引文
[1]汪品先.南海——我国深海研究的突破口[J].热带海洋学报,2009,28(3):1–4.
[2]WANG P,PRELL W L,BLUM P.Proc ODP,Init Repts[R/CD].USA:Ocean Drilling Program.College Station:Texas A&M Univ,2000,184:1–77.
[3]邵磊,李学杰,耿建华,等.南海北部深水底流沉积作用[J].中国科学:D辑,2007:37.
[4]钟广法,李前裕,郝沪军,等.深水沉积物波及其在南海研究之现状[J].地球科学进展,2007,22(9):907–913.
[5]宋海斌,耿建华,WONG H K,等.南海北部东沙海域天然气水合物的初步研究[J].地球物理学报,2001,44(5):687–695.
[6]丁巍伟,李家彪,韩喜球,等.南海东北部海底沉积物波的形态、粒度特征及物源、成因分析[J].海洋学报,2010,32(2):1–10.
[7]LüDMANN T,WONG H K,BERGLAR K.Upward flow ofNorth Pacific deep water in the northern South China Sea asdeduced from the occurrence of drift sediments[J].Geophysical Research Letters,2005,32:L05614.doi:10.1029/2004GL021967.
[8]STOMMEL H.The abyssal circulation[J].Deep-SeaResearch,1958,5(1):80–82.
[9]苏纪兰.中国近海水文[M].北京:海洋出版社,2004:1–367.
[10]HSU M K,LIU A K.Nonlinear internal waves in the SouthChina Sea[J].Can J Remote Sens,2000,26(2):72–81.
[11]ORR M H,MIGNEREY P C.Nonlinear internal waves inthe South China Sea:Observation of the conversion ofdepression internal waves to elevation internal waves[J].JGeophys Res,2003,108(C3):3064.doi:10.1029/2001JC001163.
[12]ZHAO ZHONGXIANG,KLEMAS V,ZHENG QUANAN,et al.Remote sensing evidence for baroclinic tide origin ofinternal solitary waves in the northeastern South China Sea[J].Geophys Res Lett,2004,31:L06302.doi:10.1029/2003GL019077.
[13]RAMP S R,TANG T Y,DUDA T F,et al.Internal solitonsin the northeastern South China Sea.Part I:Sources and deepwater propagation[J].IEEE J Oceanic Eng,2004,29:1157–1181.doi:10.1109/JOE.2004.840839.
[14]DUDA T F,LYNCH J F,IRISH J D,et al.Internal tide andnonlinear internal wave behavior at the continental slope inthe northern South China Sea[J].IEEE J.Oceanic Eng,2004,29(4):1105–1130.
[15]LIEN R C,TANG T Y,CHANG M H,et al.Energy ofnonlinear internal waves in the South China Sea[J].GeophysRes Lett,2005,32:L05615.doi:10.1029/2004GL022012.
[16]ZHAO Z,ALFORD M H.Source and propagation of internalsolitary waves in the northern South China Sea[J].J GeophysRes,111,2006:C11012.doi:10.1029/2006JC003644.
[17]KLYMAK J M,PINKEL R,LIU C T,et al.Prototypicalsolitons in the South China Sea[J].Geophys Res Lett,2006,33:L11607.doi:10.1029/2006GL025932.
[18]ZHENG QUANAN,SUSANTO R D,HO C R,et al.Statistical and dynamical analysis of generation mechanismsof solitary internal waves in the northern South China Sea[J].J Geophys Res,2007,112:C03021.doi:10.1029/2006JC003551.
[19]LI XIAOFENG,ZHAO ZHONGXIANG,PICHEL W G.Internal solitary waves in the northwestern South China Seainferred from satellite images[J].Geophys Res Lett,2008,35:L13605.doi:10.1029/2008GL034272.
[20]蔡树群,甘子钧,龙小敏.南海北部孤立子内波的一些特征和演变[J].科学通报,2001,46(15):1245–1250.
[21]FARMER D,LI QIANG,PARK J H.Internal waveobservations in the South China Sea:The role of rotation andnon-linearity[J].Atmos Ocean,2009,47(4):267–280.
