龔承林��,男����,教授�����,博士生導(dǎo)師�,2014年獲中國(guó)石油大學(xué)(北京)博士學(xué)位、2014年至2017年在美國(guó)得州大學(xué)奧斯汀分校從事博士后研究���;榮獲中國(guó)地質(zhì)協(xié)會(huì)沉積地質(zhì)專(zhuān)業(yè)委員會(huì)第一屆中國(guó)孫樞獎(jiǎng)����、國(guó)際沉積學(xué)家協(xié)會(huì)(IAS)第二屆國(guó)際孫樞獎(jiǎng)(全球每2年評(píng)選1次�,每次評(píng)選2人)、第19屆侯德封礦物巖石地球化學(xué)青年科學(xué)家獎(jiǎng)和中海石油(中國(guó))有限公司2023年度勘探優(yōu)秀外協(xié)團(tuán)隊(duì)�����。
任AAPG Bulletin和Journal of Sedimentary Research副主編(Associate Editor)����、《沉積學(xué)報(bào)》執(zhí)行副主編、第十一屆中國(guó)地質(zhì)學(xué)會(huì)沉積地質(zhì)專(zhuān)業(yè)委員會(huì)委員和《古地理學(xué)報(bào)》編委����。
主要從事地震解釋、深水沉積與層序源匯方面的教學(xué)和科研工作��;專(zhuān)注于深海沉積過(guò)程及其資源效應(yīng)的深水沉積學(xué)研究���,在深海沉積過(guò)程和深水源匯系統(tǒng)方面取得系列創(chuàng)新成果����。針對(duì)深海沉積過(guò)程:揭示了重力流與底流相互作用的沉積模式,突破了深海沉積過(guò)程的沉積機(jī)制�,開(kāi)拓了深海油氣勘探新領(lǐng)域。針對(duì)深水源匯系統(tǒng):揭示了深水源匯系統(tǒng)的過(guò)程響應(yīng)與驅(qū)動(dòng)機(jī)制��,提出了陸架邊緣多元耦合控砂機(jī)制��,揭示了華南-珠江口盆地源匯過(guò)程及其物源-構(gòu)造-氣候響應(yīng)��。以第一或通訊作者在《Geology》(3篇)�、《GSA Bulletin》(4篇)、《Earth-Science Reviews》(2篇)�����、《Basin Research》(3篇)����、《AAPG Bulletin》(5篇)、《Sedimentary Geology》(6篇)�、《Journal of Sedimentary Research》(3篇)和《Sedimentology》等國(guó)際重要刊物上發(fā)表論文42篇(自然指數(shù)刊物4篇、一區(qū)Top刊物9篇)����,研究成果得到國(guó)內(nèi)外同行較高評(píng)價(jià)、被《Geology》等SCI刊物引用1000余次。主編國(guó)際通用沉積學(xué)教材《Reading’s Sedimentary Environments》(第三版由前IAS主席主編)第四版第六章���,以第一作者出版專(zhuān)著1部(科學(xué)出版社)��、教材1部(石油工業(yè)出版社)。作會(huì)議邀請(qǐng)報(bào)告6次���、擔(dān)任會(huì)議召集人9次��,獲教育部科技進(jìn)步獎(jiǎng)一等獎(jiǎng)和二等獎(jiǎng)各1項(xiàng)�����。主持自然科學(xué)基金項(xiàng)目2項(xiàng)���,企業(yè)橫向課題近20項(xiàng);獲發(fā)明專(zhuān)利3項(xiàng)����。
Email:[email protected], [email protected] 電話(huà):18810061083
1. 團(tuán)隊(duì)建設(shè)與研究生培養(yǎng)
課題組現(xiàn)有博士研究生6人、碩士研究生13人�����;已畢業(yè)博士3人(高等院校2人�、中石油1人)���、碩士9人(碩博連讀3人、讀博1人�����、中石油2人�、中海油1人、中石化1人)�����。與美國(guó)得州大學(xué)奧斯汀分校Ronald J Steel教授(博士后合作導(dǎo)師)課題組有實(shí)質(zhì)的合作關(guān)系�,可以為有志于從事“深水沉積、層序源匯與地震解釋”相關(guān)研究的同學(xué)提供良好的科研平臺(tái)和發(fā)展機(jī)遇��。熱忱歡迎有志于學(xué)術(shù)和深水沉積研究的同學(xué)加入課題組��,愿同同學(xué)們一道探索深水沉積學(xué)奧秘�、盡我所能愿做春泥、甘為人梯�����。
