邱楠生,男�����,福建連城縣人��,1968年7月生,教授��,博士生導師,國家杰出青年基金獲得者�����,教育部長江學者特聘教授���,享受國務院政府特殊津貼專家�����。1989年淮南礦業學院(現安徽理工大學)本科畢業�����,1991年于中國礦業大學北京研究生部獲煤田地質學碩士學位,1994年于中國科學院地質研究所獲構造地質學博士學位�����。1998.10~1999.4在美國Oklahoma State University做訪問學者�����。1994年7月至今在中國石油大學(北京)地球科學學院盆地與油藏研究中心從事教學與科研工作�,曾任盆地與油藏研究中心主任��、地球科學學院院長����、院學術委員會主任���。研究方向為沉積盆地溫壓場�����、盆地構造~熱演化和油氣成藏機理、地熱資源評價�����。發表SCI收錄論文140篇(其中第一/通訊作者95篇)��,出版教材/專著5部��。獲得教育部自然科學一等獎等省部級一等獎6項,2003年獲得青年地質科技獎��、2005年入選教育部“新世紀優秀人才支持計劃”����,獲第七屆黃汲清青年地質科學技術獎,2016年入選科技北京百名領軍人才培養工程。
辦公電話:010-89733340, 手機:13910633594,Email:qiunsh@cup.edu.cn
1�、研究領域
(1)沉積盆地溫壓場�����,(2)地熱資源評價,(3)沉積盆地熱體制和熱歷史�����,(4)油氣成藏機理
2���、學術兼職
(1)油氣資源與工程全國重點實驗室學術委員會委員
(2)中國地質學會構造地質學與地球動力學專業委員會副主任
(3)中國地質學會同位素地質專業委員會委員
(4)中國地球物理學會地熱專業委員會委員
(5)中國礦物巖石地球化學學會包裹體專業委員會委員
(6)《地質學報》副主編����,《China Geology》副主編���,《石油勘探與開發》���、《地學前緣》�、《石油學報》、《Petroleum Science》�、《石油科學通報》��、《現代地質》�����、《地球科學與環境學報》和《海相油氣地質》編委
3、講授的主要課程
(1)《沉積盆地溫壓場》(1995年-),研究生課程
(2)《地熱學基礎》(2017年-)�,研究生課程
(3)《科技論文寫作》(2012年-)�����,本科生課程
(4)《地熱資源勘查》(2018年-),本科生課程
(5)《地質過程定量模擬》(2003-2011年)�,研究生課程
4��、獲獎和榮譽情況
【1】2024 年度中國發明協會發明創業成果獎一等獎《沉積盆地深層古老層系溫壓場重建關鍵技術及應用》,排名第1
【2】北京市2022年度自然科學二等獎《海相沉積盆地溫度場研究》��,排名第1�����;
【3】中國石油和化學工業聯合會2020年科技進步二等獎《中國典型海相盆地溫壓場特征與油氣成藏及勘探應用成效》��,排名第1;
【4】教育部2014年度科技進步一等獎《陸相斷陷盆地流體活動與油氣成藏》����,排名第3����;
【5】2014年中國產學研合作創新成果獎《渤海灣地區油氣形成富集與分布預測》�����, 排名第5;
【6】北京市2011年度科技進步一等獎《油氣臨界成藏理論���、評價方法與重大勘探成效》,排名第3���;
【7】教育部2006年度自然科學一等獎《中國主要含油氣盆地熱體制、熱歷史及其在油氣成藏程中的作用》����,排名第1���;
【8】教育部2005年度科技進步一等獎《濟陽坳陷下第三系油氣運聚成藏與挖潛勘探》���,排名第8�����;
【9】CNPC2002年度技術創新一等獎:《大中型油氣田成藏定量模式研究》,排名第11����;
【10】中國產學研合作創新獎-個人(2020年)
【11】北京市百名領軍人才培養工程(2016年)
