个人简介
龚承林,男,岗位教授,博士生导师,2014年获中国石油大学(北京)博士学位(导师王英民教授)、2014年至2017年在美国德克萨斯大学奥斯汀分校从事博士后研究(导师RonaldJSteel教授)。主持国家自然科学基金项目两项,在“(1)陆架边缘三角洲—海底扇源汇系统过程和沉积物分配,(2)深水重力流沉积体系及有利储层的形成分布及(3)浊流与底流交互作用的过程响应”取得了国际一流的研究成果,以第一/通讯作者在《Geology》、《Earth-ScienceReviews》、《GSABulletin》、《Sedimentology》、《AAPGBulletin》、《JournalofSedimentaryResearch》等高水平国际SCI刊物上发表学术论文20余篇。获教育部科技进步奖一等奖1项。
1.团队建设与研究生培养
与美国德克萨斯大学奥斯汀分校导师RonaldJSteel教授课题组有实质的合作关系,可以为有志于从事“深水沉积学或层序地层学研究”的同学提供良好的科研平台和发展机遇。热忱欢迎有志于学术和深水沉积研究的同学加入课题组,愿同同学们一道探索深水沉积学奥秘、尽我所能愿做春泥、甘为人梯。
2.科研项目
在研项目:
(1)国家自然科学基金面上项目,珠江峡谷末次冰期以来浊流活动对气候变化的响应尺度与反馈机制(41972100),2020-2023,主持
(2)国家自然科学基金青年科学基金项目,中更新世以来珠江陆架边缘三角洲-海底扇“源-汇同步”的形成机制(41802117),2019-2021,主持
(3)油气资源与探测国家重点实验室杰出人才培育课题,深水水道的发育、演化及其背景控制,2018-2020,主持
(4)中国石油大学(北京)优秀青年学者科研启动基金,深水水道的沉积动力学过程重构,2017-2021,主持
(5)中海石油(中国)研究中心课题,墨西哥海域盆地盐相关构造油气运聚机理研究,2018-2020,参与
(6)中石油大港油田课题,多类型斜坡区油气成藏机理研究,2018-2020,参与
结题项目:
(1)中海石油(中国)东海石油天然气作业公司课题,西湖凹陷杭州斜坡带古近系成藏条件及勘探方向研究,2018-2019,主持
(2)中海石油(中国)有限公司天津分公司课题,石南中段浅层油气成藏规律及动力学研究,2018-2019,参与
3.代表性学术报告
邀请报告:
(1)GongChenglin,etal.,Flowprocessesandsedimentationinunidirectionallymigratingdeep-waterchannels,4thInternationalSubmarineCanyonSymposium,Shenzhen,2018.11.5-2018.11.7(大会报告-特邀报告)
(2)龚承林等,陆缘深水区浊流与底流交互作用的过程、响应和动力学机制,第六届全国沉积学大会,南京,2017.10.28-2017.10.30(会议报告-特邀报告)
(3)龚承林等,陆缘深水区浊流与底流交互作用的过程、响应和动力学机制,第五届地球系统科学大会,上海,2018.7.2-2018.7.4(会议报告-特邀报告)
(4)龚承林等,深水单向迁移水道的过程响应及动力学机制,第一届“青年沉积学家论坛”,北京,北京,2018.11.10-2018.11.10(会议报告-特邀报告)
主持会议:
(1)GongChenglin,SteelRonald,andLinChangsong,Whenandhowclasticdetritusaretransportedfromshelf-edgestagingareasintodeep-waterareas:Fromasource-to-sinkperspective,9thInternationalConferenceonAsianMarineGeology,Shanghai,China,2018.10.10-2018.10.12(会议召集人)
(2)SullivanMorgan,GongChenglin,andSweetMike,SourcetoSink,AAPG2019AnnualConvention&Exhibition,SanAntonio,USA,2019.5.19-2019.5.22(分会场主席)
(3)GongChenglin,TallingPeter,RebescoMichele,CartignyMatthieu,HeijnenMaarten,andHuPeng,Deep-waterchannels:Morphology,architecture,flowprocessesandsedimentation,34thIASMeetingofSedimentology,Roma,Italy,2019.9.10-2019.9.13(会议召集人)
近期论文
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(1)Gong,C*.,Wang,Y.,Zhu,W.,Li,W.,Xu,Q.,Zhang,J.,2011.ThecentralsubmarinecanyonintheQiongdongnanBasin,northwesternSouthChinaSea:Architecture,sequencestratigraphy,anddepositionalprocesses.MarineandPetroleumGeology,v.28,p.1690-1702,doi:10.1016/j.marpetgeo.2011.06.005.
