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a 日本亚洲欧洲免费天堂:冯东

发布者:刘丙宝发布时间:2019-09-16浏览次数:4271



冯东

 

电话:021-61902780

传真:021-61900304

Email: dfeng@shou.edu.cn



简介:

冯东,男,198010月生,博士,上:Q蟠笱仄附淌,博士生导师。中国科学院百人计划入选者,国家基金委优秀青年基金获得者。

近年来主持国家重点研发计划课题1项和国家自然科学基金项目7项,包括1项青年、1项优青、3项面上、1项重大研究计划培育项目、1项国际合作与交流。已发表包括Geology、EPSL等国际地学顶级刊物在内的第一或通讯作者SCI论文52篇,合作SCI论文26篇,累计SCI刊物引用近2000次。

 

教育经历:

2003.9-2008.7 中国科学院广州地球化学研究所,地球化学,博士

2007.8-2008.6 美国路易斯安那州立大学海洋学院,海洋地质,联合培养博士

1999.9-2003.6 中国地质大学(武汉),石油工程,学士

 

科研与学术工作经历:

2019.9-至今 上:Q蟠笱,特聘教授

2012.7-2019.8 中国科学院南:Q笱芯克,研究员(2017.12起为三级)

2008.7-2011.9 中国科学院广州地球化学研究所,助理研究员

2008.7-2012.6 美国路易斯安那州立大学海洋学院,博士后研究助理

 

学术兼职:

中国矿物岩石地球化学学会第届理事会理事2013–2017

中国矿物岩石地球化学学会第九届理事会理事2017–2021

中国地质学会沉积地质学专业委员会第十届委员2017–

Geology编委(2020.1

Frontiers in Marine Science副编辑(2019.11–

Journal of Asian Earth SciencesSouth China Sea Seep专辑)的特约编辑(2018

Deep-Sea Res. IIExploring the Hadal Zone: Recent Advances in Hadal Science and Technology专辑)的共同编辑(2018

Ore Geology Reviews专辑(Hydrothermal, cold seep and mineralization in Indo-Pacific region专辑)的共同编辑(2021

《沉积学报》第六届编委(2020-2024

《海洋地质与第四纪地质》第六届编委2019-2023

《海洋地质前沿》第六届编委2019-2023

受邀评审Nature Communications, Science Advances, Geology, Earth and Planetary Science Letters, Geochimica et Cosmochimica Acta, Chemical Geology20余个刊物

受邀通讯评审National Science Foundation (USA), Israeli Ministry of Science and Technology, National Science Center (Poland)等基金

 

获奖及荣誉:

2020年,“海马”号深海遥控潜水器研制与应用,获国土资源科学技术奖一等奖(排名第15

2018年,海底冷泉沉积地球化学,获第17届侯德封矿物岩石地球化学青年科学家奖

2017年,中国科学院引进国外杰出人才终期评估优秀(优秀率约20%

2017年,中国石油和化工自动化行业科学技术奖科技进步奖一等奖(排名第8

2014年,国家基金委地学部优秀青年基金资助

2013年,中国科学院引进国外杰出人才称号

2010年,中国科学院优秀博士学位论文提名奖(全院100名)

 

研究方向:

1. 海洋富甲烷环境的生物地球化学过程;

2. 海底冷泉流体活动的沉积记录;

 

代表论著(*通讯作者)

第一作者/通讯作者SCI论文:

1. Feng D*, Pohlman JW, Peckmann J, Sun Y, Hu Y, Roberts H, Chen D, 2021. Contribution of deep-sourced carbon from hydrocarbon seeps to sedimentary organic carbon: Evidence from radiocarbon and stable isotope geochemistry. Chemical Geology, in press.

2. Hu Y, Zhang X, Feng D*, Peckmann J, Feng J, Wang H, Yang S, Chen D, 2021. Enhanced sulfate consumption fueled by deep-sourced methane in a hydrate-bearing area. Science Bulletin, in press.

3. Sun Y, Feng D*, Smrzka D, Peckmann J, Huang H, Roberts H, Chen D, 2021. Uptake of trace elements into authigenic carbonate at a brine seep in the northern Gulf of Mexico. Chemical Geology 582, 120442.

4. Gong S, Feng D*, Peng Y, Peckmann J, Wang X, Hu Y, Liang Q, Feng J, Chen D, 2021. Deciphering the sulfur and oxygen isotope patterns of sulfate-driven anaerobic oxidation of methane. Chemical Geology 581, 120394.