【12】第七屆黃汲清青年地質科學技術獎—科技研究者獎(2014年)�;
【13】教育部長江學者特聘教授(2013年)�����;
【14】教育部新世紀優秀人才支持計劃(2005年)�����;
【14】第九屆中國青年地質科技獎—銀錘獎(2003年)�����;
5���、在研主要科研項目
【1】國家重點研發項目“中國東部深層高溫地熱的形成機制��、分布特征和資源評價”(2022-2026)
【2】國家重點研發項目課題“中國東部挽近時期熱體制與深層高溫地熱聚集模式”(2022-2026)
【3】國家自然科學基金地質聯合基金項目“中揚子古隆起周緣震旦-寒武系頁巖氣源儲耦合演化及保存機理”子課題(2023-2026)
【4】中海油深圳分公司十四五外協項目“珠江口盆地深水區油氣高效運聚機理與成藏差異性研究”(2022-2025)
6、已完成的主要科研項目
【1】國家自然科學基金項目
企業創新發展聯合基金項目“深層油氣藏賦存相態和轉化機理研究”子課題(2020-2024)
重點項目“四川盆地構造-熱演化及其對震旦-寒武系天然氣成藏的約束”(2019-2023)
面上項目“沉積盆地中微量元素抑制或催化有機質成熟的機理” (2004-2004)
面上項目“有機質自由基熱演化的時間-溫度效應機制研究”(2005-2007)
面上項目“塔里木盆地西北緣構造-熱演化的低溫熱年代學約束”(2011-2013)
重點項目“華北克拉通破壞的地熱學響應-來自沉積盆地熱歷史的約束”(2012-2015)
杰出青年科學基金項目“石油與天然氣地質學”(2012-2015)
重大項目子課題“頁巖氣改造-散失途徑與保存條件”(2017-2021)
【2】國家油氣重大專項/國家重點研發項目
國家油氣重大專項“典型大型氣田形成的溫壓場研究”專題(2009 -2015)
國家油氣重大專項“準噶爾盆地準中地區油氣成藏動力研究”專題(2011-2015)
國家重點研發計劃“超深層環境油氣生成與烴源灶有效性評”課題之子專題(2018-2021)
【3】國家“973”�����、“863”項目
國家“863”項目“天然氣水合物成藏條件實驗模擬技術”(2006-2010)
國家“973”項目“中國西部疊合盆地多期構造過程疊加與深部古溫壓場重建”課題之子專題(2011-2015)
國家“973”項目“構造熱演化與頁巖氣的改造和保存”課題之子專題(2012-2016)
【4】省部級項目
黑龍江省揭榜掛帥科技攻關項目“古龍頁巖油古溫壓場特征及其對頁巖油成藏作用研究”(2021-2024)
中石油“九五”項目三級課題“柴達木盆地溫壓場研究”(1996-1998)
中石油創新基金“深部熱力系熵與流體輸運熱動力學機制研究(CX2000-05)”(2000-2002)
中石化“十五”重大基礎研究項目“八面河油田成藏組合模式研究”(2000-2003)
教育部重點基金“沉積盆地古生代碳酸鹽巖地區古地溫恢復方法探索”(2003-2005)
中石化“十五”重大項目“郯廬斷裂中段兩側盆地烴源巖分布及演化規律研究”(2003-2005)
中石油創新基金“沉積盆地有機質鏡質體反射率異常的有機-無機作用成因機理” (2003-2005)
中石化西指項目“準噶爾盆地有效烴源巖分布特征、演化歷史和油源貢獻” (2004-2007)
教育部新世紀優秀人才支持計劃項目“我國碳酸鹽巖地區有機質高-過成熟的熱演化歷史及古地溫恢復方法探”(2006-2008)
中海油重大項目“渤海灣地區優質烴源巖分布預測與油氣資源定量評價”(2006-2010)
中石化海相前瞻性項目“中國陸域海相沉積盆地烴源巖成熟度與生烴期次”(2007-2010)
教育部重大項目“中國典型海相沉積盆地熱動力學與油氣成藏”(2008-2011)
【5】其他項目/橫向項目
