzhou@pku.
edu.
cn""3","山东大学","91228210","重大计划-重点","张玉忠","南海东北部","4月或9月","春或秋","深海沉积物及深海分层海水采集取样,从中分离或发现新型菌株及新型酶类.
并测定原位温度、盐度、深度,pH等","10-20°N,东经110-120°E内南海海域断面,附站位设计图","D0609","南海深海有机质的生物降解过程、机制及微生物在碳循环的作用","0531-88564326","zhangyz@sdu.
edu.
cn""4","上海交通大学","91228201","重大计划-重点","王风平","南海海盆区为主,主要集中在南海东北部,覆盖吕宋海峡","春或夏季,30天","春或夏","重点关注甲烷浓度,营养盐(硝酸盐、亚硝酸盐、铵盐、磷酸盐、硅酸盐;)、溶解氧、叶绿素等.
上覆水、沉积物孔隙水中甲烷、硫酸盐、硝酸盐等含量.
","10-20°N,东经110-120°E内区域及123°E吕宋海峡断面,附站位设计图:","D0308","南海深部微生物参与有机质、甲烷转化的作用、过程和机制的研究","021-34207208","fengpingw@sjtu.
edu.
cn""5","同济大学","91328208","重大计划-重点","方家松","南海北部和南部深海盆","季风或非季风季节均可","不限","(1)在以下深度采集海水样品:50米;200米;500米;1000米;2000米;3000米和4000米(2)沉积物捕获器布放深度:50米;1000米;2000米;4000米(3)温度、盐度、深度、pH、DIC、DO、营养盐,总碱度、叶绿素等.
","15.
5°N,112.
5°E;17.
2°N,117.
3°E","D0609","评价嗜高压细菌在南海深部碳循环中的作用","14782382788","jsfang@tongji.
edu.
cn""6","同济大学","91228204","重大计划-重点","刘传联","南海","所有航次","不限","颗石藻分析","类似2010年基金委航次站位","D0603","从室内培养到地质记录探索颗石藻在南海碳循环中的作用","021-65984876","liucl@tongji.
edu.
cn""7","同济大学","91128209","重大计划-重点","杨挺","南海","投放13个OBS所需航时约为96小时","春","被动源海底地震仪(OBS)记录的是全球中强震的宽频带、三分量地震信号(约6到7个月的时间内).
","北纬14°到16°,东经116°到119°之间的海区,海区位置图见一.
13个OBS站位的经纬度位置见二.
","D0603","海陆联合天然地震观测研究南海岩石圈及上地幔结构与过程","138-1880-7270","tyang@tongji.
edu.
cn""8","同济大学","91128206","重大计划-重点","刘志飞","南海东北部","4~5月份","春","(1)观测4条调查断面的温度、盐度、溶解氧、浊度、悬浮颗粒的空间变化,通过调查雾状层分布开展近底沉积物搬运的研究.
(2)每个断面选择2个站位开展分层海水大体积过滤作业,并针对雾状层开展大体积过滤,研究悬浮颗粒物通量.
(3)多波束地形调查,研究地形对底层海流的影响.
","南海东北部19~22N,117~120E范围.
4条断面共33个调查站位,每站CTD作业约3小时,其中每个断面有2个站位增加每站位12小时大体积过滤,约200小时(不含航渡时间);多波束地形调查约需40小时;合计240小时.
","D0603","南海东北部底层海流和沉积搬运过程的观测研究","021-65984877","lzhifei@tongji.
edu.
cn""9","厦门大学","91028001","重大计划-重点","焦念志","南海","春季或夏季","春或夏","微型生物典型功能类群的组成变化、分布规律;微型生物对溶解有机质的利用和转化的现场培养实验研究;微型生物的碳转化相关的宏组学研究(需大体积水样量);D型氨基酸分析.
","1、南海北部陆架自珠江河口至中心海盆(如SEATS站)断面;2、吕宋海峡横跨断面;3、中心海盆区域;4、全水柱采样,重点采集次表层及深层水体(至3000米深).
","D0608","南海微型生物生态过程及其在碳循环中的作用","0592-2185752","jiao@xmu.
edu.
cn""10","中国海洋大学","91028008","重大计划-重点","田纪伟","南海东北部深水区","4-5月","春","潜标回收与布放",,"D0601","南海东北部深层环流结构与变异","13969691886","tianjw@ouc.
edu.
cn""11","中国科学院广州地球化学研究所","91228206","重大计划-重点","陈多福","南海北部陆坡","30天","春或夏","南海北部活动冷泉区底层水体和海底沉积观测和采样","F站位:22.
1147N/119.
1205E,水深1168米;S3站位:22.
0475N/118.
7763E,水深770米;S2站位:22.
1423N/118.
7242E,水深550米;S1站位:22.
11490N/118.
8728E,水深480米;神弧:19.
8167N/116.
8550E,水深1555米;西沙:15.
9098N/110.
6401E,水深840米.
位置图见.
","D0603","南海北部海底冷泉探测及其活动特征研究","020-95290286","cdf@gig.
ac.
cn""12","中国科学院南海海洋研究所","91228207","重大计划-重点","向荣","南海北部","夏、秋","夏、秋","捕获器回收/布放,柱状岩芯取样,浮游拖网,表层沉积物","南海北部陆坡,西沙海槽收放捕获器","D0603","南海北部有孔虫、放射虫的现代过程研究及其古环境应用","020-89023146","rxiang@scsio.
ac.
cn""13","中山大学","91328203","重大计划-重点","殷克东","南海北部","2月18日-3月1日;8月1日-8月31日","春、夏","营养盐、碱度、颗粒有机碳/氮、溶解有机碳、溶解有机氮、溶解无机碳、溶解氧、碱度、pH","见","D0609","珠江陆源氮输入在南海北部产生的新碳汇和跨陆架深海储碳过程","13826102685","yinkd@mail.
sysu.
edu.
cn""14","中国科学院南海海洋研究所","91228202","重大计划-重点","王东晓","南海","4-5月;8-9月","春、秋","(1)全程走航式ADCP海流观测;(2)定点观测站CTD观测及采水;(3)定点观测站TurboMap海洋湍流混合观测;(4)2~3个深水潜标布放","海区设计了南海北部的北纬18度断面和南海南部、中部和北部定点观测站点.
","D0601","南海深层经向翻转流结构的观测与模拟","020-89023204","wangdx@scsio.
ac.
cn""15","厦门大学","91328202","重大计划-重点","戴民汉","以南海海盆区为主,主要集中在南海东北部,覆盖吕宋海峡","拟以南海海盆为主开展春季为时40天航次调查(夏季亦可).
","春或夏","温度、盐度、深度、营养盐(硝酸盐、亚硝酸盐、铵盐、磷酸盐、硅酸盐;)、走航CO2、走航DIC、走航pH、无机碳(溶解无机碳、pH、总碱度、溶解钙离子)、溶解氧、叶绿素等.
","10-20°N,东经110-120°E内区域及123°E吕宋海峡断面,附站位设计图:","D0604","南海深部生物地球化学-物理耦合过程对海-气界面CO2通量的调控","0592-2182132","mdai@xmu.
edu.
cn""16","厦门大学","91328209","重大计划-重点","党宏月","南海","每航次20~30天,最好春、夏、秋各一航次或其中两个季节各一航次.
","春、夏、秋","南海水体及沉积环境化能自养微生物固碳过程与机理.
","15~20个左右.
","D0609","南海化能自养微生物固碳过程和机理","15960390581","DangHY@xmu.
edu.
cn""17","厦门大学","91328207","重大计划-重点","高树基","南海","于2014年春季(夏季亦可)开展航次调查,为期40天.
","春或夏","硝酸盐浓度及其稳定氮、氧同位素;N2O浓度及其稳定氮、氧同位素;水体DON浓度及其稳定氮同位素;硝化作用速率及硝化过程N2O产率培养实验;南海缺氧水体反硝化速率培养实验;真光层新生产力速率培养实验;沉降颗粒碳、氮含量及其稳定同位素;POC,PON,TSM,光照、浊度等.
","拟以南海海盆为主要研究海区,覆盖范围为10-20°N,110-120°E内区域及123°E吕宋海峡断面,站位设计如图1.
另外希望尽量可以在吕宋口东侧到西菲律宾海也有断面的采样与观测.
","D0604","南海水体硝酸盐动力学与水团示踪","0592-2880178","sjkao@xmu.
edu.
cn""18","厦门大学","40923007","优秀国家重点实验室研究项目","王海黎","南海,具体作业海区不限,服从最后确定的工作区域.
