一、基本概况

国康纳尔大学地球与大气科学系的气源、地质和温压条件及其建设。陈多福,男,博士,硕士和博士生导师,19628月出生于江苏苏州市吴中区,是2007年度国家杰出青年基金获得者,2009年度国务院政府特殊津贴获得者。目前是上海海洋大学海洋科学学科负责人、二级研究员。

2008年第一批研究生毕业以来,共培养博士生18名、硕士生6名,其中1名获得国家优秀青年基金资助,2名获得正高职称。目前在读博士生3名,硕士生16名。

目前团队成员共有教工10人,其中教师7人(正高1人,副高3人,中级3人),实验技术人员2人,行政管理1人。

目前的主要研究方向和兴趣领域:1)海底天然气水合物的形成与分解的数值模拟;2)深海极端环境(深渊、冷泉、蛇纹岩化泥火山)碳、氮、硫等元素的地球化学循环; 3)海陆交互带湿地和缺氧环境碳、氮、硫等元素的迁移和转化规律及控制因素。

 

二、教育与科研经历:

1979.9-1983.6在兰州大学地质系学习,获得理学学士学位;

2001.3-2003.12在中科院研究生院博士研究生(在职),获得地球化学专业博士学位;

1983.7-1989.12在中国科学院地球化学研究所工作;

1990.1-2005.12在中国科学院地球化学研究所工作;

2016.1-至今在上海海洋大学工作。

曾于199412月-19961月由中国科学院公派在澳大利亚悉尼科技大学进修14个月,1999年以来长期与美国康纳尔大学地球与大气科学系、路易斯安那州立大学海洋学、德国不来梅大学海洋中心、美国明尼苏达大学开展海底冷泉和天然气水合物的合作研究。

80-90年代主要开展沉积地层中的热水流体沉积、成矿作用及华南震旦纪沉积地球化学的研究。1998年以来主要从事海底冷泉流体沉积(天然气水合物和冷泉碳酸盐岩)地球化学研究。是国内最早开展冷泉及渗漏甲烷形成水合物的学者之一。2002年通过载人深潜器对墨西哥湾布什山海底冷泉天然气渗漏活动和海底出露水合物进行了实地考察。

负责各类项目20多项,总经费3000多万,发表学术论文100多篇,其中SCI刊物论文第一和通讯作者50多篇、合作论文40多篇。提出了海洋环境天然气水合物成因分类方案(渗漏型与扩散型)及渗漏型水合物的成藏理论,最早(2001年)把冷泉和冷泉碳酸盐岩的概念引入我国,推动了我国在该领域的研究,发表论文总引用1000多次。

是《地球化学》、《沉积学报》、《矿物岩石地球化学通报》和《天然气地球科学》编委。是国家自然科学一等奖(层控矿床地球化学-1986)和中国科学院自然科学一等奖(东南岩石圈基底演化与成矿作用-1996)的主要成员。是2000年度国家基金委优秀成果奖和2005年度中国科学院优秀博士论文奖获得者。是2005年度广东省科学技术二等奖(第2)、2006度中国石油和化工协会科学技术二等奖(第2)、2006年度广东省科学技术三等奖(第2)、2017年度中国石油与化工自动化应用协会科学进步一等奖(第1)主要贡献人。

 

三、承担的项目情况:

一)、在研项目5

1)        2018-2021,负责国家重点研发计划项目“中国海域冷泉系统演变过程及其机制”中的课题3“冷泉系统元素的迁移转换过程及影响因素”,经费335万。项目编号: 2018YFC0310000

2)        2018-2022,负责国家基金重点项目:南海北部冷泉和天然气水合物发育区海底浅表层沉积物碳循环数值模拟,直接费用:316万元,项目批准号:41730582.