2. 科研項(xiàng)目
在研項(xiàng)目:
(1)南海油氣成藏機(jī)制與勘探開(kāi)發(fā)關(guān)鍵技術(shù)(2025ZD1402700)課題2專(zhuān)題3(2025ZD1402703),瓊東南盆地深水區(qū)伸展構(gòu)造-沉積動(dòng)力相互作用及規(guī)模砂體形成機(jī)制����,2025-2030,主持
(2)中海石油(中國(guó))有限公司天津分公司課題����,渤海中南部明下段沉積體系演化規(guī)律與規(guī)模性砂體發(fā)育模式研究,2024-2025���,主持
(3)中海石油(中國(guó))有限公司上海分公司課題,平湖斜坡帶平湖組地震沉積學(xué)優(yōu)化研究�,2025-2026,主持
結(jié)題項(xiàng)目:
(1)國(guó)家自然科學(xué)基金面上項(xiàng)目�,珠江峽谷末次冰期以來(lái)濁流活動(dòng)對(duì)氣候變化的響應(yīng)尺度與反饋機(jī)制(41972100),2020-2023���,主持
(2)國(guó)家自然科學(xué)基金青年科學(xué)基金項(xiàng)目��,中更新世以來(lái)珠江陸架邊緣三角洲-海底扇“源-匯同步”的形成機(jī)制(41802117)�,2019-2021�,主持
(3)中海石油(中國(guó))有限公司海南分公司課題,“順德凹陷構(gòu)造-沉積特征及成藏條件研究”中的“專(zhuān)題2:順德凹陷沉積充填及優(yōu)質(zhì)烴源巖和儲(chǔ)蓋組合分布”����,2023-2024��,主持
(4)中海石油(中國(guó))有限公司海南分公司課題�����,瓊東南盆地深水區(qū)重點(diǎn)區(qū)帶優(yōu)質(zhì)儲(chǔ)層分布預(yù)測(cè)��,2023-2024�����,主持
(5)中海石油深海開(kāi)發(fā)有限公司課題��,白云凹陷珠江組陸架坡折帶差異控砂機(jī)理與巖性圈閉發(fā)育條件研究����,2023-2023��,主持
(6)中國(guó)石油化工股份有限公司上海海洋油氣分公司���,49/09區(qū)塊梅山組海底扇發(fā)育模式及沉積微相研究����,2023-2023,主持
(7)中國(guó)石油化工股份有限公司石油勘探開(kāi)發(fā)研究院課題��,菩提瓜爾盆地深水濁積體系及濁積砂體儲(chǔ)層預(yù)測(cè)��,2021-2023���,主持
(8)中石油南方公司課題�,福山凹陷重點(diǎn)領(lǐng)域綜合地質(zhì)研究與預(yù)探目標(biāo)評(píng)價(jià)��,2021-2023���,主持
(9)中海石油(中國(guó))有限公司海南分公司課題,瓊東南盆地中央峽谷水道壁特征及其控藏作用研究���,2022-2022���,主持
(10)中海石油(中國(guó))有限公司天津分公司課題,渤南低凸起北部古近系巖性圈閉分布�、成藏機(jī)理分析及有利區(qū)帶預(yù)測(cè),2020-2022�����,主持
(11)中國(guó)石油化工股份有限公司石油勘探開(kāi)發(fā)研究院課題,南大西洋鹽構(gòu)造演化及其對(duì)上覆沉積的控制—以下剛果盆地為例�����,2019-2020����,主持
(12)中石油杭州地質(zhì)研究所課題,深水水道-天然堤體系復(fù)合體沉積儲(chǔ)層分布模式與形成機(jī)制研究���,2019-2020�����,主持
(13)中海石油(中國(guó))東海石油天然氣作業(yè)公司課題�,西湖凹陷杭州斜坡帶古近系成藏條件及勘探方向研究���,2018-2019�����,主持
3. 代表性科研成果(* = 通訊作者)
專(zhuān)著教材:
(1)龔承林��,王英民����,2023. 深海重力流與底流交互作用. 北京:科學(xué)出版社,2023:1-240(316千字).