","不限","不限","水体表观光学量:向下辐照度,向上辐亮度,海表向下辐照度;固有光学量:后向散射系数,射束衰减系数","每一个航次约30-40个站位.
","D0608","南海生物泵及微型生物代谢过程对中尺度物理过程的响应机制",,,"19","厦门大学","41276063","面上","蔡毅华","南海","不限","不限","表层沉积物、沉积物岩芯采集及深层水采水","观测站位见附图:1.
吕宋海峡及其两侧共三个断面约13个站位(黑色圆点站位);2.
围绕南海中央海盆沿陆坡走向(~2500米等深线)约15个站位(红色三角形站位及南海西部两个白色正方形站位);3.
南海中央海盆中部约9个站位(橙色三角形站位及南海东部两个白色正方形站位);4.
吕宋海峡至南海中央海盆中心西南向约3个站位(黑色三角形站位).
","D0604","基于231Pa/230Th活度比值重建近15万年来南海深层环流","13616027156","yihua_cai@xmu.
edu.
cn","20","厦门大学","41176095","面上","张瑶","南海","春季或夏季","春或夏","细菌、古菌介导氮循环的各主要功能群的丰度分布、系统发育多样性;细菌、古菌介导氮循环的各主要功能群的代谢活性特征;细菌、古菌对溶解有机质的利用转化特征.
","1、南海北部陆架自珠江河口至中心海盆(如SEATS站)断面;2、吕宋海峡横跨断面;3、中心海盆区域;4、全水柱采样,重点采集次表层及深层水体(至3000米深).
","D0608","驱动南海氮循环关键过程的细菌、古菌功能群分布、多样性及活性特征",,,"21","厦门大学","41276062","面上","蔡平河","南海北部陆架区.
","夏、冬两季2个航次,每一航次需用船时48小时.
","夏、冬","海水及沉积物中的234Th及POC.
","三条断面共18个站位.
","D0604","南中国海陆架区颗粒有机碳的跨陆架输运","0592-2182811","caiph@xmu.
edu.
cn","22","厦门大学","41376116","面上","史大林","以南海海盆区为主,主要集中在南海东北部,覆盖吕宋海峡","夏","夏","束毛藻的叶绿素、固氮速率、固碳速率、光合作用效率、固碳和固氮相关蛋白的表达,以及海水温度、盐度、DIC、Alk、pH和氮、磷营养盐组成与浓度,等","118.
5E,19-20.
6N和122.
5E,19-20.
6N","D0608","铁限制条件下梳毛藻对海洋酸化的响应及其机理","0592-2182322","dshi@xmu.
edu.
cn","23","中国海洋大学","41176010","面上","赵玮","吕宋海峡","4-5月","春","潜标回收与布放",,"D0601","吕宋海峡深层环流的调控机制及影响因素","15053295123","weizhao@ouc.
edu.
cn","船时项目分类列表-南海北部综合",,,,,,,"序号","单位","项目号","项目类型","船时申请人","海区","时段","季节","学科-项目","备注","学科代码","项目名称","电话号码","邮箱""1","华南师范大学","31370235","面上","李扬","东海和南海","不限","不限","海洋微藻活体样品的采集","东海和南海水域的站位","C020202","海链藻属硅藻的形态分类和分子系统研究","020-85217621","liyang@scnu.
edu.
cn""2","中国海洋大学","41276008","面上","陈学恩","吕宋海峡及以西南海北部深水区和南海北部陆架区","不限","不限","随时间变化的温盐流剖面","A1(120°E,21°N),A2(120°E,20°30'N),A3(120°E,20°N)A4(120°30'E,20°30'N),A5(119°30'E,20°30'N)","D0601","南海内波的生成、传播及其三维性","13969718201","xchen@ouc.
edu.
cn""3","国家海洋局第二海洋研究所","41321004","创新群体","陈大可","南海","4月~6月","春、夏","布放5套浮标和4套潜标","共计作业船时9天,站位附图表.
","D0601","海洋动力环境的监测和预测研究","0571-81963101","dchen@sio.
org.
cn""4","中国科学院南海海洋研究所","U0933005","联合基金","曹文熙","南海","7月-9月","夏、秋","海洋生物光学参数:包括浮游植物粒级结构、色素组分、叶绿素荧光、颗粒物粒级分布、颗粒有机物浓度、海水表观光学参数、各组分吸收光谱、吸收/衰减及后向散射光谱;海洋水文参数:包括温度、盐度、密度和海流等数据","依据航次设计,覆盖南海近岸受海洋物理过程影响的典型区域","L03","南海近海水域水色要素动态变化及其机理研究","020-89023168","wxcao@scsio.
ac.
cn""5","国家海洋局第二海洋研究所","41376033","面上","廖光洪","南海","4月~6月","春、夏","布放锚系和开展MSS90D或(CTD+LADCP)作业","作业船时4天,附图","D0601","南海北部内波模态-能量转换与海洋混合过程研究","0571-81963082","liaogh1101@sio.
org.
cn""6","厦门大学","41276064","面上","郭卫东","南海","夏季","夏","有机物表征及生物降解","生物化学站位","D0604","DOM生物可利用性的时空演变及其调控机制","0592-2185212","wdguo@xmu.
edu.
cn""7","中国科学院南海海洋研究所","41076014","面上","曹文熙","南海","7月-9月","夏、秋","海洋生物光学参数:包括浮游植物粒级结构、色素组分、叶绿素荧光、颗粒物粒级分布、颗粒有机物浓度、海水表观光学参数、各组分吸收光谱、吸收/衰减及后向散射光谱;海洋水文参数:包括温度、盐度、密度和海流等数据","依据航次站位设计,覆盖各个受海洋物理过程影响的典型区域","D0602","南海北部中尺度涡的生物光学响应","020-89023168","wxcao@scsio.
ac.
cn""8","中国科学院南海海洋研究所","41376042","面上","曹文熙","南海","7月-9月","夏、秋","海洋生物光学参数:包括浮游植物粒级结构、色素组分、叶绿素荧光、颗粒物粒级分布、颗粒有机物浓度、海水表观光学参数、各组分吸收光谱、吸收/衰减及后向散射光谱;海洋水文参数:包括温度、盐度、密度和海流等数据","依据航次站位设计,覆盖各个受海洋物理过程影响的典型区域","D0602","浮游植物种群结构的遥感模式及应用分析","020-89023168","wxcao@scsio.
ac.
cn""9","中国科学院南海海洋研究所","41176083","面上","李彩","南海","7-9月","夏、秋","海水散射特性以及吸收、衰减系数等海水固有光学特性参数;海洋水文参数:包括温度、盐度、密度和海流等数据海洋生物光学参数:包括浮游植物粒级结构、色素组分.
","依据航次站位设计","D0607","基于广角测量技术的典型水体体散射函数角度及剖面分布特征","020-89023346","liclaire@scsio.
ac.
cn""10","中国科学院南海海洋研究所","U1033002","联合基金","尚晓东","南海北部","潜标:3天","不限","湍流通量、混合及水文要素","随同各站位所用时间","D0601","南海北部陆架陆坡区内潮混合及其生态响应研究",,"xdshang@scsio.
ac.
cn""11","厦门大学","41276065","面上","李春园","南海北部","春、夏、冬","春、夏、冬","现场观测项目包括:温度、盐度、深度、pH、风向、风速、叶绿素等;并采集用于单颗粒、同位素POC输出通量研究所需的样品","主要为A断面及SEATS站","D0604","南海北部含碳颗粒类型与颗粒碳来源及颗粒有机碳输出的控制因素研究","13666075621","cyli@xmu.
edu.
cn""12","中国海洋大学","41376086","面上","刘素美","南海北部","春、夏、秋、冬","春、夏、秋、冬","溶氧,营养盐,叶绿素;14N15N:14N14N;15N15N:14N14N;15NH4+;氮的形态等","选取5-8个站位作为重点研究站位,同时进行现场观测和受控培养实验,添加氮稳定同位素,开展氮循环关键过程的研究;选取20-25个站位(包括重点站位)开展沉积物中氮的形态、有机碳和分层间隙水的采集与分析,以给出整个观测区域高分辩率的沉积物各参数的剖面.
","D0604D0608","南海北部沉积物中氮循环的关键过程研究","0532-66782100","sumeiliu@ouc.
edu.
cn""13","中国科学院南海海洋研究所","41276021","面上","陈桂英","南海北部","不限","不限","湍流通量及混合","在(18°N,118.