塔里木油田公司合作研究項目“塔里木盆地主要地質時期溫壓系統恢復及地層水研究”(2020-2021)
中石化油氣成藏重點實驗室開放基金“有機質熱演化的時間-溫度效應機制研究”(2012-2013)
中石化油氣成藏重點實驗室開放基金“南方志留系龍馬溪頁巖成熟度表征方法和過程研究”(2014-2015)
中石油杭州地質研究院項目“四川盆地震旦~古生界深層碳酸鹽巖溫壓場研究”(2015-2016)
華北油田校企合作項目“冀中坳陷重點潛山帶油氣成藏動力與優勢運移方向”(2015-2016)
華北油田校企合作項目“冀中坳陷重點潛山及內幕油氣演化與成藏機理研究”(2018-2019)
中石化西部研究中心項目“塔里木盆地典型地區特深層溫壓場研究”(2018-2019)
中石化西北油田公司項目“順北地區奧陶系不同斷裂帶油氣成藏差異及主控因素研究”(2018-2019)
中石化油氣成藏重點實驗室開放基金“川東丁山地區構造-熱演化研究:來自低溫熱年代學和構造物理模擬的約束”(2018-2019)
西南油氣田公司合作項目“四川盆地構造演化及其對天然氣成藏的控制”(2020-2021)
7����、已授權的專利
[1]常健,邱楠生,劉念,周圓圓.一種裂變徑跡薄片的制備方法.
授權公告日:2017.02.22; 專利號ZL201510259524.7.
[2]常健����,邱楠生����,左銀輝.古熱巖石圈厚度的確定方法及裝置.
授權公告號:CN 105242328 B專利號ZL201510711349.0.
[3]常健, 吳世祥,吳航,邱楠生,劉帥,肖瑤.利用太赫茲時域光譜分析磷灰石裂變徑跡退火程度的方法. 授權公告號:CN 106841096 B,專利號: ZL201710045132.X
[4]吳航,吳世祥,邱楠生,常健,劉帥,肖瑤.一種用于裂變徑跡化學蝕刻的設備及方法.
授權公告號:CN 106872246 B, 專利號: ZL201710045131.5
[5]邱楠生, 吳世祥, 吳航,常健, 肖瑤, 劉帥.快速獲得磷灰石裂變徑跡退火率和自發徑跡密度的方法. 授權公告號:CN 10676999 B, 專利號: ZL 201710045133.4
[6]劉念,邱楠生,沈芳宇,山鑫杰,蔡川,李振明.用于評價碳酸鹽巖斷層封閉性演化史的方法及裝置. 授權公告號:CN 110259439 B, 專利號: ZL 201910462087.7
[7]邱楠生,吳航,常健,蔡川,李振明. 用于鋪設滑脫層的組件和方法.
授權公告號:CN 109801543 B, 專利號: ZL2018 1 1613130.7
[8]常健,邱楠生,李丹,李晨星. 一種獲取沉積盆地坳陷區古地表熱流的方法、裝置及系統.
授權公告號:CN 110879920 B, 專利號: ZL2019 1 1133466.8
[9]吳航,邱楠生,常健,李振明,蔡川.構造-熱演化史恢復的熱運動學的系統及方法.
授權公告號:CN 109829191 B專利號: 2018 1 1581681.X
[10]馮乾乾, 邱楠生. 低溫熱年代學古溫標重建逆沖推覆構造隆升過程改進方法.
專利號: ZL202210475821.5
[11]馮乾乾, 邱楠生. 構造隆升對頁巖氣保存條件影響的定量分析方法.
申請號: 202210474376.0
[12]馮乾乾, 邱楠生, 劉鑫, 常健, 朱傳慶, 徐秋晨. 一種獲取沉積盆地深層古老層系熱歷史的方法. 申請號: 202311191382.6
8����、發表的主要論著
(1)教材和專著:
邱楠生,胡圣標,何麗娟.沉積盆地地熱學.中國石油大學出版社,2019.(2019-2023高被引TOP1%)
邱楠生,胡圣標和何麗娟,沉積盆地熱體制研究的理論和應用.石油工業出版社,2004.