5. Li N, Feng D*, Wan S, Peckmann J, Guan H*, Wang X, Wang H, Chen D, 2021. Impact of methane seepage dynamics on the abundance of benthic foraminifera in gas hydrate bearing sediments: New insights from the South China Sea. Ore Geology Reviews 136, 104247.

6. Jin M, Feng D*, Huang H*, Peckmann J, Li, N, Huang H, Liang Q, Chen D, 2021. Behavior of Mg isotopes during precipitation of methane-derived carbonate: Evidence from tubular seep carbonates from the South China Sea. Chemical Geology 567, 120101.

7. Li N, Yang X, Peckmann J, Zhou Y, Wang H, Chen D, Feng D*, 2021. Persistent oxygen depletion of bottom waters caused by methane seepage: Evidence from the South China Sea. Ore Geology Reviews 129, 103949.

8. Hu Y, Feng D*, Peng Y, Peckmann J, Kasten S, Wang X, Liang Q, Wang H, Chen D. A prominent isotopic fingerprint of nitrogen uptake by anaerobic methanotrophic archaea. Chemical Geology 2020, 119972.

9. Sun Y, Peckmann J, Hu Y, Wang X, Gong S, Peng Y, Chen D, Feng D*, 2020. Formation of tubular carbonates within the seabed of the northern South China Sea. Minerals 10, 768.

10. Hu Y, Feng D*, Peckmann J, Gong S, Liang Q, Wang H, Chen D, 2020. The impact of diffusive transport of methane on pore-water and sediment geochemistry constrained by authigenic enrichments of carbon, sulfur, and trace elements: A case study from the Shenhu area of the South China Sea. Chemical Geology 553, 119805.

11. Huang H, Wang X, Gong S, Krake N, Birgel D, Peckmann J, Chen D, Feng D*, 2020. Element patterns of primary low-magnesium calcite from the seafloor of the Gulf of Mexico. Minerals 10, 299.

12. Sun Y, Gong S, Li N, Peckmann J, Jin M, Roberts HH, Chen D, Feng D*, 2020. A new approach to discern the hydrocarbon sources (oil vs. methane) of authigenic carbonates forming at marine seeps. Marine and Petroleum Geology 114, 104230.

13. Huang H, Wang X, Gong S, Krake N, Jin M, Li N, Birgel D, Peckmann J, Cheng M, Roberts HH, Chen D, Feng D*, 2020. New constraints on the formation of hydrocarbon-derived low magnesium calcite from brine seeps in the Gulf of Mexico. Sedimentary Geology 398, 105572.

14. Chen F, Wang X, Li N, Cao J, Bayon G, Peckmann J, Hu Y, Gong S, Cheng H, Edwards RL, Ning Y, Jin M, Huang H, Wu C, Sun Y, Chen H, Zhou Y, Chen D, Feng D*, 2019. Gas hydrate dissociation during highstand inferred from U/Th dating of seep carbonate from the South China Sea. Geophysical Research Letters, 46, 13928-13938.

15. Wang X, Bayon G, Kim J-H, Lee D-H, Kim D, Guéguen B, Rouget M-L, Barrat J-A, Toffin L, Feng D*, 2019. Trace element systematics in cold seep carbonates and associated lipid compounds. Chemical Geology, 528, 119277.

16. Tong H, Feng D*, Peckmann J, Roberts HH, Chen L, Bian Y, Chen D, 2019. Environments favoring dolomite formation at cold seeps: A case study from the Gulf of Mexico. Chemical Geology 518, 9-18.

17. Huang H, Gong S, Li N, Birgel D, Peckmann J, Jin M, Cheng M, Roberts HH, Chen D, Feng D*, 2019. Formation of authigenic low-magnesium calcite from sites SS296 and GC53 of the Gulf of Mexico. Minerals 9, 251.

18. Hu Y, Luo M, Liang Q, Chen L, Feng D*, Yang S, Liang J, Chen D, 2019. Pore fluid compositions and inferred fluid flow patterns at the Haima cold seeps from the South China Sea. Marine and Petroleum Geology 103, 29-40.

19. Guan H, Feng D*, Birgel D, Peckmann J, Roberts HH, Wu N, Chen D, 2019. Lipid biomarker patterns reflect different formation environments of mussel- and tubeworm-dominated seep carbonates from the Gulf of Mexico (Atwater Valley and Green Canyon). Chemical Geology 505, 36-47.