3)        2017-2020,负责国家基金面上项目:中国台湾东部利吉混杂岩中蛇纹岩角砾碎屑岩及伴生碳酸盐岩脉的地球化学特征及成因,直接费用:71.00万元,项目批准号:41673029

 

二)、 2005年以来负责的结题项目

1)        2014-2018,负责中科院先专项B-课题:深渊蛇纹岩化和海底流体活动研究。500万,承担单位:中科院广州地化所,负责人:陈多福。

2)        2014-2018,参加彭平安院士国家基金群体项目 “湖相页岩油的生成与富集机制研究项目编号:41321002。承担单位:中科院广州地化所。负责 “页岩体系细粒沉积学与岩性、矿物、有机质非均质成因,子课题经费220万。

3)        2013-2016,负责国家基金重大研究计划重点项目,南海北部海底冷泉探测及其活动特征研究,400万。项目号:91228206承担单位:中科院广州地化所,负责人:陈多福。

4)        2013-2016,负责国家基金面上项目,西藏地区晚白垩世日额则弧前盆地冷泉碳酸盐岩的发现及地质意义。100万。项目编号:41273041承担单位:上海海洋大学,负责人:陈多福。

5)        2014-2016,国家专项子专题,南海冷泉系统天然气水合物成藏数值模拟。60万。负责。GZH201100305-06承担单位:中科院南海海洋研究所,负责人:陈多福。

6)        2012-2015,负责中科院广州地球化学研究所135前沿项目:南海深水冷泉活动区水合物发育特征及控制因素,100. Y234021001.

7)        2012-2015,负责中科院三亚深海科学与工程研究所前沿项目:海底冷泉渗漏系统天然气流量原位声波测量方法和基础研究,105万。SIDSSE-201208

8)        2012-2014.中科院百人计划D类项目:南海西南部大陆边缘冷泉发育特征及其关键地球化学循环过程,60万。

9)        2011-2014:负责中科院西部行动计划项目课题:多年冻土区天然气水合物形成条件研究,80万。KZCX2-XB3-03

10)    2010-2013:南海北部冷泉活动机制及其生物地球化学过程,中科院资环局国际合作重大项目,400万,项目负责。KZCX2-YW-GJ03

11)    2009-2013:南海北部天然气水合物成藏机制和富集规律研究,973项目,项目专家,168万。2009CB219500

12)    2009-2010:华南陡山沱组底部盖帽碳酸盐岩的沉积岩石学及成因研究,国家基金面上项目,47万,负责。

13)    2009-2010:海底冷泉天然气渗漏原位地球化学探测,院重大装备研制项目,165万,负责。

14)    2009-2010:海底水合物区局部环境监测与分析技术方案研究,国家油气重大专项-4级子课题,70万,负责。

15)    2009-2011:三相体系水合物生成实验模拟观测系统研制,海洋区域中心装备研制项目,30万。负责。

16)    2008-2011:南海天然气水合物成藏过程中的几个关键问题,国家基金-广东省联合基金重点项目,160万,项目负责人。

17)    2008-2011:海底天然气渗漏和水合物发育区的甲烷地球化学过程,国家杰出青年基金,200万,项目负责人。

18)    2008-2010:海底冷泉天然气渗漏原位流量在线测量技术,863计划前沿探索项目,100万,课题负责人。

19)    2007,首席科学家负责中科院创新重要方向项目南海北部渗漏型水合物遥感异常分布及探测研究经费200万。

20)    2005-2007,首席科学家负责中科院创新重要方向项目海底天然气渗漏系统水合物成藏机制及识别方法,经费300万。

21)    2007-2011,负责中科院广州天然气水合物研究中心项目海洋天然气水合物生成动力学数值模拟,经费45万。

22)    2007-2009,负责中科院人教局人才基金项目新元古代冰期天然气水合物形成/分解与冰期终结机制,经费20万。

23)    2006-2008,负责国家自然科学基金项海洋天然气渗漏系统水合物生成动力学,经费38万。项目编号:40572071

24)    2005-2007,负责国家自然科学基金项海底天然气渗漏系统冷泉碳酸盐岩的细菌沉淀动力学,经费37万。项目编号:40472059

 

四、发表的主要论著目录

一)第一作者和通讯作者SCI刊物论文(*为通讯作者):

1.        Zheng, Z., Cao*, Y., Xu, W., & Chen, D*. (2020). A numerical model to estimate the effects of variable sedimentation rates on methane hydrate formation—Application to the ODP Site 997 on Blake ridge, southeastern north American continental margin. Journal of Geophysical Research: Solid Earth, 125, e2019JB018851. https://doi.org/10.1029/2019JB018851.