龐雄奇,邱楠生,姜振學. 油氣成藏過程定量模擬.石油工業出版社. 2005.
(2)論文:
Liao K Y, Qiu N S*, Feng Q Q Zhu C Q, Jiang Q. Crustal Structure and Deep Geotherm of the Pearl River Delta in South China: Insights from Gravity and Thermal Modeling. Geothermics, 2025,12,103245
Luo, Q Y, Fariborz G, Zhong N N, Qiu N S. et al., Dispersed organic matter from pre-Devonian marine shales: A review on its composition, origin, evolution, and potential for hydrocarbon prospecting. Earth-Science Reviews,2025,261:105027.
Feng Q Q, Qiu N S*, Fu X Dm Tenger B, Luo Q Y, Zhu C Q. Permian thermal pulse event in Southwestern China and its resource and environment effects. Global and Planetary Change,2025, 246,104722
Liu N, Qiu N S, Qin M K, Li Z M, Cai C, Wang Y J, Guo Q Lu M. Geochemical characteristics, genetic types, and sources of gas accumulations in the northern Jizhong subbasin, Bohai Bay Basin, eastern China. AAPG Bulletin, 2024,108(7): 1357-1385.
Cai C, Qiu N S*, Liu N, Li Z M, Wang Y J, Yu Z W, Jiao Y X. Hydrocarbon migration and accumulation in buried hills based ton quantitative fluorescence techniques, fluid inclusion, and 1D basin modeling: Shulu sag, Bohai Bay basin, NE China. Marine and Petroleum Geology, 2024,170,107136.
Liu X Qiu N S*, Feng Q Q. The thermal history of Permian carbonate strata reconstructed with clumped isotopes and U-Pb dating: Eastern Sichuan Basin, SW China. Marine and Petroleum Geology, 2024,163:106767.
Wang B, Qiu N S*; Ralf L, Sebastian A, Liu Z D. Petroleum system modelling in a compressional tectonic setting: The eastern Kuqa Depression, Tarim Basin, Northwestern China. Journal of Asian Earth Sciences,2023,249:105612.
Feng Q Q, Qiu N S* , Tenger B, et al., Effect of tectonic reworking on shale fracturing and gas preservation in the upper Yangtze block, south China. Marine and Petroleum Geology, 2023, 148:106069.
Feng Q Q, Qiu N S*, Wu Hang, Koyi Hemin. Thermo-Kinematic Constraints on Restoration of the Eastern Sichuan Fold-And-Thrust Belt, South China. Tectonics, 2023, 42(9):e2022TC007630
Zeng Shuai, Qiu Nansheng*, Li Huilli, Gao Jian, Long Kangjie, Jia Jingkun, Zhu Xiuxiang. Generation and distribution of overpressure in ultra-deep carbonate reservoirs controlled by intra-cratonic strike-slip faults: The Ordovician of Shuntuoguole area in the Tarim Basin. Marine and Petroleum Geology, 2023,158:106515
Qiu N S, Chang J, Zhu C Q, et al., Thermal regime of sedimentary basins in the Tarim, Upper Yangtze and North China Cratons, China. Earth-Science Reviews, 2022,224:103884.
Feng Q Q, Qiu N S*, Borjigin Tenger, et al., Tectono-thermal evolution constrained by thermo-kinematic and its effect on shale gas preservation. Energy, 2022, 240, 122781.
Liu X Y, Qiu N S*, Nina S?ager, et al., Geochemistry of Late Permian basalts from boreholes in the Sichuan Basin, SW China: Implications for an extension of the Emeishan large igneous province. Chemical Geology, 2022,588,120636.
常健,張應鱗,邱楠生*,李晨星.基于碎屑鋯石形態學和熱年代學性質解析天山隆升過程. 中國科學:地球科學,2022, 52(4):747-759.