20. Wang X, Li N, Feng D*, Hu Y, Bayon G, Liang Q, Tong H, Gong S, Tao J, Chen D, 2018. Using geochemical characteristics of sediment to infer methane seepage dynamics: A case study from Haima cold seeps of the South China Sea, Journal of Asian Earth Sciences 168, 137-144.

21. Feng D, Qiu J-W, Hu Y, Peckmann J, Guan H, Tong H, Chen C, Chen J, Gong S, Li N, Chen D, 2018. Cold seep systems in the South China Sea: An overview, Journal of Asian Earth Sciences 168, 3-16.

22. Wan S, Feng D*, Chen F, Zhuang C, Chen D, 2018. Foraminifera from gas hydrate-bearing sediments of the northeastern South China Sea: proxy evaluation and application for methane release activity, Journal of Asian Earth Sciences 168, 125-136.

23. Guan H, Birgel D, Peckmann J, Liang Q, Feng D*, Yang S, Liang J, Tao J, Wu N, Chen D, 2018. Lipid biomarker patterns of authigenic carbonates reveal fluid composition and seepage intensity at Haima cold seeps, South China Sea, Journal of Asian Earth Sciences 168, 163-172.

24. Gong S, Hu Y, Li N, Feng D*, Liang Q, Tong H, Peng Y, Tao J, Chen D, 2018. Environmental controls on sulfur isotopic compositions of sulfide minerals in seep carbonates from the South China Sea, Journal of Asian Earth Sciences 168, 96-105.

25. Hu Y, Luo M, Chen L, Liang Q, Feng D*, Tao J, Yang S, Chen D, 2018. Methane source linked to gas hydrate system at hydrate drilling areas of the South China Sea: Porewater geochemistry and numerical model constraints, Journal of Asian Earth Sciences 168, 87-95.

26. Feng D*, Peckmann J, Li N, Kiel S, Qiu J-W, Liang Q, Carney RS, Peng Y, Tao J, Chen D, 2018. The stable isotope fingerprint of chemosymbiosis in the shell organic matrix of seep-dwelling bivalves. Chemical Geology 479, 241-250. 

27. Liang Q, Hu Y, Feng D*, Peckmann J, Chen L, Yang S, Liang J, Tao J, Chen D, 2017. Authigenic carbonates from two newly discovered active cold seeps on the northwestern slope of the South China Sea: Constraints on fluids sources, formation environments and seepage dynamics. Deep Sea Research I 124, 31-41.

28. Li N, Feng D*, Chen L, Wang H, Chen D, 2017. Compositions of foraminifera-rich turbidity sediments from the Shenhu area on the northern slope of the South China Sea: Implication for the presence of deep water bottom currents. Journal of Asian Earth Sciences 138, 148-160.

29. Hu Y, Chen L, Feng D*, Liang Q, Xia Z, Chen D*, 2017. Geochemical record of methane seepage in authigenic carbonates and respective host sediments: A case study from the South China Sea. Journal of Asian Earth Sciences 138, 51-61.

30. Feng D, Peng Y, Bao H, Peckmann J, Roberts HH, Chen D, 2016. A carbonate-based proxy for sulfate-driven anaerobic oxidation of methane. Geology 44, 999-1002.

31. Chen F, Hu Y, Feng D*, Zhang X, Cheng S, Cao J, Lu H, Chen D, 2016. Evidence of intense methane seepages from molybdenum enrichments in gas hydrate-bearing sediments of the northern South China Sea. Chemical Geology 443, 173-181.

32. Li N, Feng D*, Chen L, Wang H, Chen D, 2016. Using sediment geochemistry to infer temporal variations of methane flux at a cold seep in the South China Sea. Marine and Petroleum Geology 77, 835-845.

33. Guan H, Feng D*, Wu N, Chen D, 2016. Methane seepage intensities traced by biomarker patterns in authigenic carbonates from the South China Sea. Organic Geochemistry 91, 109-119.

34. Feng D, Chen D, 2015. Authigenic carbonates from an active cold seep of the northern South China Sea: New insights into fluid sources and past seepage activity. Deep-Sea Research II 122, 74-83.