5°E)海域","D0601","南海南部湍流混合研究","","gychen@scsio.
ac.
cn""14","中国科学院南海海洋研究所","41276162","面上","谭烨辉","南海北部","240hr","不限","常规观测指标包括温盐(CTD剖面及表层走航)、海流(ADCP走航自动记录)、气象(走航自动记录)、溶解态Al及其他营养盐(不同形态的N,P,Si)、叶绿素、DOC等","30站位","D0609","铝对海洋浮游植物的生长效应及其机理研究","020-89021159","tanyh@scsio.
ac.
cn""15","中国科学院南海海洋研究所","31270528","面上","吴梅林","南海北部","不限","夏、冬","海水温、盐、DO、pH等海洋环境参数,三氮(硝酸盐、亚硝酸盐以及铵盐),浮游植物的生物量(丰度)、种群组成以及硝化速率.
","选取有代表性的站位:主要包括珠江口外海区、粤东近岸海域、吕宋海峡以及琼东近海东部海域.
","C030802","南海北部真光层亚硝酸盐最大值形成机制","15915770963","mlwu@scsio.
ac.
cn""16","国家海洋局南海海洋工程勘察与环境研究院","41306168","青年","陈绵润","南海北部","不限","不限","温盐项目、浮游动物群落组成、浮游植物脂肪酸成分、浮游动物摄食率和繁殖率","南海北部大陆架、珠江口、大亚湾等富营养化海域","D0609","近岸富营养化水体食物营养质量对桡足类繁殖力和营养级联效应的影响","13560335193","cmrandyster@gmail.
com""17","中国科学院南海海洋研究所","41006011","青年","舒业强","南海北部","7-9月","夏、秋","温、盐、流","汕尾至汕头外海","D0601","夏季珠江冲淡水时空结构特征的航次、遥感资料同化研究","020-89023205","shuyeq@scsio.
ac.
cn""18","厦门大学","41276006","面上","胡建宇","南海北部(北纬18度以北)","夏季","夏","温度、盐度、海流大面观测、断面观测与水位、海流锚系观测","航次前、后进行1~3个站锚系潜标的布放、回收及5~10个断面的大面观测","D0601","南海北部陆架波观测与分析","0592-2186981","hujy@xmu.
edu.
cn""19","中国科学院南海海洋研究所","41230962","重点","张偲","南海北部、吕宋海峡及南海西部沿岸海域","8月01日-8月15日","夏","南海关键海域的水文、生化要素观测,以及水样采集.
","本申请计划在南海北部、吕宋海峡及南海西部越南沿岸等关键海域设置控制断面,开展水文与生化要素的现场观测,并采集水样.
航次观测站位如图所示.
","D0609","季风环流影响下的南海海洋细菌多样性特征及其生物海洋学意义","020-89023105","zhsimd@scsio.
ac.
cnlijietaren@scsio.
ac.
cn""20","中国科学院南海海洋研究所","41106105","青年","潘刚","南海北部海区或整个南海","7-9月","夏、秋","温盐深、海洋混合、Chla、溶解氧浓度和浊度等生物光学指标;化学方法测Chla和NO3","全部站位,100米以浅海水","D0608","台风扰动对海洋新生产力增强效应的全遥感定量模拟研究","18929560608","gpan@scsio.
ac.
cn""21","中国科学院南海海洋研究所","41206011","青年","曾丽丽","南海北部海区及粤东近岸海区","8-9月","秋","(1)全程走航式ADCP海流观测;(2)定点观测站CTD观测及采水;(3)定点观测站TurboMap海洋湍流混合观测;(4)2~3个深水潜标布放;(5)全程自动气象站观测;(6)全程走航SBE21型表层CT观测;(7)定时GPS探空气球布放","海区设计了南海北部的北纬18度断面和南海北部定点观测站点,其中包括全程走航观测海气边界层的通量观测;每天定时布放GPS探空气球","D0601","南海盐致障碍层及其对区域海气相互作用的影响","020-89109741","zenglili@scsio.
ac.
cn""22","中国科学院南海海洋研究所","U1033003","联合基金","齐义泉","南海北部陆架海域(粤东、珠江口及海南岛东部海域)","7月01日-8月31日","夏","水文与生态要素观测","本申请计划在南海北部典型上升流区开展生态环境要素的加密观测,并布放潜标系统一套.
观测要素包括温度、盐度、流速、溶解氧、叶绿素浓度、浮游动植物等,航次观测站位如图点线所示,潜标系统布放点为图中红色星号处.
附图","L03","南海近岸海域上升流时空演变特征及其生态环境效应","020-89023211","qiyiquan@scsio.
ac.
cn""23","厦门大学","41176060","面上","王德利","南海北部陆架区","夏、冬两季2个航次,每一航次不需要额外船时.
","夏、冬","海水及颗粒物样口.
","珠江口至南海北部的一条断面(A),和SEATS站(116oE,18oN).
","D0604","自然水体中痕量金属元素钼对浮游植物影响研究","0592-2182682","deliwang@xmu.
edu.
cn""24","中国科学院南海海洋研究所","41106028","青年","石睿","南海北部陆架区及粤东近岸海区","12月","冬","(1)全程走航式ADCP海流观测;(2)定点观测站CTD观测及采水;(3)定点GPS探空气球布放;(5)全程自动气象站观测;(6)全程走航SBE21型表层CT观测;(7)全程走航涡动通量观测,辐射观测","4个断面共设36个XBT和GPS探空站点,18个CTD站点,作业区间总航程约1300海里,按巡航船速10海里/小时计,总航行时间130小时,作业时间只考虑CTD站点,以半小时计,总共作业时间9小时,整个航次总需最少时间为140小时(7天)左右.
","D0601","南海热盐锋面对大气的影响以及大气的反馈作用","020-89024715","ryn.
shi@gmail.
com""25","中国科学院南海海洋研究所","41006012","青年","俎婷婷","南海北部陆架区及珠江口近岸海区","1-3月、6-9月","夏、冬","高垂向分辨率的温度、盐度、流速的定点、断面观测.
(1)连续24小时定点、断面温度盐度观测;(2)连续24小时定点、断面海流观测(3)连续24小时定点、断面海洋湍流混合观测;定点大气(气温、风速、风向、降水等)观测","珠江口口门外,以及珠江口东西两侧的上下川岛、黄茅海、大鹏湾、大亚湾外的垂直于岸界的断面.
珠江口门外平行于岸界20-30米水深线附近的断面.
","D0601","珠江冲淡水以及河口邻近海区的环流对季风、淡水径流、潮汐的响应","020-89024715","zutt@scsio.
ac.
cn""26","中国科学院南海海洋研究所","41306016","青年","徐驰","南海北部陆坡陆架区","不限","不限","水文要素","随同各站位所用时间","D0601","全球中尺度涡的机械能水平输运研究",,"xuchi@scsio.
ac.
cn""27","中国计量学院","51379198","面上","严天宏","南海北部陆坡区","不限","不限","1、了解海洋风浪对海上钻井平台的影响;2、进行海洋生产系统如钻井平台在线及无人自主监测的可行性和合理性探讨.
","22°13′26.
78″N,119°21′07.
89″E;18°21′52.
33″N,111°56′51.
49″E","E091002","大尺度环境下水下航行器的一体化多目标建模与优化及最优轨迹创成方法","13606803891","thyan@163.
com""28","中国计量学院","41376111","面上","李青","南海北部陆坡区","不限","不限","1.
观测海底沉积物、陆架边坡;2.
观测海上钻井平台;3.
进行对海底沉积物、陆架边坡的插入试验,了解能插入的最大深度、压力.
","22°13′26.
78″N,119°21′07.
89″E;18°21′52.
33″N,111°56′51.
49″E.
","D0607","海底沉积物和陆架边坡位移原位长期观测的传感方法研究","13306532957","lq13306532957@163.
com""29","厦门大学","41076043","面上","杨伟锋","南海东北部","每个站位40分钟,共计16小时","不限","海水中210Pb、210Po和颗粒物;沉积物中210Pb","沿陆架至深海区布设4条断面,每个断面6个站位,共计24个站位","D0604","台湾海峡边界清除作用的同位素示踪","18046428918","wyang@xmu.
edu.
cn""30","同济大学","41106013","青年","张艳伟","南海东北部陆架区","4月,7月,10月,1月","春、夏、秋、冬","需要观测海表面风场、气压、气温、湿度、太阳辐射;整个水深上的温度、盐度、压强、流速、湍动能耗散率","南海东北部19~22N,117~120E范围(见图).