Wang B, Qiu N S*, Sebastian A, Duan Y J, Littke Ralf. Modelling of pore pressure evolution in a compressional tectonic setting: The Kuqa Depression, Tarim Basin, northwestern China. Marine and Petroleum Geology, 2022, 146:105936
Qiu N S, Liu W, Fu X D, et al., Maturity evolution of Lower Cambrian Qiongzhusi formation shale of the Sichuan Basin. Marine and Petroleum Geology, 2021, 128,105061.
Chang J, Stijn Glorie, Qiu N S, et al., Late Miocene (10.0~6.0 Ma) Rapid Exhumation of the Chinese South Tianshan: Implications for the Timing of Aridification in the Tarim Basin. Geophysical Research Letters, 2021,48(3): e2020GL090623
Feng Q Q, Qiu N S*, Fu X D, et al., Permian geothermal units in the Sichuan Basin: Implications for the thermal effect of the Emeishan mantle plume. Marine and Petroleum Geology, 2021,132,105226.
邱楠生,劉一鋒,劉雯和賈京坤.沉積盆地古壓力重建方法與研究實例.中國科學: 地球科學, 2020,50(6): 793-806.
Liu Y C, Qiu N S*, Li H L, et al., Terrestrial heat flow and crustal thermal structure in the northern slope of Tazhong uplift in Tarim Basin. Geothermics, 2020, 83: 101709.
蔡長娥,邱楠生*,李慧莉,等.自然演化碎屑鋯石(U-Th)/He封閉溫度的研究.中國科學: 地球科學, 2020,50(1): 66-78.
劉雨晨,邱楠生*,常健,等. 碳酸鹽團簇同位素在沉積盆地熱演化中的應用-以塔里木盆地順托果勒地區為例.地球物理學報,2020,63(2):597-611.
Liu Y F, Qiu N S*, et al., Temperature and pressure characteristics of the Ordovician gas condensate reservoirs in the Tazhong area, Tarim Basin, Northwest China. AAPG Bulletin, 2019, 103(6) :1351-1381
Chang J*, Qiu N S*, Liu S, et al., Post-Triassic multiple exhumation of the Taihang Mountains revealed via low-T thermochronology: Implications for the paleogeomorphologic reconstruction of the North China Craton. Gondwana Research, 2019, 68 :34-49.
Wang Y, Qiu N S*, Tenger B, et al., Integrated assessment of thermal maturity of the Upper Ordovician-Lower Silurian Wufeng-Longmaxi shale in Sichuan Basin, China. MPG, 2019, 100: 447-465
Chang J, Li D, Kyle M, Qiu N S*, et al., Cenozoic deformation of the Kalpin fold-and-thrust belt (southern Chinese Tian Shan): new insights from low-temperature thermochronology and sandbox modeling. Tectonophysics, 2019, 766:416-432
Xu W, Qiu N S*, Li Y. Evolution of the Cenozoic thermal lithosphere of the Jiyang Sub-basin, Bohai Bay Basin: Implications for the lithospheric thinning mechanism. Tectonophysics, 2019, 773:228229.
Zhu C Q, Qiu N S, Liu Y F, et al., Constraining the denudation process in the Eastern Sichuan Basin using low-temperature thermochronology and vitrinite reflectance data from boreholes. Geological Journal, 2019: 54:426–437.
Cui Y, Zhu C Q, Qiu N S, et al., Lithospheric Thermal Structure in the Xiong’an Area, North China: Constraints from Radioactive Heat Production Data. Energies, 2019,12, 4608.
Guo S S, Zhu C Q, Qiu N S, et al., Present geothermal characteristics and influencing factors in the Xiong'an New Area, North China. Energies, 2019, 12, 3884.
Qiu N S. Special Issue: Advances of Exploration and Utilization Technology of Geothermal Resources in China. Energy Exploration & Exploitation, 2019,37(2):605-606
徐秋晨,邱楠生*,劉雯,常青. 利用團簇同位素恢復沉積盆地熱歷史的探索.科學通報,2019, 64(5-6): 566-578.