35. Feng D, Cheng M, Kiel S, Qiu J-W, Yang Q, Zhou H, Peng Y, Chen D, 2015. Using Bathymodiolus tissue stable carbon, nitrogen and sulfur isotopes to infer biogeochemical process at a cold seep in the South China Sea. Deep-Sea Research I 104, 52-59.

36. Hu Y, Feng D*, Chen L, Zhen G, Peckmann J, Chen D, 2015. Using iron speciation in authigenic carbonates from hydrocarbon seeps to trace variable redox conditions. Marine and Petroleum Geology 67, 111-119.

37. Feng D, Birgel D, Peckmann J, Roberts HH, Joye SB, Sassen R, Liu X-L, Hinrichs H-U, Chen D, 2014. Time integrated variation of sources of fluids and seepage dynamics archived in authigenic carbonates from Gulf of Mexico Gas Hydrate Seafloor Observatory. Chemical Geology 385, 129-139.

38. Hu Y, Feng D*, Peckmann J, Roberts HH, Chen D, 2014. New insights into cerium anomalies and mechanisms of trace metal enrichment in authigenic carbonate from hydrocarbon seeps. Chemical Geology 381, 55-66.

39. Feng D, Roberts HH, Joye SB, Heydari E, 2014. Formation of low-magnesium calcite at cold seeps in an aragonite sea. Terra Nova 26, 150-156.

40. Bian Y, Feng D*, Roberts HH, Chen D, 2013. Tracing the evolution of seep fluids from authigenic carbonates: Green Canyon, northern Gulf of Mexico. Marine and Petroleum Geology 44, 71-81.

41. Tong H, Feng D*, Cheng H, Yang S, Wang H, Angela G. Min, Edwards RL, Chen Z, Chen D, 2013. Authigenic carbonates from seeps of the northern continental slope of the South China Sea: New insights into fluid sources and geochronology. Marine and Petroleum Geology 43, 260-271.

42. Feng D, Cordes EE, Roberts HH, Fisher CR, 2013. A comparative study of authigenic carbonates from tubeworm environments: Implications for discriminating the effects of tubeworms. Deep-Sea Research I 75, 110-118.

43. Feng D, Lin Z, Bian Y, Chen D, Peckmann J, Bohrmann G, Roberts HH, 2013. Rare earth elements of seep carbonates: Indication for redox variations and microbiological processes at modern seep sites. Journal of Asian Earth Sciences 65, 27-33.

44. Feng D, Roberts HH, 2011. Geochemical characteristics of the barite deposits at cold seeps from the northern Gulf of Mexico continental slope. Earth and Planetary Science Letters 309, 89-99.

45. Birgel D, Feng D*, Roberts HH, Peckmann J, 2011. Changing redox conditions at cold seeps as revealed by authigenic carbonates from Alaminos Canyon, northern Gulf of Mexico. Chemical Geology 285, 82-96.

46. Feng D, Roberts HH, Cheng H, Peckmann J, Bohrmann G, Edwards RL, Chen D, 2010. U/Th dating of cold-seep carbonates: An initial comparison. Deep-Sea Research II 57, 2055-2060.

47. Feng D, Roberts HH, 2010. Initial results of comparing cold seep carbonates from mussel- and tubeworm-associated environments at Atwater Valley lease block 340, northern Gulf of Mexico. Deep-Sea Research II 57, 2030-2039.

48. Feng D, Chen D, Peckmann J, Bohrmann G, 2010. Authigenic carbonates from methane seeps of the northern Congo Fan: Microbial formation mechanism. Marine and Petroleum Geology 27, 748-756.

49. Feng D, Chen D, Peckmann J, 2009. Rare earth elements in seep carbonates as tracers of variable redox conditions of ancient hydrocarbon seeps. Terra Nova 21, 49-56.

50. Feng D, Chen D, Roberts HH, 2009. Petrographic and geochemical characterization of seep carbonate from Bush Hill (GC185) gas vent and hydrate site of the Gulf of Mexico. Marine and Petroleum Geology 26, 1190-1198.

51. Feng D, Chen D, Roberts HH, 2008. Sedimentary fabrics in the authigenic carbonates from Bush Hill: Implication for seabed fluid flow and its dynamic signature. Geofluids 8, 301-310.

52. Feng D, Chen D, Qi L, Roberts HH, 2008. Petrographic and geochemical characterization of seep carbonate from Alaminos Canyon, Gulf of Mexico. Chinese Science Bulletin 53, 1716-1724.