","D0601","南海北部陆架区日温跃层特征及其湍流混合机理","021-65981506","ywzhang@tongji.
edu.
cn""31","中国科学院深圳先进技术研究院","31300399","青年","郭亮","珠江口","7或8月,12月","夏、冬","细菌,水体营养盐,浮游植物,浮游动物,表层沉积物","附图","C030604","珠江口好氧不产氧光合细菌的分布、多样性及其调控机制研究","18688419339","guoliang@giat.
ac.
cn""32","中国科学院南海海洋研究所","U1133002","联合基金","颜文","南海北部陆架(粤西近海陆架区)","4-6月","春","柱样采集","共设计9个站位(见附图)","D02","南海北部主要金属和稀有矿产的分布规律与成藏机制","13501546050","wyan@scsio.
ac.
cn""33","中国科学院南海海洋研究所","31270163","面上","洪义国","南海海域(临近珠江口)","不限","不限","水体营养盐5项,pH及总碱度,温盐深,标准层海水样品过膜","约20个站位(见附图)","C010502","珠江口硝化-反硝化-厌氧氨氧化耦合过程驱动的脱氮机制及关键环境影响因素研究","020-89023345","Yghong@scsio.
ac.
cn""34","天津科技大学","41176136","面上","孙军","南海","1-2,4-5,7-8,11-12","春、夏、秋、冬","浮游植物水样和网样采集,叶绿素实验,浮游动物拖网实验","任务计划设定的采样站位","D0609","海洋硅藻的硅质化过程及相关中国海生物碳汇研究","022-60601116","phytoplankton@163.
com""35","厦门大学","41076133","面上","蔡明刚","南海北部","遵守基金委航次安排,希望有20-30天的考察时间","不限","CFCs、SF6","表层与全深度标准层采样,站位数约80-100个.
","D0611","普里兹湾及其以北南大洋海洋学过程的CFCs和SF6示踪研究","0592-2886188","mgcai@xmu.
edu.
cn""36","中国科学院南海海洋研究所","41276051","面上","张兰兰","南海北部和深海区","夏、秋","夏、秋","南海深海区的微体古生物空间和季节变化","3-4个深水分层浮游拖网站位,8-10个浅水分层浮游拖网站位","D0603","南海深海区的现代放射虫及其对水团的指示意义","13450378749","llzhang@scsio.
ac.
cn""37","中国科学院海洋研究所","41306020","青年","南峰","西北太平洋吕宋海峡及以东海域","不限","不限","温、盐","吕宋海峡断面(121E,18-22E)菲律宾以东(18N,122-130E)台湾以东(23N,122-130E)","D0601","北赤道流年际变化对黑潮入侵南海的影响研究","0532-82888991","nanfeng0515@qdio.
ac.
cn""38","中国科学院海洋研究所","41206019","青年","王铮","西太平洋、吕宋海峡和南海北部","夏、冬","夏、冬","温度,盐度,海流","附站点","D0601","季风和中尺度涡旋对吕宋海峡黑潮路径迟滞变异过程的影响","13583268038","wangzheng@qdio.
ac.
cn",,,,,,,,,,,"船时项目分类列表-南海西部""序号","单位","项目号","项目类型","船时申请人","海区","时段","季节","学科-项目","备注","学科代码","项目名称","电话号码","邮箱""1","国家海洋局第二海洋研究所","41276095","面上","朱小华","南海海南岛东南部海区","不限","不限","根据回收并补防5个声学设备,并沿海南岛东南部卫星海面高度计轨道进行CTD温盐深观测和ADCP流速观测","2-3天.
南海海南岛东南部海区(约111°E~112°E,17°N~19°N,具体位置见附图)P1、P2、P3、P4、P5站(具体位置见附图)","D0607","沿海流场声层析研究","0571-81963090","xhzhu@sio.
org.
cn""2","中国科学院南海海洋研究所","41306012","青年","何云开","南海琼东-粤东沿海","春、冬","春、冬","海气边界层,GPS探空","走航观测","D0601","海洋热状况对南海北部局地海雾季节变化的影响","020-89022669","heyk@scsio.
ac.
cn""3","中国科学院南海海洋研究所","41376022","面上","尚晓东","南海全境","潜标:3天","不限","湍流通量、混合及水文要素","随同各站位所用时间","D0601","南海台风诱发的近惯性振荡的演化特征",,"xdshang@scsio.
ac.
cn""4","厦门大学","41076133","面上","蔡明刚","南海西部","不限","不限","表层至底层全深度标准层采样,站位数约40-60个.
","遵守基金委航次安排,希望有20-30天的考察时间.
","D0611","普里兹湾及其以北南大洋海洋学过程的CFCs和SF6示踪研究","0592-2886188","mgcai@xmu.
edu.
cn""5","厦门大学","41330961","重点","黄邦钦","南海西部(越南外海)、南海北部、台湾海峡南部","夏季(7-8月)","夏","浮游植物种类组成、光合色素、粒级组成、微型浮游动物组成及其对浮游植物的摄食压力.
",,"D0609","南海浮游生态系统结构及其生物泵效率的调控机制","0592-2187783","bqhuang@xmu.
edu.
cn""6","华南理工大学","41275130","面上","赖森潮","南海西部、华南近海","不限","不限","大气气溶胶、挥发性有机物、大气持久性污染物","(1)华南沿海海域设置20个站位(2)南海西部海域设置25个站位(附图)","D0510","海源有机物排放及其对大气气溶胶特性影响的研究","13570974216","sclai@scut.
edu.
cn""7","厦门大学","41206062","青年","张润","南海西部综合航次:重点是南海海盆区及琼东上升流海区;西太平洋航次:重点是黑潮流影响区域","夏季为主","夏","海洋化学","每个航次~40个","D0604","南海弱光层固氮作用的研究","13599518033","zhangrun@xmu.
edu.
cn""8","中国科学院南海海洋研究所","41106028","青年","石睿","南海西沙群岛附近海区","4月或5月","春","(1)全程走航式ADCP海流观测;(2)定点观测站CTD观测及采水;(3)定点GPS探空气球布放;(5)全程自动气象站观测;(6)全程走航SBE21型表层CT观测;(7)全程走航涡动通量观测,辐射观测","2个断面共设26个XBT和GPS探空站点,13个CTD站点,作业区间总航程约1100海里,按巡航船速10海里/小时计,总航行时间110小时,作业时间只考虑CTD站点,以半小时计,总共作业时间7小时,整个航次总需最少时间为120小时(6天)左右.
","D0601","南海热盐锋面对大气的影响以及大气的反馈作用","020-89024715","ryn.
shi@gmail.
com""9","中国科学院海洋研究所","41306019","青年","刘泽","南海中北部深海海盆、越南以东外海海域","7~10月份","夏、秋","海洋动力环境常规观测,包括海温、盐度、荧光叶绿素等的剖面观测和常规气象走航观测.
","无特殊站位要求,服从开放航次总体安排.
","D0601","上层海洋对热带气旋强迫的脉冲型生物学响应研究","0532-82898516(办)13589269729(手机)","liuze@qdio.
ac.
cn""10","中国科学院南海海洋研究所","41176034","面上","周生启","南海中部西沙群岛至北部陆架坡","2-6月和9-11月","春、秋","观测南海北部垂向混合强度、温、盐、速度、温度扰动量,湍流耗散量以及溶解氧含量.
","范围设置在7°N-20°N,110°E-120°E之间,设置站位40-50个,设置3个纬线断面,在北部陆架坡、吕宋海峡西侧以及西沙群岛加密站点设置,分别设置10个站点.
","D0601","南海海底地热流对深海物理环境的影响","020-89023215","sqzhou@scsio.
ac.
cn""11","厦门大学","41206061","青年","郭香会","琼东上升流海区(海南岛东部、东南部及广州湾)200m以浅的区域.
","上升流季节(7-8月)中的15天","夏","温度、盐度、深度、海表CO2分压(pCO2)、水柱溶解氧(DO)、溶解无机碳(DIC)、pH、总碱度(TA),溶解态钙离子(Ca2+)、营养盐、大气CO2分压.