Qiu N S, Liu S. Uplift and denudation in continental area of China linked to climate effects: evidence from apatite and zircon fission track data. Scientific Reports, 2018, 8:9546.
Liu W, Qiu N S*, Xu Q C, et al., Precambrian temperature and pressure system of Gaoshiti-Moxi block in the central paleo-uplift of Sichuan Basin, southwest China. Precambrian Research, 2018, 313:91-108.
Tian Y T, Kohn B P, Qiu N S, et al., Eocene to Miocene out-of-sequence deformation in the eastern Tibetan Plateau: Insights from shortening structures in the Sichuan Basin. JGR-Solid Earth, 2018, 123(2):1840-1855.
Jiang Q, Qiu N S*, Zhu C Q, Heat flow study of the Emeishan large igneous province region: Implications for the geodynamics of the Emeishan mantle plume. Tectonophysics, 2018, 724-725: 11-27.
Chang J, Qiu N S*, Zhao X Z, et al., Tectono-thermal reconstruction of the western Bohai Bay Basin (East China) and its implication for hydrocarbon generation and migration. Journal of Asian Earth Sciences, 2018, 160:380-395.
Xu Q C, Qiu N S*, Zhang G W, et al., Thermal Evolution and Maturation of Sinian and Cambrian Source Rocks in the Central Area of the Sichuan Basin, Southwest China. Journal of Asian Earth Sciences, 2018,164:143-158.
Liu Y F, Qiu N S*, Chen J F, et al., Origins and accumulation processes of the Ordovician gas condensate in the Tazhong area, Tarim Basin, northwest China. Geological Journal, 2018, 53(4): 1354-1371
Liu W, Qiu N S*, Shen A J, et al., The evolution of pore-fluid pressure and its causes in the Sinian-Cambrian deep carbonate gas reservoirs in Central Sichuan Basin, Southwest China. Journal of Petroleum Science and Engineering, 2018,160: 96-109
Xu W, Qiu N S*, Wang Y, Chang J. The evolution of the Meso-Cenozoic lithospheric thermal-rheological structure in the Jiyang sub-basin, Bohai Bay Basin, eastern North China Craton. International Journal of Earth Sciences, 2018, 107:153-166
Liu Y C, Chen D X*, Qiu N S*, et al., Geochemistry and origin of continental natural gas in the western Sichuan basin, China. J. Natural Gas Science and Engineering,2018, 49:123-131.
Zhu C Q, Hu S B, Qiu N S, et al., Geothermal constraints on Emeishan mantle plume magmatism: paleotemperature reconstruction of the Sichuan Basin, SW China. International Journal of Earth Sciences, 2018,107:71-88.
Wu H, Wu S X, Qiu N S*, et al., Quantitative identification of the annealing degree of apatite fission track using the terahertz time domain spectroscopy (THz-TDS). Applied Spectroscopy, 2018, 72(6):870-878
Chang J, Qiu N S, Xu W. Thermal regime of the Tarim Basin, Northwest China: A review. International Geology Review, 2017, 59(1):49-61.
Chang J, Tian Y T, Qiu N S*. Mid-Late Miocene deformation of the northern Kuqa fold- and- thrust belt (southern Chinese Tian Shan): An apatite (U-Th-Sm)/He study. Tectonophysics, 2017,694:101-113.
Liu Y F, Qiu N S*, Yao Q Y, Zhu C Q. Impact of Temperature on Overpressure Unloading in the Central Sichuan basin, southwest China. J Petroleum Science and Engineering, 2017, 156: 142-151.
Xu W, Qiu N S*. Heat flow and Destabilized Cratons: A comparative study of the North China, Siberian, and Wyoming Cratons. International Geology Review, 2017,59(7):884-904.
Liu N, Qiu N S*, Chang J, et al., Hydrocarbon migration and accumulation of the Suqiao Buried-hill Zone in Wen’an Slope, Jizhong Subbasin, Bohai Bay Basin, China. MPG, 2017, 86:512-525.