(2)王英民����,龔承林. 地震解釋原理與應(yīng)用. 北京:石油工業(yè)出版社,2023:1-344(560千字).
(3)Gong, C., Li, S., Steel, R.J., Yu, X., Buatois, L.A., Zhu, X., 2023. Lake Environments. In: Levell, B.K., Johnson, H., (Eds.), Reading’s Sedimentary Environments: Processes, Facies and Stratigraphy, 4th Edition (國(guó)際通用沉積學(xué)教材�����,第三版由前國(guó)際沉積學(xué)會(huì)主席Harold Reading教授主編).
發(fā)明專(zhuān)利:
(1)龔承林�����,彭旸. 深海水道儲(chǔ)層快速評(píng)價(jià)方法�、裝置及計(jì)算機(jī)設(shè)備(發(fā)明專(zhuān)利),專(zhuān)利號(hào):ZL 2021 1 1262807.9
(2)龔承林�,李東偉. 源匯系統(tǒng)物源區(qū)定量恢復(fù)方法和系統(tǒng)(發(fā)明專(zhuān)利)��,專(zhuān)利號(hào):ZL 2022 1 1395689.3
(3)龔承林��,劉濮毓�����,李東偉. 無(wú)井約束確定深水扇富砂區(qū)的方法與系統(tǒng)(發(fā)明專(zhuān)利),專(zhuān)利號(hào):ZL 2022 1 0288022.7
學(xué)術(shù)論文:
(1)龔承林*����,徐長(zhǎng)貴,尤麗����,2024. 深海重力流與底流交互作用的沉積響應(yīng)及其勘探意義.礦物巖石地球化學(xué)通報(bào), v. 43 (04): 721-733.
(2)徐長(zhǎng)貴,龔承林*���,2023. 從層序地層走向源匯系統(tǒng)的儲(chǔ)層預(yù)測(cè)之路.石油與天然氣地質(zhì), v. 44 (03), p. 521-538.
(3)龔承林*�,齊昆�,徐杰,劉喜停�,王英民,2021. 深水源-匯系統(tǒng)對(duì)多尺度氣候變化的過(guò)程響應(yīng)與反饋機(jī)制.沉積學(xué)報(bào), 39 (01), p. 231–252.
(4)Li, Y., Gong, C*., Qiu, X., Colin, C., Barbarand, J., Li, D., Ge, D., 2025. Limited Effect of the Pearl River on the Pearl River Mouth Basin Before the Early Miocene. Basin Research, v. 37: e70045.
(5)Xu, C., Gong, C*., Steel, R.J., Zhang, X., Guan, D., Li, D., 2025. Predicting the occurrence and development of regionally extensive sublacustrine fans in the Oligocene Bohai Bay Basin: From sequence stratigraphy to source-to-sink systems. AAPG Bulletin, v. 109, p. 307–334.
(6)Li, Y., Gong, C*., Qiu, X., Breitfeld, H.T., Barbarand, J., Colin, C., 2024. Provenance history of the eastern Pearl River Mouth Basin: Implications for the evolution of the South China margin. GSA Bulletin, v. 136, p. 5191–5207.
(7)Li, Y., Gong, C.*., Peng, G., Qiu, X., Steel, R.J., Xiao, Z., He, Y., Qi, K., Yu, Y., 2023. Detrital zircon signals of the late Eocene provenance change of the Pearl River Mouth Basin, northern South China Sea. Sedimentary Geology, v. 451, p. 106409.
(8)Gong, C*., Li, D., Steel, R.J., 2023. Sediment waves control origins of submarine canyons: COMMENT. Geology, v. 48, p. 562–562.
(9)Li, D., Gong, C*., Fan, G., Steel, R.J., Ge, D., Shao, D., Ding, L., 2023. Morphological and architectural evolution of submarine channels: An example from the world’s largest submarine fan in the Bay of Bengal. Marine and Petroleum Geology, v. 155, p. 106368.
(10)Qi, K., Gong, C*., Zhang, J., Andresen, K.J., Jin, Z., 2022. Relative sea-level control on the building of two distinct shelf-margin clinothems on the late-Quaternary Pearl River margin: Insights from numerical stratigraphic forward modelling. Basin Research, v. 35, p. 842–864.