[22]BUIJSMAN M C,KANARSKA Y,McWilliams J C.On thegeneration and evolution of nonlinear internal waves in theSouth China Sea[J].J Geophys Res,2010:C02012.doi:10.1029/2009JC005275.
[23]GAO ZHENZHONG,ERIKSSON K A.Internal tidedeposits in an Ordovician submarine channel:Previouslyunrecognized facies?[J].Geology,1991,19:734–737.
[24]高振中,何幼斌,罗顺社,等.深水牵引流沉积——内潮汐、内波和等深流沉积研究[M].北京:科学出版社,1996:1–22.
[25]高振中,何幼斌,刘成鑫,等.深水牵引流沉积的研究历程、现状与前景[J].古地理学报,2006,8(3):332–338.
[26]张兴阳.深水牵引流形成的床形单元组合[J].古地理学报,2000,2(2):28–36.
[27]WANG GUIHUA,SU JILAN,CHU P C.Mesoscale eddiesin the South China Sea observed with altimeter data[J].Geophys Res Lett,2003,30(21):2121.doi:10.1029/2003GL018532.
[28]BROECKER W S.The biggest chill[J].Nat Hist Mag,1987,97:74-82.
[29]BROECKER W S.The great ocean conveyor[J].Oceanography,1991,4:79–89.
[30]LOZIER M S.Deconstructing the Conveyor Belt[J].Science,2010,328:1507–1511.doi:10.1126/science.1189250
[31]GARRETT C.Internal tides and ocean mixing[J].Science,2003,301:1858–1859.
[32]RICHARDSON P L,BOWER A S,ZENK W.A census ofMeddies tracked by floats[J].Prog Oceanogr 2000,45(2):209–250.
[33]ARMI L,HEBERT D,OAKEY N,et al.The history anddecay of a Mediterranean salt lens[J].Nature,1988,333:649–651.
[34]ARMI L,HEBERT D,OAKEY N,et al.Two years in thelife of a Mediterranean salt lens[J].Journal of PhysicalOceanography,1989,19:354–370.
[35]李家彪.中国边缘海形成演化与资源效应[M].北京:海洋出版社,2008:1–509.
[36]HALL R.Cenozoic reconstructions of SE Asia and the SWPacific:changing patterns of land and sea[M]//METCALFEI,SMITH J M B,MORWOOD M,et al.Faunal and FloralMigrations and Evolutions in SE Asia-Australasia.Lisse:AA.Balkema:Swets&Zeitlinger Publishers,2001:35–56.
[37]陈林,宋海斌,许鹤华,等.张裂大陆边缘形成演化的动力学模拟[J].地球物理学报,2009,52(11):2781–2787.doi:10.3969/j.issn.0001-5733.2009.11.012
[38]宋海斌.南海基底构造格架及张裂大陆边缘的综合地球物理研究[R].北京:中国科学院地球物理研究所博士后报告,1998:1–141.
[39]陈林.南海张裂大陆边缘数值模拟研究[D].北京:中国科学院地质与地球物理研究所博士论文,2009:1–165.
[40]HOLBROOK W S,PáRAMO P,PEARSE S,et al.Thermohaline fine structure in an oceanographic front fromseismic reflection profiling[J].Science,2003,301:821–824.
[41]RUDDICK B.Sounding out ocean fine structure[J].Science,2003,301:772–773.
[42]RUDDICK B,SONG HAIBIN,DONG CHONGZHI,et al.Water column seismic images as maps of temperaturegradient[J].Oceanography,2009,22(1):192–205.
[43]宋海斌,董崇志,陈林,等.用反射地震方法研究物理海洋地震海洋学简介[J].地球物理学进展,2008,23(4):1156–1164.
[44]董崇志,宋海斌,拜阳,等.地震海洋学研究进展[J].地球物理学进展,2010,25(1):109–123.doi:10.3969/j.issn.1004-2903.2010.01.017
[45]NAKAMURA Y,NOGUCHI T,TSUJI T,et al.Simultaneousseismic reflection and physical oceanographic observationsof oceanic fine structure in the Kuroshio extension front[J].Geophys Res Lett,2006,33:L23605.doi:10.1029/2006GL027437
[46]宋海斌,PINHEIRO L M,王东晓,等.海洋中尺度涡与内波的地震图像[J].地球物理学报,2009,52(11):2775-2780.