(2)Gong,C*.,Wang,Y.,Peng,X.,Li,W.,Qiu,Y.,Xu,S.,2012.SedimentwavesontheSouthChinaSeaSlopeoffsouthwesternTaiwan:ImplicationsfortheintrusionoftheNorthernPacificDeepWaterintotheSouthChinaSea.MarineandPetroleumGeology,v.32,p.95-109,doi:10.1016/j.marpetgeo.2011.12.005.
(3)Gong,C.,Wang,Y.,Zhu,W.,Li,W.,Xu,Q.,2013.UpperMiocenetoQuaternaryunidirectionallymigratingdeep-waterchannelsinthePearlRiverMouthBasin,northernSouthChinaSea.AAPGBulletin,v.97,p.285-308,DOI:10.1306/0712121115219.
(4)Gong,C*.,Wang,Y.,Hodgson,D.M.,Zhu,W.,Li,W.,Xu,Q.,Li,D.,2014.Originandanatomyoftwodifferenttypesofmass-transportcomplexes:A3DseismiccasestudyfromthenorthernSouthChinaSeamargin.MarineandPetroleumGeology,v.54,p.198–215,doi:org/10.1016/j.marpetgeo.2014.03.006.
(5)Gong,C*.,Wang,Y.,Steel,R.J.,Olariu,C.,Xu,Q.,Liu,X.,Zhao,Q.,2015.Growthstylesofshelf-marginclinoforms:Predictionofsand-andsediment-budgetpartitioningintoandacrosstheshelf.JournalofSedimentaryResearch,v.85,p.209–229,DOI:http://dx.doi.org/10.2110/jsr.2015.10(研究亮点).
(6)Gong,C.,Wang,Y.,Pyles,D.R.,Steel,R.J.,Xu,S.,Xu,Q.,Li,D.,2015.Shelf-edgetrajectoriesandstratalstackingpatterns:Theirsequence-stratigraphicsignificanceandrelationtostylesofdeep-watersedimentationandamountofdeep-watersandstone.AAPGBulletin,v.99,p.1211–1243,doi:10.1306/01311513229.
(7)Gong,C*.,Wang,Y.,Xu,S*.,Pickering,K.T.,Peng,X.,Li,W.,Yan,Q.,2015.ThenortheasternSouthChinaSeamargincreatedbythecombinedactionofdown-slopeandalong-slopeprocesses:Processes,productsandimplicationsforexplorationandpaleoceanography.MarineandPetroleumGeology,v.64,p.233–249,10.1016/j.marpetgeo.2015.01.016.
(8)Gong,C*.,Wang,Y.,Steel,R.J.,Peakall,J.,Zhao,X.,Sun,Q.,2016.Flowprocessesandsedimentationinunidirectionallymigratingdeep-waterchannels:Froma3Dseismicperspective.Sedimentology,v.63,p.645–661,doi:10.1111/sed.12233.
(9)Gong,C*.,Steel,R.J.,Wang,Y.,Lin,C.,Olariu,C.,2016.Shelf-marginarchitecturevariabilityanditsroleinsource-to-sinksedimentbudgetpartitioning.Earth-ScienceReviews,v.154,p.72–101,10.1016/j.earscirev.2015.12.003(IF=9.452,15citations).
(10)Gong,C*.,Steel,R.J.,Wang,Y.,Lin,C.,Olariu,C.,2016.Grainsizeandtransportregimeatshelfedgeasfundamentalcontrolsondeliveryofshelf-edgesandstodeepwater.Earth-ScienceReviews,v.157,p.32–60.