 

合作SCI论文:

1. Li W, Dong Y, Lu R, Zhou Y, Zheng P, Feng D, Wang Y, 2021. Microbial ecology of sulfur cycling near the sulfate-methane transition of deep-sea cold seep sediments. Environmental Microbiology, in press.

2. Wang Y, Li W, Li Q, Zhou Y, Gao Z, Feng D, 2021. Deep-Sea Carbonates Are a Reservoir of Fossil Microbes Previously Inhabiting Cold Seeps. Front. Mar. Sci. 8:698945. doi: 10.3389/fmars.2021.698945

3. Smrzka D, Zwicker J, Lu Y, Sun Y, Feng D, Monien P, Bohrmann G, Peckmann J, 2021. Trace element distribution in methane-seep carbonates: The role of mineralogy and dissolved sulfide, Chemical Geology 580, 120357.

4. Guan H, Birgel D, Feng D, Peckmann J, Liu L, Liu L, Tao J, 2021. Lipids and their δ13C values reveal carbon assimilation and cycling in the methane-seep tubeworm Paraesarpia echinospica from the South China Sea. Deep-Sea Res. I 174, 103556.

5. Bayon, G., Lemaitre, N., Barrat, J.-A., Wang, X., Feng, D., Duperron, S., 2020. Microbial utilization of rare earth elements at cold seeps related to aerobic methane oxidation, Chemical Geology 555, 119832.

6. Zhao Y, Xu T, Sheung Law Y, Feng D, Li N, Xin R, Wang H, Ji F, Zhou H, Qiu J. Ecological characterization of cold-seep epifauna in the South China Sea. Deep-Sea Res. I 163, 103361.

7. Smrzka, D., Feng, D., Himmler, T., Zwicker, J., Hu, Y., Monien, P., Tribovillard, N., Chen, D., Peckmann, J., 2020. Trace elements in methane-seep carbonates: Potentials, limitations, and perspectives. Earth-Science Reviews 208, 103263.

8. Wang X, Barrat J-A, Bayon G, Chauvaud L, Feng D, 2020. Lanthanum anomalies as fingerprints of methanotrophy. Geochemical Perspectives Letters 14, 26-30.

9. Di P, Feng D, Tao J, Chen D, 2020. Using Time-Series Videos to Quantify Methane Bubbles Flux from Natural Cold Seeps in the South China Sea. Minerals 10, 216.

10. Yang Y, Sun J, Sun Y, Kwan YH, Wong WC, Zhang Y, Xu T, Feng D, Zhang Y, Qiu J-W, Qian P-Y, 2020. Genomic, transcriptomic, and proteomic insights into the symbiosis of deep-sea tubeworm holobionts. ISME J 14, 135–150.

11. Lan Y, Sun J, Zhang W, Xu T, Zhang Y, Chen C, Feng D, Wang H, Tao J, Qiu J-W, Qian P-Y, 2019. Host-symbiont interactions in deep-sea chemosymbiotic vesicomyid clams: insights from transcriptome sequencing. Frontiers in Marine Science 6, 680.

12. Smarzka D, Zwicher J, Bach W, Feng D, Himmler T, Chen D, Peckmann J, 2019. The behavior of trace elements in seawater, sedimentary pore water, and their incorporation into carbonate minerals: a review. Facies 65, 41.

13. Di P, Feng D, Chen D, 2019. The distribution of dissolved methane and its air–sea flux in the plume of a seep field, Lingtou Promontory, South China Sea. Geofluids, Article ID 3240697.

14. Xu T, Feng D, Tao J, Qiu J-W, 2019. A new species of deep-sea mussel (Bivalvia: Mytilidae: Gigantidas) from the South China Sea: morphology, phylogenetic position, and gill-associated microbes. Deep Sea Res I 146, 79-90.

15. Xu T, Sun J, Watanabe H, Chen C, Nakamura M, Ji R, Feng D, Lv J, Wang S, Bao Z, Qian P-Y, Qiu J-W, 2018. Population genetic structure of the deep-sea mussel Bathymodiolus platifrons (Bivalvia, Mytilidae) in the Northwest Pacific. Evolutionary Applications 11, 1915-1930.

16. Gong S, Peng Y, Bao H, Feng D, Cao X, Crockford P, Chen D, 2018. Triple sulfur isotope relationships during sulfate driven anaerobic oxidation of methane. Earth and Planetary Science Letters 504, 13-20.