2.        Qinxian Wang*, Duofu Chen*, Jörn Peckmann, 2019. Iron shuttle controls on molybdenum, arsenic, and antimony enrichment in Pliocene methane-seep carbonates from the southern Western Foothills, Southwestern Taiwan. Marine and Petroleum Geology 100, 263-269.

3.        Hongpeng Tong, Dong Feng*, Jörn Peckmann, Harry H. Roberts, Linying Chen, Youyan Bian, Duofu Chen*. Environments favoring dolomite formation at cold seeps: A case study from the Gulf of Mexico. Chemical Geology 518 (2019) 9–18.

4.        Yanping Zhang, Min Luo*, Yu Hu, Hongbin Wang, and Duofu Chen*. An Areal Assessment of Subseafloor Carbon Cycling in Cold Seeps and Hydrate-Bearing Areas in the Northern South China Sea. Geofluids, 2019, https://doi.org/10.1155/ 2019/2573937

5.        Cheng, W., Qin, W*. , Guo, C., Long, H., Yong, X., Lin, C ., Chen, D**., 2017. Petrographic and geochemical characteristics of the lacustrine black shales from the Upper Triassic Yanchang Formation of the Ordos Basin, China: Implications for the organic matter accumulation. Marine and Petroleum Geology 86, 52-65.

6.        Yu Hu, Linying Chen, Dong Feng*, Qianyong Liang, Zhen Xia, Duofu Chen*. Geochemical record of methane seepage in authigenic carbonates and surrounding host sediments: A case study from the South China Sea. Journal of Asian Earth Sciences, 2017, 138:51–61.

7.        Min Luo, J Gieskes, L Chen; X Shi, D Chen*.Provenances, distribution, and accumulation of organic matter in the southern Mariana Trench rim and slope: implication for carbon cycle and burial in hadal trenches. Marine Geology, 2017, 38698–106.

8.        Min Luo, T J. Algeo, H Tong, J Gieskes, L Chen, X Shi, D Chen*. More reducing bottom-water redox conditions during the Last Glacial Maximum in the southern Challenger Deep (Mariana Trench, western Pacific) driven by enhanced productivity. Deep-Sea Research Part II, 2017, http://dx.doi.org/10.1016 /j.dsr 2. 2017.01.006(In Press, Corrected Proof).

9.        Hongpeng Tong, Qinxian Wang, Jörn Peckmann, Yuncheng Cao, Linying Chen, Weide Zhou, Duofu Chen*. Diagenetic alteration affecting δ18O, δ13C and 87Sr/86Sr signatures of carbonates: A case study on Cretaceous seep deposits from Yarlung-Zangbo Suture Zone, Tibet, China. Chemical Geology, 2016, 444:71–82.

10.    Niu Li, Dong Feng*, Linying Chen, Hongbin Wang, Duofu Chen*. Using sediment geochemistry to infer temporal variation of methane flux at a cold seep in the South China Sea. Marine and Petroleum Geology, 2016, 77: 835-845.

11.    Feng Junxi, Duofu Chen*. Characterization of authigenic carbonates from Huoshaogang landfill, Guangzhou, China: implication for microbial metabolism. Environ. Earth Sci.,2015, DOI 10.1007/s12665-015-4485-5.

12.    Min Luo, Andrew W. Dale, Klaus Wallmann, Christian Hensen, Joris Gieskes, Wen Yan, Duofu Chen*. Estimating the time of pockmark formation in the SW Xisha Uplift (South China Sea) using reaction-transport modeling. Marine Geology, 2015, 364 : 21–31.

13.    Hu Yu, Dong Feng*, Linying Chen, Guodong Zheng, Jorn Peckmann, Duofu Chen*. Using iron speciation in authigenic carbonates from hydrocarbon seeps to trace variable redox conditions. Marine and Petroleum Geology, 2015, 67:111-119.

14.    Hu, Y., Feng, D., Liang, Q., Xia, Z., Chen, L., Chen, D*, 2015. Impact of anaerobic oxidation of methane on the geochemical cycle of redox-sensitive elements at cold-seep sites of the northern South China Sea. Deep-Sea Res. II (2015), http://dx.doi.org/10.1016/j. dsr2.2015. 06.012i.