","不限","D0604","南海北部上升流中碳酸钙饱和度及其影响因素研究","0592-2182811","xhguo@xmu.
edu.
cn""12","北京理工大学","41175119","面上","张韫宏","南海","7-12月某月","夏、秋、冬某季节","海水的化学组成分析以及海盐气溶胶风化动态过程,不同样品的拉曼和红外测量","沿广州珠江口1、香港2、澳门3、海口4、三亚5、北部湾5距离海岸20-50公里取样","D0511","气溶胶风化动态过程的时间和空间分辨观测","010-68913596","yhz@bit.
edu.
cn""13","中国海洋大学","21372208","面上","顾谦群","南海","春秋季节较好,其他季节也可以.
","春、秋","海底沉淀物中的微生物.
","主要采集100米深度以下区域,重点在1000米的深海样品、海底沉淀物.
","B020403","海洋微生物中结构新颖次级代谢产物的发现与生物活性研究","82032065","guqianq@ouc.
edu.
cn""14","中国科学院海洋研究所","41176132","面上","类彦立","南海","不限","不限","水深、海流、水温、盐度、海况、浊度、风速、风向、气温、气压、相对湿度,表层沉积物、悬浮体粒级与浓度","南海所有站位","D0609","黄海现生底栖有孔虫多样性与生态分布,50年区系演变能否解释全球变化","82898795","leiyanli@qdio.
ac.
cn""15","中国科学院南海海洋研究所","41176101","面上","王友绍","南海","2-10月","春、夏、秋","自然变化对南海北部近海红树生态系统的影响","与南海航次观测设置站位同步","D0608","红树林生态系统对气候异常变化的响应与适应",,"16","天津科技大学","41276124","面上","孙军","南海","1-2,4-5,7-8,11-12","春、夏、秋、冬","浮游植物水样和网样采集,叶绿素样品采集,浮游动物拖网实验,培养实验","任务计划设定的采样站位","D0609","印度洋浮游植物功能群初级生产调控因子与碳输出效率研究","022-60601116","phytoplankton@163.
com""17","广东省微生物研究所","31272087","面上","章卫民","南海","不限","不限","海底沉积物的采集、深海真菌的分离培养","在1000米以下的深海典型区域选取约20-30个站位.
","C140601","深海真菌抗植物病原真菌菌株的筛选及其活性物质研究","020-3765632113600499900","wmzhang58@qq.
com""18","山东省科学院","41206165","青年","杨倩","南海","11-12月","冬","海洋光学参数(包括水下光谱辐射、吸收系数、散射系数等)、海面风速、叶绿素浓度、气溶胶光学厚度","观测站位覆盖近岸和大洋,具体站位依据航次设计","D0610","风生海中气泡对海色遥感大气校正的影响及定量修正","13864808587","qian.
yang@ymail.
com""19","中国科学院南海海洋研究所","41206131","青年","黄思军","南海","6-12月","夏、秋、冬","海洋水体的温度、盐度、色素浓度(Chla),采集海水微生物过滤样品,噬菌体颗粒浓缩样品.
","南海北部,越南上升流区,吕宋海峡,南海北纬18度断面","D0609","中国南海微型蓝细菌与蓝细菌噬菌体的遗传多样性与生态位适应性研究","15989176950","huangsijun@scsio.
ac.
cn""20","中国石油大学(华东)","41106040","青年","徐方建","南海","不限","不限","沉积物取样","南海北部站位,附图","D0603","珠江口西南侧南海陆架末次冰消期以来东亚季风演化的沉积记录","13806448770","xufangjiangg@163.
com""21","天津科技大学","41306118","青年","冯媛媛","南海","1-2,4-5,7-8,11-12","春、夏、秋、冬","碳酸盐体系测定,现场培养实验","任务计划设定的采样站位","D0609","海洋酸化和暖化对中国海颗石藻光合与钙化作用及种群结构的影响研究","022-60601116","f.
yuanyuan@gmail.
com""22","天津科技大学","41306119","青年","张翠霞","南海","1-2,4-5,7-8,11-12","春、夏、秋、冬","采集环境参数水样、膜样,现场试验","随船选取重点站位","D0609","海洋酸化对东印度洋微型浮游动物群落及摄食影响研究","15022136225","zhangcuixia_20@163.
com""23","中国科学院南海海洋研究所","41130855","重点","黄良民","南海","240小时","不限","常规观测指标包括温盐(CTD剖面及表层走航)、海流(ADCP走航自动记录)、气象(走航自动记录)、营养盐(不同形态的N,P,Si)、叶绿素、DOC等,主要观测不同粒级浮游生物的丰度及由此衍生的POC含量与时空变化.
","40站位","D0609","超微型光合生物对南海生物泵的贡献与生态调控","020-89023137","hlm@scsio.
ac.
cn""24","中国食品发酵工业研究院","31300008","青年","刘洋","南海(永兴岛附近)","不限","不限","西沙群岛野生诺尼种质资源调查,并采集植物种子样本","西沙群岛永兴岛","C0101","西沙群岛野生诺尼种子内生菌的群落结构与多样性研究","13811073791","ly81150@163.
com""25","中国海洋大学","31172058","面上","郑小东","南海、东海和黄海","南海及南海诸岛以1-6月、9-12月为宜东海和黄海以4-10月份为好.
","春、夏、秋、冬","海洋贝类资源调查和采集","30-50个,覆盖浅海和深海区","C040202","基于线粒体全序列的蛸科头足类系统发育与分类学研究","532-82032873","xdzheng@ouc.
edu.
cn""26","中国科学院南海海洋研究所","41276022","面上","经志友","南海、海南岛东部","7月01日-8月31日","夏","琼东海域水文要素观测","本申请计划在海南岛东南部海域设计1-2个加密走航观测断面(站点间隔5km),开展温、盐、流等水文要素的现场观测.
","D0601","南海北部琼东海域夏季海洋锋的时空变异特征及其动力机制研究","020-89100068","jingzhiyou@scsio.
ac.
cn""27","中国科学院南海海洋研究所","41176035","面上","王桂芬","南海,重点包括粤东、琼东及越南沿岸上升流区等","7月-9月","夏、秋","海洋生物光学参数:包括浮游植物粒级结构、色素组分、叶绿素荧光、颗粒物粒级分布、颗粒有机物浓度、海水表观光学参数、各组分吸收光谱、吸收/衰减及后向散射光谱;海洋水文参数:包括温度、盐度、密度和海流等数据","依据航次站位设计,覆盖各个受海洋物理过程影响的典型区域","D0602","南海北部典型上升流区水体光学特性及其对生态环境变化的指示作用","020-84454237","guifenwang@scsio.
ac.
cn""28","中国科学院南海海洋研究所","41306014","青年","隋丹丹","南海北部陆架区及西沙群岛附近海域","8月","夏","(1)全程走航式ADCP海流观测;(2)定点观测站CTD观测及采水;(3)定点GPS探空气球布放;(5)全程自动气象站观测;(6)全程走航SBE21型表层CT观测;(7)全程走航涡动通量观测,辐射观测","海区设计了南海北部定点观测站点和西沙群岛附近海域的GPS探空观测,其中包括全程走航观测海气边界层的通量观测","D0601","南海北部夏季热通量变化对海洋大气边界层的影响","020-89024757","sui@scsio.
ac.
cn""29","国家海洋局第二海洋研究所","91128212","重大计划-重点","陈建芳","南海西北部和西部海域","4-7月","春、夏","沉积物捕获器锚系的布放;现场水样采集和测定(溶解氧、营养盐、颗粒碳和氮、硝酸盐碳氮同位素、色素及生物硅等参数)","捕获器站位:SCS-NW(17°30′N,110°30′E);SCS-W(15°27′N,112°37′E)采水区域:南海北部(17-22°N,109-121°E);南海西北部(14-17°N,109-116°E)","D0604","南海北部"生物泵"全深度锚系观测及调控机制研究","0571-81963211","biogeo_chen@hotmail.
com""船时项目分类列表-南海北部地球物理",,,,,,,"序号","单位","项目号","项目类型","船时申请人","海区","时段","季节","学科-项目","备注","学科代码","项目名称","电话号码","邮箱""1","中国科学院地质与地球物理研究所","41374139","面上","徐亚","南海北部","不限","不限","拖曳式海底电磁场探测.
本项目在航次走航经过南海北部水深较大海区时(水浅区工业干扰大),将4台海底电磁仪投放海底(每台投放时间约为30分钟,投放点位可以与整个航次计划协商而定),点距为3km.
投放后进行电磁发射实验.
海底仪器可以待整个航次任务完成返航时再行回收.