17. Zhang Y, Sun J, Chen C, Watanabe HK, Feng D, Zhang Y, Chiu JMY, Qian P-Y, Qiu J-W, 2018. The mitochondrial genome of the deep-sea tubeworm Paraescarpia echinospica (Siboglinidae, Annelida) and its phylogenetic implications. Mitochondrial DNA Part B 3,131-132.

18. Zhang Y, Sun J, Chen C, Watanabe HK, Feng D, Zhang Y, Chiu JMY, Qian P-Y, Qiu J-W, 2017. Adaptation and evolution of deep-sea scale worms (Annelida: Polynoidae): insights from transcriptome comparison with a shallow-water species. Scientific Reports 7, 46205.

19. Di P, Feng D, Chen D, 2016. The distribution and variation in gas composition of macro-seeps on the near-shore Lingtou Promontory, South China Sea. Acta Oceanologica Sinica 35, 120-125.

20. Hu Y, Feng D, Liang Q, Xia Z, Chen L, Chen D, 2015. Impact of anaerobic oxidation of methane on geochemical cycle of redox-sensitive elements at cold seep sites of the northern South China Sea. Deep-Sea Research II 122, 84-94.

21. Di P, Feng D, Chen D, 2014. Temporal variation in the natural gas seep rate and the influence factors in the Lingtou promontory seep field of the northern South China Sea. Terrestrial, Atmospheric and Oceanic Sciences 25, 665-672.

22. Di P, Feng D, Chen D, 2014. In-situ and on-line measurement of gas flux at hydrocarbon seeps from the northern South China Sea. Continental Shelf Research 81, 80-87.

23. Guan H, Sun Y, Zhu X, Mao S, Feng D, Wu N, Chen D, 2013. Factors controlling the types of microbial consortia in cold-seep environments: A molecular and isotopic investigation of authigenic carbonates from the South China Sea. Chemical Geology 354, 55-64.

24. Lin Z, Wang Q, Feng D, Liu Q, Chen D, 2011. Post-depositional origin of highly 13C-depleted carbonate in the Doushantuo cap dolostone in South China: Insights from petrography and stable carbon isotopes. Sedimentary Geology 242, 71-79.

25. Roberts HH, Feng D, Joye SB, 2010. Cold-seep carbonates of the middle and lower continental slope, northern Gulf of Mexico. Deep-Sea Research II 57, 2040-2054.

26. Guan H, Feng D, Wu N, Chen D, Roberts HH, Wu D, 2010. Fatty-acids and their δ13C characteristics of seep carbonates from the northern continental slope of Gulf of Mexico. Chinese Science Bulletin 55, 730-735.

27. Chen D, Feng D, Su Z, Song Z, Chen G, Cathles LM, 2006. Pyrite crystallization in seep carbonates at gas vent and hydrate site. Materials Science and Engineering C, 602-605.

 

专著章节:

1. Niu M, Liang Q, Feng D, Wang F, 2017. Ecosystems of cold seeps in the South China Sea, in Kallmeyer J, (eds.) Life at Vents and Seeps. De Gruyter, pp. 139-160. Doi: 10.1515/9783110493672-006.

2. Roberts HH, Feng D, 2013. Carbonate precipitation at Gulf of Mexico hydrocarbon seeps: An overview, in Abrams M, Aminzadeh, F, Berge T, Connolly D, O’Brien G. (eds.) Hydrocarbon Seepage: From Source to Surface: SEG/AAPG Special Publication, pp. 43-61. Doi: 10.1190/1.9781560803119.ch3.

 

 

中文核心论文:

1. 冯东*; 宫尚桂, 海底冷泉系统硫的生物地球化学过程及其沉积记录研究进展. 矿物岩石地球化学通报, 2019, 38(6): 1047~1056.

2. 刘关勇; 王旭东; 黄慧文; 孙跃东; 梁前勇; 李牛; 胡钰; 冯东*, 南海北部烟囱状碳酸盐岩记录的冷泉流体活动演化特征研究, 地球化学, 2017, (06): 567~579.

3. 王旭东; 黄慧文; 孙跃东; 李牛; 胡钰; 冯东*, 北印度洋海底冷泉流体活动研究进展, 热带海洋学报, 2017, (06): 82~89.

4. 佟宏鹏; 冯东; 陈多福, 南海北部冷泉碳酸盐岩的矿物、岩石及地球化学研究进展, 热带海洋学报, 2012, (05): 45~56.