Liu Y C, Chen D X*, Qiu N S*, et al., Reservoir characteristics and methane adsorption capacity of the Upper Triassic continental shale in Western Sichuan Depression, China. Australian J. Earth Sciences, 2017,64(6): 807-823
Li L, Qiu N S. The initiation and tectonic regimes of the Cenozoic extension in the Bohai Bay Basin, North China revealed by numerical modelling. J. Asian Earth Sciences, 2017, 140:92-107.
Qiu N S, Zuo Y H, Xu W, et al., Meso-Cenozoic lithosphere thinning in the eastern North China Craton: evidence from thermal history of the Bohai Bay Basin, North China. Journal of Geology, 2016, 142: 195-219.
Qiu N S, Zuo Y H, Xu W, Chang J, Meso-Cenzoic thermal structure of the lithosphere in the Bohai Bay Basin, eastern North China Craton. Geological Journal, 2016, 51:794-804.
Liu Y F, Qiu N S*, Xie Z Y, et al., Overpressure compartments in the Central Paleo-Uplift, Sichuan Basin, Southwest China. AAPG Bulletin, 2016,100(5):867-888
Chang J, Li J W, Qiu N S, Song X Y, Li H L. Multiple cooling episodes in Central Tarim (Northwest China) revealed by apatite fission track analysis and vitrinite reflectance data. International J. of Earth Science, 2016,105(4):1257-1272.
Liu Y F, Qiu N S*, Chang J, et al., Distribution and evolution for the Upper Triassic overpressures in the central of Sichuan Basin, SW China. J Petroleum Science and Engineering, 2016, 1116-1129.
Chang J, Qiu N S and Xu W. Thermal regime of the Tarim Basin, Northwest China: A review. International Geology Review, 2017, 59(1) :49-61.
Li Z, Qiu N S, Chang J, Yang X M., Precambrian evolution of the Tarim Block and its tectonic affinity to other major continental blocks in China: New clues from U-Pb geochronology and Lu-Hf isotopes of detrital zircons. Precambrian Research, 2015, 270:1-21.
Qiu N S, Xu W, Zuo Y H, Chang J. Meso-Cenozoic thermal regime in the Bohai Bay Basin, eastern North China Craton. International Geology Review, 2015, 57(3):271-289
Zuo Y H, Qiu N S, Hao Q Q, et al., Geothermal regime and source rock thermal evolution in the Chagan sag, Inner Mongolia, northern China. MPG, 2015, 59:245 -267.
Qiu N S, Zuo Y H, Chang J, Li W Z. Geothermal evidence of Mesozoic and Cenozoic lithospheric thinning in the eastern North China craton: constraints from the thermal history of the Jiyang sub-basin, Bohai Bay Basin. Gondwana Research, 2014, 26(3-4):1079-1092.
Chang J, Roderick B, Yuan W M, Li W Z, Que Y Q, Qiu N S*. Mesozoic cooling history of the ‘Bachu Uplift’ in the Tarim Basin, China : constraints from zircon fission-track thermochronology. Radiation Measurements,2014,67:5-14
Qiu N S, Chang J, Zuo Y H, et al., Thermal evolution and Lower Paleozoic source rocks maturation in the Tarim Basin, Northwest China. AAPG Bulletin, 2012, 96(5): 789-821
Qiu N S, Chang J, Li W Z, et al., New evidence on the Neogene uplift of South Tianshan: Constraints from the (U-Th)/He and AFT ages of borehole samples of the Tarim basin and implications for hydrocarbon generation. International J. Earth Sciences, 2012,101(6): 1625-1643
Qiu N S, Li H L, Xu E S, Qin J Z, Zheng L J. Temperature and time effects on free radical concentration in organic matters: evidence from laboratory pyrolysis experimental and geological samples. Energy Exploration and Exploitation, 2012, 30(2):311-329.
Chang J, Qiu N S, Li J W. Tectono-thermal evolution of the northwestern Tarim Basin in China: Constrains from zircon and apatite (U-Th)/He thermochronology. J. Asian Earth Sciences, 2012, 61:187-198.