(11)Li,S.,Gong,C*.,2016.Flowdynamicsandsedimentationoflateralaccretionpackagesinsinuousdeep-waterchannels:A3DseismiccasestudyfromthenorthwesternSouthChinaSeamargin.JournalofAsianEarthSciences,v.124,p.233–246,doi.org/10.1016/j.jseaes.2016.05.008.
(12)Gong,C*.,Wang,Y.,Zheng,R.,Hernandez-Molina,F.J.,Li,Y.,Stow,D.,Xu,Q.,Brackenridge,R.E.,2016.MiddleMiocenereworkedturbiditesintheBaiyunSagofthePearlRiverMouthBasin,northernSouthChinaSeamargin:Processes,genesis,andimplications.JournalofAsianEarthSciences,v.128,p.119–129,doi.org/10.1016/j.jseaes.2016.06.025.
(13)Gong,C*.,Peakall,J.,Wang,Y.,Wells,M.G.,Xu,J.,2017.FlowprocessesandsedimentationincontouritechannelsonthenorthwesternSouthChinaSeamargin:Ajoint3Dseismicandoceanographicperspective.MarineGeology,v.393,p.176–193,doi.org/10.1016/j.margeo.2016.11.002).
(14)Gong,C*.,Chen,L.,West,L.,2017.Asymmetrical,inverselygraded,upstream-migratingcyclicstepsinmarinesettings:LateMiocene-earlyPlioceneFishCreek-VallecitoBasin,southernCalifornia.SedimentaryGeology,v.360,p.35–46,doi.org/10.1016/j.sedgeo.2017.09.002.
(15)Gong,C*.,Blum,M.D.,Wang,Y.,Lin,C.,Qiang,X.,2018.Canclimaticsignalsbediscernedinthedeepwatersink?:AnanswerfromthePearlRiversediment-routingsystem.GSABulletin,v.130,p.661–677,doi.org/10.1130/B31578.1.
(16)Li,L.,Gong,C*.,Steel,R.J.,2018.Bankfulldischargeasakeycontrolonsubmarinechannelmorphologyandarchitecture:CasestudyfromtheRioMuniBasin,WestAfrica.MarineGeology,v.401,p.66–80,doi.org/10.1130/G40204.1.
(17)Li,L.,Gong,C*.,2018.GradualtransitionfromneterosionaltonetdepositionalcyclicstepsalongthesubmarinedistributarychannelthalwegintheRioMuniBasin:AJoint3-Dseismicandnumericalapproach.JournalofGeophysicalResearch:EarthSurface,v.123,p.2087–2106,doi.org/10.1130/G40204.1.
(18)Gong,C*.,Wang,Y.,Rebesco,M.,Salon,S.,Steel,R.J.,2018.Howdoturbidityflowsinteractwithcontourcurrentsinunidirectionallymigratingdeep-waterchannels?Geology,v.46,p.551–554,doi.org/10.1016/j.margeo.2018.04.010.
(19)Gong,C.,Steel,R.J.,Sweet,M.L.,Wang,Y.,Li,S.,Xu,Q.,2019.Shelf-edgedeltaoverreachattheshelfbreakcanguaranteethedeliveryofterrestrialsedimentstodeepwateratallsea-levelstands.AAPGBulletin,v.103,p.65–90.
(20)Gong,C*.,Sztanó,O.,Steel,R.J.,Xian,B.,Galloway,W.,Bada,G.,Qiang,X.,2019.Criticaldifferencesinsedimentdeliveryandpartitioningbetweenmarineandlacustrinebasins.GSABulletin,v.131,p.766–781.
(21)Gong,C*.,Qi,K.,Ma,Y.,Li,D.,Feng,N.,Xu,H.,accepted.Tightcouplingbetweenthecyclicityofdeep-watersystemsandrising/flatshelf-edgepairsalongthesubmarinesegmentofQiongdongnansediment-routingsystem.JournalofSedimentaryResearch.
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