回收时间每台约为2-3小时.
","4个站位","D040901","华南与南海北部深部构造特征综合地球物理研究","010-82998104","xuya@mail.
iggcas.
ac.
cn""2","中国科学院地质与地球物理研究所","41304079","青年","黄松","南海北部","不限","不限","海底大地电磁场.
本项目在航次走航经过南海北部时(水深在150-250m之间.
水浅区工业干扰大),将2-3台海底电磁仪投放海底(每台投放时间约为30分钟,投放点位可以与整个航次计划协商而定),点距为2km.
仪器投放后,可以一直留海,待整个航次任务完成返航时再行回收.
回收时间每台约为2小时.
","3个站位","D0409","组合式海底电场传感器研制与性能测试分析研究","010-82998104","huangsong@mail.
iggcas.
ac.
cn""3","中国科学院南海海洋研究所","41276049","面上","丘学林","南海北部珠江口盆地","4-8月","春、夏","OBS深部探测和单道地震探测","6个OBS站位","D0603","南沙地块深部地壳结构和南部陆缘构造性质研究","13622842912","xlqiu@scsio.
ac.
cn""4","中国科学院南海海洋研究所","91028002","重点","丘学林","南海北部珠江口盆地","4-8月","春、夏","OBS深部探测和单道地震探测","10个OBS站位","D0603","南海中央海盆三维OBS探测与扩张脊深部地震结构研究","13622842912","xlqiu@scsio.
ac.
cn""5","中国科学院南海海洋研究所","41176053","面上","赵明辉","南海北部珠江口外海域","6-7月","夏","南海北部海陆联合人工地震探测","在珠江口外海域布设5台海底地震仪(OBS)","D0603","西南印度洋中脊热液A区三维地震结构研究",,"6","中国科学院南海海洋研究所","41376060","面上","孙金龙","南海东北部","4-8月","春、夏","多道地震",,"D0603","南海东北部陆缘台湾浅滩海域的深部结构与构造演化","020-89023154","sunjl@scsio.
ac.
cn""7","中国科学院南海海洋研究所","41076028","面上","赵俊峰","南海东北部","4-6月","春","海底热流观测","热流探测1条测线,共设计站位14个,站间距10km.
作业时间需船时约50小时.
18.
5°~20.
5°N,115°~119°E之间的区域","D0603","南海北部磁静区成因模式及其构造、成藏意义","13620429219;020-89107643","zjf@scsio.
ac.
cn""8","中国科学院南海海洋研究所","41306046","青年","黄海波","南海东北部","5-7月","夏","OBS深部探测与海陆联测","12个OBS站位","D0603","西沙地块深部地壳结构及伸展机制研究","020-89023155","go223@scsio.
ac.
cn""9","中国科学院南海海洋研究所","41222039","优青","夏少红","南海东北部","5-7月","夏","OBS深部探测","20个OBS站位","D0603","海洋地球物理学","020-89023155","shxia@scsio.
ac.
cn""10","中国科学院南海海洋研究所","41376023","面上","唐群署","南海东北部,台湾西南部海域","2014.
05-2014.
07","夏","东沙海区内孤立波物理海洋-反射地震联合观测","走航式观测,无固定站位","D0601","利用反射地震研究南海东北部内孤立波","020-89024703","tqsh@scsio.
ac.
cn""11","中国科学院南海海洋研究所","41106086","青年","杨小秋","南海东北部海山区","4-6月","春","1)"海底原位热流探针微型测量单元"海试,包括:a.
微型测量单元的水密性、耐压性海试;b.
测温与热脉冲控制电路功能海试;c.
原位热导率数值反演技术检验.
d.
10个站位的有效原位热流站位数据.
2)在南海北部1500米和3000米左右水深海域,选择2个站位,对"海底热流长期观测系统"的水密性、耐压性及释放功能及数据采集与处理模块进行测试.
带缆式海试,系统不留在海底.
","需完成海底原位热流测量海试剖面1条(图1中的红色剖面),预计开展12个站位海底原位测试,所需船时约50小时.
","D0607","海底原位热流探针微型测量单元研发","13570459676;020-89021699","yxq2081@scsio.
ac.
cn""12","中国科学院南海海洋研究所","41376063","面上","詹文欢","南海东部","4-8月","春、夏","OBS深部探测和多道地震探测","6个OBS站位","D0603","南海东部古扩张脊俯冲形成的板片窗构造及其动力学过程","13380032796","whzhan@scsio.
ac.
cn""13","中国科学院南海海洋研究所","41376061","面上","许鹤华","南海东部中央海盆区","4-6月","春","海底热流观测","(116.
5-117.
6°E,14.
3-18.
0°N)本航次拟开展1条热流剖面,共15个站位的热流测量工作(站位工作时间60小时).
","D0603","南海扩张过程中洋中脊演化与岩浆活动的数值模拟","13535064876;020-89021699","xhhcn@scsio.
ac.
cn""14","中国科学院南海海洋研究所","41376062","面上","阎贫","南海东沙西南部海区","4-9月","春、夏","500km多道地震500km浅剖","10个站位沉积取样","D0603","南海东沙群岛西南海区泥火山成因研究","020-34066182","yanpin@scsio.
ac.
cn""15","中国科学院南海海洋研究所","41376059","面上","施小斌","南海南沙地块-南部海盆区","春或早夏","春","海底热流观测","(112-118°E,6-12°N)由于船时限制,本航次拟开展2条热流剖面,共15个站位的热流测量工作(站位工作时间60小时).
","D0603","南海与巽他陆块岩石圈有效弹性厚度分布及其构造意义","13660422503;020-89023153","xbshi@scsio.
ac.
cn""16","中国科学院南海海洋研究所","41176050","面上","施小斌","南海北部白云凹陷南侧陆坡-海盆区","4-6月","春","海底热流观测","(115-116°E,18.
2-19.
5°N)根据研究方案,需要在上述海区部署2条近南北向的热流测量剖面,共30个站位.
由于船时限制,本航次拟开展1条热流剖面,共15个站位的热流测量工作(站位工作时间60小时).
","D0603","南海北部白云凹陷及其南侧陆坡早中新世快速沉降主控因素的数值分析","13660422503;020-89023153","xbshi@scsio.
ac.
cn""17","中国科学院半导体研究所","41074128","面上","张文涛","南海东北部","3~9月间任意","春、夏","全光纤OBS地震探测:通过气枪震源激发地震波,通过全光OBS实时采集.
","任意一站位.
","D0411","三维光纤激光检波器关键技术及其在海底地震仪中的应用研究",,"18","中国科学院南海海洋研究所","41176026","面上","唐群署","台湾西南部海域,吕宋海峡","2014.
05-2014.
07","夏","吕宋海峡物理海洋-反射地震联合观测","走航式观测,无固定站位","D0601","利用反射地震研究吕宋海峡北部黑潮区水体细结构","020-89024703","tqsh@scsio.
ac.
cn""19","中国科学院南海海洋研究所","91328206","重大计划-重点","夏少红","南海东北部","5-7月","夏","OBS深部探测","25个OBS站位","D0603","南海东北部三维精细地壳结构及其对岩浆活动和构造属性的约束","020-89023155","shxia@scsio.
ac.
cn""船时项目分类列表-西太平洋",,,,,,,"序号","单位","项目号","项目类型","船时申请人","海区","时段","季节","学科-项目","备注","学科代码","项目名称","电话号码","邮箱""1","中国海洋大学","41376147","面上","朱天骄","太平洋","不限","不限","海底沉淀物中的微生物.
","主要采集100米深度以下区域,重点在1000米的深海样品、海底沉淀物.
","D0609","南极真菌物种与代谢产物多样性及药用潜力的研究","82031632","zhutj@ouc.
edu.
cn""2","中国科学院海洋研究所","41376032","面上","周慧","西热带太平洋区域","不限","不限","温度,盐度,海流,营养盐","(125.
75E,14N),(126.
5E,14N),(127.
0E,14N),(127.
5E,14.
5N),(128.
0E,14N),(129E,14N),(130.
5E,14N),此外,根据同步的卫星高度计资料捕获中尺度涡旋进行CTD观测,以获取涡旋的下层结构.