Chang J, Qiu N S. Closure temperature of (U-Th)/He system in apatite obtained from natural drillhole samples in the Tarim basin and its geological significance. Chinese Science Bulletin, 2012, 57(26): 3482-3490.
Tian Y T, Qiu N S, Barry P K, et al., Detrital zircon (U-Th)/He thermochronometry of the Mesozoic Daba Shan foreland basin, central China: evidence from timing of post-orogenic denudation. Tectonophysics, 2012,(570-571):65-77
Zuo Y H, Qiu N S, Zhang Y, et al., Geothermal regime and hydrocarbon Kitchen evolution of the offshore Bohai Bay Basin, North China. AAPG Bulletin, 2011, 95(5):749-769
Qiu N S, Jiang G, Mei Q H, et al., The Paleozoic tectonothermal evolution of the Bachu Uplift of the Tarim Basin, NW China: constraints from (U-Th)/He ages, apatite fission track and vitrinite reflectance data. J. Asian Earth Sciences, 2011, 41(6):551-563
Qiu N S, Zuo H Y, Zhou X H, Li C C. Geothermal regime of the Bohai Offshore Area, Bohai Bay Basin, North China. Energy Exploration & Exploitation, 2010, 28(5):327-350
Qiu N S, Wang J Y, Mei Q H, et al., Constraints of (U-Th)/He ages on early Paleozoic tectonothermal evolution of the Tarim Basin, China. Science China: Earth Sciences, 2010, 53(7): 964-976.
Qiu N S, Zhang Z H, Xu E S. Geothermal regime and Jurassic source rocks maturity in the Junggar Basin, Northwest China. J. Asian Earth Science, 2008, 31(4-6):464-478
Qiu N S, Li H L, Jin Z J, Zhu Y K. Temperature and time effect on the concentrations of free radicals in coal: evidence from laboratory pyrolysis experiments. International J. of Coal Geology, 2007, 69(3): 220-228.
Qiu N S, Zha M, Wang X L, et al., Tectono-thermal evolution of the Junggar Basin, Northwest China: Constraints from Ro and apatite fission track modeling. Petroleum Geosciences, 2005, 11(4):361-372.
Qiu N S. Geothermal regime in the Qaidam basin, northeast Qinghai-Tibet Plateau. Geological Magazine, 2003, 140(6):707-719
Qiu N S, Kang Y S, Jin Z J. Temperature and pressure field in the Tertiary succession of the Western Qaidam Basin, Northeast Qinghai-Tibet Plateau, China. MPG, 2003, 20(5):493-507
Qiu N S. Tectono-thermal Evolution of the Qaidam Basin, China-evidence from Ro and Apatite fission track data. Petroleum Geosciences, 2002, 8(3):279-285
Qiu N S, Wang J Y. The use of free radicals of organic matter to determine paleogeo- temperature gradient. Organic Geochemistry, 1998, 28(1/2):77-86
9����、研究生培養情況
堅持科研育人�,重視研究生創新性科研能力培養�,提升學生思想政治素質和科研素質,指導研究生恪守學術道德規范。根據本人的研究領域以基礎研究和應用基礎研究為主,結合承擔的各類基金項目,從研究生進入論文開題開始����,培養研究生的科研創新能力��,鼓勵研究生開展創新的基礎研究工作。注重學生科研能力、創新能力的培養。積極鼓勵研究生發表學術成果����。自我校開展評選優秀碩士論文以來��,已有10名研究生獲得校級優秀碩士論文,3人獲得校級優秀博士論文�����,另有1名研究生獲得地質領域研究生的最高獎-李四光優秀研究生獎�。重視研究生的國內外學術交流,鼓勵和引導研究生開展實質性的國際合作���。結合承擔的科研項目開展國際合作和交流,提高自身科研水平�、開闊國際視野�����。同時,積極鼓勵研究生參加北京以外的全國性會議��,開闊視野�。要求碩士生在讀期間必須參加一次以上在北京以外召開的全國性會議。