(11)Gong, C*., Steel, R.J., Qi, K., Wang, Y., 2021. Deep-water channel morphologies, architectures, and population densities in relation to stacking trajectories and climate states. GSA Bulletin, v. 133, p. 287–306.
(12)Gong, C*., Li, D., Steel, R.J., Peng, Y., Xu, S., Wang, Y., Yu, Y., 2021. Delta-to-fan source-to-sink coupling as a fundamental control on the delivery of coarse clastics to deepwater: Insights from stratigraphic forward modelling. Basin Research, v. 33, p. 2960–2983.
(13)Gong, C., Steel, R.J., Wang, Y., 2020. Channel-levee evolution in combined contour current–turbidity current flows from flume-tank experiments: COMMENT. Geology, v. 48, p. 507-507.
(14)Gong, C*., Sztanó, O., Steel, R.J., Xian, B., Galloway, W., Bada, G., Qiang, X., 2019. Critical differences in sediment delivery and partitioning between marine and lacustrine basins. GSA Bulletin, v. 131, p. 766–781.
(15)Gong, C*., Blum, M.D., Wang, Y., Lin, C**., Qiang, X., 2018. Can climatic signals be discerned in the deepwater sink?: An answer from the Pearl River sediment-routing system. GSA Bulletin, v. 130, p. 661–677, doi.org /10.1130 /B31578.1.
(16)Gong, C., Wang, Y., Rebesco, M., Salon, S., Steel, R.J., 2018. How do turbidity flows interact with contour currents in unidirectionally migrating deep-water channels? Geology, v. 46, p. 551–554.
(17)Gong, C*., Peakall, J., Wang, Y., Wells, M.G., Xu, J., 2017. Flow processes and sedimentation in contourite channels on the northwestern South China Sea margin: A joint 3D seismic and oceanographic perspective. Marine Geology, v. 393, p. 176–193.
(18)Gong, C., Wang, Y., Steel, R.J., Peakall, J., Zhao, X., Sun, Q., 2016. Flow processes and sedimentation in unidirectionally migrating deep-water channels: From a 3D seismic perspective. Sedimentology, v. 63, p. 645–66.
(19)Gong, C*., Steel, R.J., Wang, Y., Lin, C., Olariu, C., 2016. Shelf-margin architecture variability and its role in sediment-budget partitioning into deep-water areas. Earth-Science Reviews, v. 154, p. 72–101.
(20)Gong, C*., Steel, R.J., Wang, Y., Lin, C., Olariu, C., 2016. Grain size and transport regime at shelf edge as fundamental controls on delivery of shelf-edge sands to deepwater. Earth-Science Reviews, v. 157, p. 32–60.
(21)Gong, C., Wang, Y., Steel, R.J., Olariu, C., Xu, Q., Liu, X., Zhao, Q., 2015. Growth styles of shelf-margin clinoforms: Prediction of sand- and sediment-budget partitioning into and across the shelf. Journal of Sedimentary Research, v. 85, p. 209–229.
(22)Gong, C., Wang, Y*., Pyles, D.R., Steel, R.J., Xu, S., Xu, Q., Li, D., 2015. Shelf-edge trajectories and stratal stacking patterns: Their sequence-stratigraphic significance and relation to styles of deep-water sedimentation and amount of deep-water sandstone. AAPG Bulletin, v. 99, p. 1211–1243.
(23)Gong, C., Wang, Y., Zhu, W., Li, W., Xu, Q., 2013. Upper Miocene to Quaternary unidirectionally migrating deep-water channels in the Pearl River Mouth Basin, northern South China Sea. AAPG Bulletin, v. 97, p. 285–308.
(24)Gong, C*., Wang, Y., Peng, X., Li, W., Qiu, Y., Xu, S., 2012. Sediment waves on the South China Sea Slope off southwestern Taiwan: Implications for the intrusion of the Northern Pacific Deep Water into the South China Sea. Marine and Petroleum Geology, v. 32, p. 95–109.
(25)Gong, C*., Wang, Y., Zhu, W., Li, W., Xu, Q., Zhang, J., 2011. The central submarine canyon in the Qiongdongnan Basin, northwestern South China Sea: Architecture, sequence stratigraphy, and depositional processes. Marine and Petroleum Geology, v. 28, p. 1690–1702.