5. 卞友艳; 林治家; 冯东; 陈多福, 冷泉碳酸盐岩的稀土元素地球化学特征及氧化还原条件示踪, 热带海洋学报, 2012, (05): 37~44.

6. 管红香; 冯东; 吴能友; H.H. Roberts; 陈多福, 墨西哥湾北陆坡区冷泉碳酸盐岩脂肪酸及碳同位素特征, 科学通报, 2010, (Z1): 367~373.

7. 冯东; 陈忠; 陈多福, 海底冷泉及其生态系统. 10000个科学难题-地球科学卷, 科学出版社. 2010, 462~465.

8. 管红香; 陈多福; 冯东; 吴能友, 墨西哥湾陆坡区冷泉碳酸盐岩的烷烃分布特征, 热带海洋学报, 2009, (03): 67~73.

9. 冯东; 陈多福; 漆亮; H.H. Roberts. 墨西哥湾Alaminos Canyon冷泉碳酸盐岩地质地球化学特征, 科学通报, 2008, (08): 966~974.

10. 冯东; 陈多福, 黑海西北部冷泉碳酸盐岩的沉积岩石学特征及氧化还原条件的稀土元素地球化学示踪, 现代地质, 2008, (03): 390~396.

11. 冯东; 陈多福, 海底沉积物孔隙水钡循环对天然气渗漏的指示, 地球科学进展, 2007, (01): 49~57.

12. 冯东; 陈多福; 苏正; 刘芊, 海底甲烷缺氧氧化与冷泉碳酸盐岩沉淀动力学研究进展, 海洋地质与第四纪地质, 2006, (03): 125~131.

13. 冯东; 陈多福; 刘芊, 新元古代晚期盖帽碳酸盐岩的成因与雪球地球的终结机制, 沉积学报, 2006, (02): 235~241.

14. 陈多福; 苏正; 冯东; LM Cathles, 海底天然气渗漏系统水合物成藏过程及控制因素, 热带海洋学报, 2005, (03): 38~46.

15. 陈多福; 冯东; LM Cathles, 海底天然气渗漏系统水合物成藏动力学及其资源评价方法, 大地构造与成矿学, 2005, (02): 278~284.

16. 陈多福; 冯东; 陈光谦; 陈先沛; LM Cathles, 海底天然气渗漏系统演化特征及对形成水合物的影响, 沉积学报, 2005, (02): 323~328.

17. 冯东; 陈多福; 苏正; 刘芊, 海底天然气渗漏系统微生物作用及冷泉碳酸盐岩的特征, 现代地质, 2005, (01): 26~32.

 

主要负责科研项目列表:

序号

项目名称

经费(万)

项目类别与编号

起止时间

1

海底低甲烷通量和高有机质环境孔隙水硫酸根多硫同位素组成及其对海洋硫循环的启示

59

国家基金面上项目

42176056

2022.1-2025.12

2

现代冷泉区沉积物孔隙水硫酸根硫氧同位素研究及其对古冷泉系统硫酸根的消耗途径和甲烷通量的指示意义

69

国家基金面上项目

41773091

2018.1-2021.12

3

现今文石海时期冷泉系统低镁方解石和伴生重晶石的成因机制研究

128

国家基金国际合作与交流项目

41761134084

2018.1-2020.12

4

ROV生物地球化学探查技术应用及南海冷泉区生态环境研究

200

国家重点研发计划课题

2017YFC0306702

2017.7-2020.12

5

冷泉沉积及其地球化学

100

国家基金优秀青年科学基金项目

41422602

2015.1-2017.12

6

冷泉系统微生物硫酸盐还原作用在碳酸盐岩中的记录

85

国家基金面上项目

41373085

2014.1-2017.12

7

南海北部活动冷泉探测及活动特征研究

200

中国科学院引进国外杰出人才百人计划项目

2013-2017

8

南海冷泉碳酸盐岩U系定年:天然气水合物分解释放甲烷的时间及其与古海平面变化之间的关系

70

国家基金重大研究计划培育项目

91028012

2011.1-2013.12

9

冷泉生物生命效应的地球化学记录及其对沉积特征的改造:贻贝和管状蠕虫环境沉淀的冷泉碳酸盐岩的对比研究

21

国家基金青年项目

40906031

2010.1-2012.12

 


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