","D0601","菲律宾以东中尺度涡旋变异及其对北赤道流分叉变异的影响","13969610498","zhouhui@qdio.
ac.
cn""3","中国科学院海洋研究所","4088001","杰青","袁东亮","西热带太平洋区域","10-12月份","秋、冬","温度,盐度,海流,营养盐,pH,POC/N,DOC/N","站位附图","D0601","物理海洋学",,"4","厦门大学","41276063","面上","蔡毅华","西太平洋","不限","不限","表层沉积物、沉积物岩芯采集及深层水采水","拟于西太平洋设立经向断面3-5个,每断面5-7个站位","D0604","基于231Pa/230Th活度比值重建近15万年来南海深层环流","13616027156","yihua_cai@xmu.
edu.
cn""5","厦门大学","41376177","面上","商少凌","西太平洋","不限","不限","水体光学参数测量,包括表面光谱、水下剖面光谱、水体光吸收系数、色素","不限","D0608","建立基于无人机的水体二氧化碳分压遥感算法","0592--2186871","slshang@xmu.
edu.
cn""6","国家海洋环境监测中心","41276061","面上","翟惟东","西太平洋","不限","不限","溶解氧、无机碳、总碱度、营养盐、大气CO2与CH4","不限","D0604","中国北方海域近海酸化的时空变异及调控--典型海域比较","13387862072","wdzhai@126.
com""7","中国科学院南海海洋研究所","41206131","青年","黄思军","西太平洋","6-12月","夏、秋、冬","海洋水体的温度、盐度、色素浓度(Chla),采集海水微生物过滤样品,噬菌体颗粒浓缩样品.
",,"D0609","中国南海微型蓝细菌与蓝细菌噬菌体的遗传多样性与生态位适应性研究","15989176950","huangsijun@scsio.
ac.
cn""8","厦门大学","41330961","重点","黄邦钦","西太平洋","夏季(7-8月)秋季(9-10月)","夏、秋","浮游植物种类组成、光合色素、粒级组成、Chla,POC输出通量、微型浮游动物组成及其对浮游植物的摄食压力.
",,"D0609","南海浮游生态系统结构及其生物泵效率的调控机制","0592-2187783","bqhuang@xmu.
edu.
cn""9","中国科学院海洋研究所","41330962","重点","肖天","西太平洋","夏季或秋季最好","夏、秋","海水和表层沉积物观察趋磁细菌和多细胞趋磁原核生物的种类和丰度,并分析与之相关的环境因子.
","3-4个断面","D0609","多细胞趋磁原核生物的生理代谢及进化研究","0532-82898586","txiao@qdio.
ac.
cn""10","厦门大学","41306125","青年","徐大鹏","西太平洋海区","不限","不限","表层至底层(>2,000m水深)砂壳纤毛虫壳体多样性、群落结构、生物量、丰度、分子多样性.
","西太平洋航次常规时间、采样常规站位","D0609","福建沿海砂壳纤毛虫壳体多态性及分子系统学研究","18959212415","dapengxu@xmu.
edu.
cn""11","中国科学院海洋研究所","41330963","重点","胡敦欣","西太平洋海域","夏","夏","铱星双向通讯Argo浮标追踪赤道潜流和棉兰老海流;GPS漂流浮标布放用以研究棉兰老海流与新几内亚海流的交汇;CTD、LADCP、走航ADCP测量该海区温、盐、流三维结构等.
","投放Argo浮标或漂流浮标的站位:(127°E,8°N)和(141°E,2°S)附近;常规观测站位:8°N断面:(127°E-130°E)7°N断面、6°N断面、5°N断面(129°E以西)130°E断面:(1°N-8°N)141°E断面:(2.
5°-5°N)","D0601","南北赤道流交汇区海洋环流结构、变异与机理","0532-82898678","dxhu@qdio.
ac.
cn""12","中国科学院海洋研究所","41306022","青年","王富军","西太平洋棉兰老岛以东海域","夏秋","夏、秋","(1)CTD观测N8、P、MN、N2断面的温盐结构(2)LADCP观测N8、P、MN、N2断面垂向上的流速","N8(127°E-130°E)、P(1°N-8°N)、MN、N2(127°E-130°E)断面","D0601","哈马黑拉涡的垂向结构及其季节变化","15963001556","fujunwang@qdio.
ac.
cn""13","国家海洋局第二海洋研究所","41306162","青年","乐凤凤","吕宋海峡","4月1日至12月31日","春、夏、秋、冬","各类微微型浮游植物丰度、生长率和被摄食消亡率","横跨黑潮锋面的断面均可","D0609","北太平洋亚热带环流区微微型浮游植物群落结构及其环境调控机制","0571-81963323","le_ff@126.
com""14","中国海洋大学","41276141","面上","张晓华","南太平洋或其他深海海区","春季和冬季","春、冬","微生物丰度、群落结构、环境化学因子(有机碳、无机碳、各种营养盐的浓度)","共设20个代表性站位","D0609","南太平洋环流区洋底沉积物及海水的微生物群落演化及功能活性研究","13606428332","xhzhang@ouc.
edu.
cn""15","厦门大学","41376132","面上","张锐","南海及西太平洋海区","夏-秋","夏、秋","微生物丰度、生产力、病毒对原核生物生态特性的影响","同2013年基金委南海及西太平洋海区开放航次调查站位;因为项目核心为深海病毒,因此需要深海站位及大体积水量采集.
","D0609","南海及西太平洋海区深海浮游病毒的生态特性及生态意义","13666016566","ruizhang@xmu.
edu.
cn""16","中国科学院半导体研究所","41276094","面上","王永杰","水深超过3000m的海域","不限","不限","海水温度、盐度和深度三个参数.
进行3次比测工作,每次观测时间大约4~6小时,合计约15小时左右.
考察船到达展位后,研制传感器绑缚在标准CTD的采水架下方接近CTD探头的位置,随着标准CTD的下放一同进入海水中,并实时进行采数.
并随着CTD的回收一起回收至甲板.
抛去CTD下放和回收时间,每个站位的有效船时预计在2小时左右.
","水深超过3000m的观测站位,数量2个.
","D0607","全光纤化CTD温盐增敏及长期稳定性研究","010-82304502","wyj@semi.
ac.
cn""17","厦门大学",,"重点","戴民汉","西太平洋"9月30日报",,,,,,"船时项目分类列表-东印度洋",,,,,,,"序号","单位","项目号","项目类型","船时申请人","海区","时段","季节","学科-项目","备注","学科代码","项目名称","电话号码","邮箱""1","厦门大学","41076133","面上","蔡明刚","东印度洋","遵守基金委航次安排,希望有30-40天的考察时间.
","不限","CFCs、SF6","表层至底层全深度标准层采样,站位数约60-80个.
","D0611","普里兹湾及其以北南大洋海洋学过程的CFCs和SF6示踪研究","0592-2886188","mgcai@xmu.
edu.
cn""2","中国气象科学研究院","41376020","面上","苏京志","东印度洋","3月中旬至4月底,时间约为45天.
","春","水文断面(CTD+ADCP)、走航拖曳CTD观测、海洋气象(含海气界面热通量、GPS探空)观测、漂流浮标","东印度洋(含孟加拉湾、安达曼海),北纬10度断面、赤道断面、东经80度断面.
","D0601","中部型ENSO激发和发展机理研究","010-68408734","sujz@cams.
cma.
gov.
cn""3","国家海洋环境监测中心","41276061","面上","翟惟东","东印度洋","不限","不限","溶解氧、无机碳、总碱度、营养盐、大气CO2与CH4","不限","D0604","中国北方海域近海酸化的时空变异及调控--典型海域比较","13387862072","wdzhai@126.
com""4","天津科技大学","41306119","青年","张翠霞","东印度洋","4-5,11-12","春、秋","采集环境参数水样、膜样,现场试验","随船选取重点站位","D0609","海洋酸化对东印度洋微型浮游动物群落及摄食影响研究","15022136225","zhangcuixia_20@163.
com""5","国家海洋局第三海洋研究所","41276034","面上","邱云","孟加拉湾南部海区及赤道海域(东印度洋)","3~5月","春","(1)定点观测站CTD观测及采水、LADCP海流观测;(2)全程走航式ADCP海流观测;(3)全程走航表层温盐观测(SBE21);(4)全程自动气象站观测","调查海区总共设计了24个大面站,具体如下:(1)在5°N及赤道各设置一条纬向断面,断面经度范围大概为80°—96°E,每隔2°设一站,共2条断面18个测站(2)沿着80°E在0—5°N设置一条经向断面,每隔1°设一站,共6个站","D0601","孟加拉湾障碍层年际变化及形成机理","0592-2195253","qiuy@tiosoa.
cn""6","国家海洋局第一海洋研究所","41376037","面上","刘琳","孟加拉湾至热带东南印度洋海区","4-5月,9-11月","春、秋","(1)走航式ADCP海流和MVP(或UCTD)温盐剖面观测;(2)走航式气象、辐射、SST、SSS、CO2观测;(3)沿航线的GPS探空气球;(4)站点CTD观测及采水","建议沿10S、10N和0度布设3条横向断面,沿90E布设1条纵向断面,开展走航和站位观测及GPS探空气球.