[47]PINHEIRO L M,SONG HAIBIN,RUDDICK B,et al.Detailed 2-D imaging of the Mediterranean outflow andmeddies off W Iberia from multichannel seismic data[J].Journal of Marine Systems,2010,79:89–100.
[48]HOLBROOK W S,FER I.Ocean internal wave spectrainferred from seismic reflection transects[J].Geophys ResLett,2005,32:L15604.doi:10.1029/2005GL023733.
[49]KRAHMANN G,BRANDT P,KLAESCHEN D,et al.Mid-depth internal wave energy off the Iberian Peninsulaestimated from seismic reflection data[J].Journal ofGeophysical Research,2008,113,C12016.doi:10.1029/2007JC004678.
[50]SONG H B,DONG C Z,RUDDICK B,et al.Researches oninternal wave spectra of northeastern South China Sea fromone reflection seismic profile:Seismic Oceanography-ESFExpl.Workshop,Conf Proc[C].Barcelona:SeismicOceanography Conf.proc,2008.
[51]董崇志,宋海斌,郝天珧,等.南海东北部海洋内波的反射地震研究[J].地球物理学报,2009,52(8):2050–2055.
[52]宋海斌,拜阳,董崇志,等.南海东北部内波特征——经验模态分解方法应用初探[J].地球物理学报,2010,53(2):393–400.
[53]WOOD W T,HOLBROOK W S,SEN M K,et al.Fullwaveform inversion of reflection seismic data for oceantemperature profiles[J].Geophys Res Lett,2008,35:L04608.doi:10.1029/2007GL032359.
[54]PAPENBERG C,KLAESCHEN D,KRAHMANN G,et al.Ocean temperature and salinity inverted from combinedhydrographic and seismic data[J].Geophys Res Lett,2010,37:L04601.doi:10.1029/2009GL042115.
[55]董崇志.海水温盐结构反演与南海内波的地震海洋学研究[D].北京:中国科学院地质与地球物理研究所博士论文,2010:1–128.
[56]宋洋,宋海斌,陈林,等.利用地震数据反演海水温盐结构[J].地球物理学报,2010,53(11):2696–2702.doi:10.3969/j.issn.001-5733.2010.11.017.
[57]SHEEN K L,WHITE N J,HOBBS R W.Estimating mixingrates from seismic images of oceanic structure[J].GeophysRes Lett,2009,36:L00D04.doi:10.1029/2009GL040106.
[58]KLAESCHEN D,HOBBS R W,KRAHMANN G,et al.Estimating movement of reflectors in the water column usingseismic oceanography[J].Geophys Res Lett,2009,36:L00D03.doi:10.1029/2009GL038973.
[59]SONG HAIBIN,PINHEIRO L M,TONG C H.Seismicimaging of submarine springs(OS21B-04):AGU WesternPacific Meeting,Taiwan,June,2010[C].Taipei:AGU,2010.
[60]VSEMIRNOVA E A,HOBBS R W,HOSEGOOD P.Mapping turbidity layers using seismic oceanographymethods[J].Ocean Sci,2012,8:11–18.
[61]SONG HAIBIN,PINHEIRO L M,RUDDICK B,et al.Seismic Oceanography:a new geophysical tool to investigatethe thermohaline structure of the oceans[C]//MARCELLI M.Oceanography.Croatia:InTech Press,2012:113–128.
[62]SONG HAIBIN,PINHEIRO L M,RUDDICK B,et al.Meddy,spiral arms,and mixing mechanisms viewed byseismic imaging in the Tagus Abyssal Plain(SW Iberia)[J].Journal of Marine Research,2011,69(4-6):827–842.
[63]SONG HAIBIN,BAI YANG,PINHEIRO L,et al.Analysis ofocean internal waves imaged by multichannel reflectionseismics,using Ensemble Empirical Mode Decomposition[J].Journal of Geophysics and Engineering,2012,9(3):302–311.