","D0506","全球变暖背景下印度洋年际时间尺度海气相互作用对季节内振荡的影响","13964286338","liul@fio.
org.
cn""7","中国海洋大学","41176120","面上","李德海","印度洋","春秋季节较好,其他季节也可以.
","春、秋","海底沉淀物中的微生物.
","主要采集100米深度以下区域,重点在1001米的深海样品、海底沉淀物.
","D0609","基因-活性-化学筛选指导下深海微生物活性次级代谢产物研究","82031619","dehaili@ouc.
edu.
cn""8","中国科学院南海海洋研究所","41176101","面上","王友绍","印度洋","2-10月","春、夏、秋","自然变化对南海近海生态系统的影响","与印度洋航次观测设置站位同步","D0608","红树林生态系统对气候异常变化的响应与适应",,"9","天津科技大学","41276124","面上","孙军","印度洋","4-5,11-12","春、秋","浮游植物水样和网样采集,叶绿素样品采集,浮游动物拖网实验,培养实验","任务计划设定的采样站位","D0609","印度洋浮游植物功能群初级生产调控因子与碳输出效率研究","022-60601116","phytoplankton@163.
com""10","山东省科学院","41206165","青年","杨倩","印度洋","5-10月","春、夏、秋","海洋光学参数(包括水下光谱辐射、吸收系数、散射系数等)、海面风速、叶绿素浓度、气溶胶光学厚度","具体站位依据航次设计","D0610","风生海中气泡对海色遥感大气校正的影响及定量修正","13864808587","qian.
yang@ymail.
com""11","天津科技大学","41306118","青年","冯媛媛","印度洋","4-5,11-12","春、秋","碳酸盐体系测定,现场培养实验","任务计划设定的采样站位","D0609","海洋酸化和暖化对中国海颗石藻光合与钙化作用及种群结构的影响研究","022-60601116","f.
yuanyuan@gmail.
com""12","中山大学","41273054","面上","孙晓明","印度洋,特别是西南印度洋海域","6~10月","不限","1.
不同构造和围岩背景下印度洋海底热液活动现场观测;2.
海底热液沉积物和基岩采样",,"D0304","印度洋洋中脊热液场沉积物贵金属元素纳米矿物学和地球化学","13922110158","13","中国科学院南海海洋研究所","41376058","面上","罗传秀","印度洋东北部","2-4月","春、冬","在东北印度洋采集冬季空气孢粉样品、沉积物表层样品、冬季表层水和次表层水样品","在东北印度洋采集冬季空气孢粉样品36个,沉积物表层样约24个,冬季表层水和次表层水样品各48个","D0603","印度洋东北部现代孢粉传播与分布研究及其对古气候重建的意义","15920377795","xiu104@gmail.
com""14","中国科学院海洋研究所","41176019","面上","袁东亮","印度洋东边界流区","秋、冬","秋、冬","温度,盐度,海流,营养盐,pH,POC/N,DOC/N","印度洋东边界流区,从5N,2.
5N,赤道,2.
5S,5S,5条断面间隔0.
5°","D0601","赤道东印度洋上层海洋环流结构特征和动力机制",,"15","中国科学技术大学","41376124","面上","刘晓东","东海、南中国海、孟加拉湾、印度洋","8月-9月","夏、秋","(1)现代气象数据:如受东亚季风影响海域的风向、风速、降雨量等,以更好地掌握东海-南海-印度洋地区的现代季风系统及其与气候系统其它要素之间的关系;(2)海洋生物的各种行为:包括海鸟及其食物(即鱼类中的飞鱼和甲壳类鱿鱼)的觅食等行为,以更好地探讨气候变化对海洋生物的影响;(3)相关海域表层海洋沉积物理化性质.
","东海、南中国海、孟加拉湾、印度洋各取一处站点,附图","D0608","南海西沙永乐群岛海鸟古生态变化过程的稳定同位素研究","0551-63606051","ycx@ustc.
edu.
cn""16","中国科学院南海海洋研究所","91228202","重大计划-重点","王东晓","印度洋","4-5月、8-9月","春、夏","(1)全程走航式ADCP海流观测;(2)定点观测站CTD观测及采水;(3)定点观测站TurboMap海洋湍流混合观测;(4)2~3个深水潜标布放","海区设计的0度和北纬6度断面和赤道印度洋的定点观测站点.
","D0601","南海深层经向翻转流结构的观测与模拟","020-89023204","wangdx@scsio.
ac.
cn","9月29日收,未打印","17","中国科学院南海海洋研究所","41206011","青年","曾丽丽","印度洋","3-5月","春","(1)全程走航式ADCP海流观测;(2)定点观测站CTD观测及采水;(3)定点观测站TurboMap海洋湍流混合观测;(4)2~3个深水潜标布放;(5)全程自动气象站观测;(6)全程走航SBE21型表层CT观测;(7)定时GPS探空气球布放","海区设计的0度和北纬6度断面和赤道印度洋的定点观测站点,其中包括全程走航观测海气边界层的通量观测;每天定时布放GPS探空气球","D0601","南海盐致障碍层及其对区域海气相互作用的影响","020-89109741","zenglili@scsio.
ac.
cn","9月29日收,未打印","18","中国科学院南海海洋研究所","40906096","青年","杨磊","印度洋","3-5月","春","(1)全程走航式ADCP海流观测;(2)定点观测站CTD观测及采水;(3)定点观测站TurboMap海洋湍流混合观测;(4)2~3个深水潜标布放;(5)全程自动气象站观测;(6)全程走航SBE21型表层CT观测;(7)定时GPS探空气球布放","海区设计了北纬5度断面和赤道印度洋定点观测站点,其中包括全程走航观测海气边界层的通量观测;每天定时布放GPS探空气球","D0601","格陵兰冰盖表面物质平衡重建1860-2007","020-89022669","heyk@scsio.
ac.
cn","9月29日收,未打印","19","中国科学院南海海洋研究所","41306012","青年","何云开","印度洋","冬季、春季","冬季、春季","海气边界层,GPS探空","走航观测","D0601","海洋热状况对南海北部局地海雾季节变化的影响","020-89022669","heyk@scsio.
ac.
cn","9月29日收,未打印","20","中国科学院南海海洋研究所","41306014","青年","隋丹丹","印度洋","3-5月","春","(1)全程走航式ADCP海流观测;2)定点观测站CTD观测及采水;3)定点GPS探空气球布放;(5)全程自动气象站观测;(6)全程走航SBE21型表层CT观测;(7)全程走航涡动通量观测,辐射观测","海区设计了东印度洋(含孟加拉湾、安达曼海)的北纬10度断面、赤道断面、东经80度断面和南海西南5个定点观测站点","D0601","南海北部夏季热通量变化对海洋大气边界层的影响","020-89024757","sui@scsio.
ac.
cn","9月29日收,未打印","21","中国科学院南海海洋研究所","41006012","青年","俎婷婷","印度洋","1-3月,6-9月","春、夏","高垂向分辨率的温度、盐度、流速的定点、断面观测.
(1)连续24小时定点、断面温度盐度观测;(2)连续24小时定点、断面海流观测定点大气参数(气温、风速、风向、降水等)观测","与印度洋观测设置站位同步.
","D0601","珠江冲淡水以及河口邻近海区的环流对季风、淡水径流、潮汐的响应","020-89024715","zutt@scsio.
ac.
cn","9月29日收,未打印","22","中国科学院南海海洋研究所","41106028","青年","石睿","印度洋","3-5月","春","(1)全程走航式ADCP海流观测;(2)定点观测站CTD观测及采水;(3)定点GPS探空气球布放;(5)全程自动气象站观测;(6)全程走航SBE21型表层CT观测","海区设计了东印度洋(含孟加拉湾、安达曼海)的北纬10度断面、赤道断面、东经80度断面和南海西南5个定点观测站点","D0601","南海热盐锋面对大气的影响以及大气的反馈作用","020-89024715","ryn.
shi@gmail.
com","9月29日收,未打印",