15.    Min Luo, Huagu Huang, Peng Zhang, Qingbai Wu, Duofu Chen*. Preliminary study of geochemiscal characteristics and origins of seeping gases in Qiangtang Basin and its adjacent areas, Tibet, China. Journal of Geochemical Exploration,2014, 146:119–126.

16.    Pengfei Di, Dong Feng, Duofu Chen*. 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, 2014. doi: 10.3319/TAO.2014.04.30.01(Oc)

17.    Min Luo, Chen Linying, Wen Yan, Duofu Chen*. Gas hydrate occurrence inferred from pore water Cl- concentrations and δ18O values in the shallow sediments of the pockmark field in southwestern Xisha Uplift, northern South China Sea. Energies, 2014, 7: 3886-3899; doi:10.3390/en7063886.

18.    Yu Hu, Dong Feng, Jörn Peckmann, Harry H. Roberts, Duofu Chen*. New insights into Ce anomalies and mechanisms of trace metal enrichment in authigenic carbonate from hydrocarbon seeps. Chemical Geology, 2014, 381:55-66.

19.    Niu Li, Huagu Huang, Duofu Chen*. Fluid sources and chemical processes inferred from geochemistry of pore fluids and sediments of mud volcanoes in the southern margin of the Junggar Basin, Xinjiang, northwestern China. Applied Geochemistry, 2014, 46:1-9.

20.    Pengfei Di, Dong Feng, Duofu Chen*. In-situ and on-line measurement of gas flux of hydrocarbon seeps on the near-shore seafloor of the Lingtou promontory, northern South China Sea. Continental Shelf Research. 2014,80:81-87.

21.    曹运诚,陈多福*.海洋天然气水合物发育顶界的模拟计算.地球物理学报,2014, 57 (2): 618-627.

22.    Wang, Q., Zhijia Lin, Duofu Chen*, Geochemical constraints on the origin of Doushantuo cap carbonates in the Yangtze Gorges area, South China, Sedimentary Geology2014, 304: 59-70.

23.    Min LuoLinying ChenShuhong WangWen YanHongbin WangDuofu Chen*. Pockmark activity inferred from pore water geochemistry in shallow sediments of the pockmark field in southwestern Xisha Uplift, northwestern South China Sea. Marine and Petroleum Geology, 2013, 48:247-259.

24.    Youyan BianDong FengHarry H. RobertsDuofu Chen*n. Tracing the evolution of seep fluids from authigenic carbonates: Green Canyon, northern Gulf of Mexico. Marine and Petroleum Geology, 2013, 44:71-81.

25.    Yuncheng CaoDuofu Chen*Lawrence M. Cathles. A kinetic model for the methane hydrate precipitated from venting gas at cold seep sites at Hydrate Ridge, Cascadia margin, Oregon. Journal of Geophysical Research: Solid Earth, 2013, 118(9): 4669-4681.

26.    Hongpeng Tong, Dong Feng, Hai Cheng, Shengxiong Yang, Hongbin WangAngela G. MinR. Lawrence EdwardsZhong ChenDuofu Chen*. Authigenic carbonates from seeps on the northern continental slope of the South China Sea: New insights into fluid sources and geochronology. Marine and Petroleum Geology, 2013, 43:260-271.

27.    Cao YunChengSu ZhengDuofu Chen*. Influence of water flow on gas hydrate accumulation at cold vents. Science China Earth Sciences, 2013,56(4):568-578.

28.    Dong FengZhijia LinYouyan BianDuofu Chen*Jörn PeckmannGerhard BohrmannHarry H. Roberts. Rare earth elements of seep carbonates: Indication for redox variations and microbiological processes at modern seep sites. Journal of Asian Earth Sciences, 2013,65:27-33.

29.    Wang HongBinYang ShengXiongWu NengYouZhang GuangXueLiang JinQiangDuofu Chen*. Controlling factors for gas hydrate occurrence in Shenhu area on the northern slope of the South China Sea. Science China Earth Science, 2013, 564:513–520.

30.    Hongpeng Tong, Duofu Chen*. First discovery and characterizations of late Cretaceous seep carbonates from Xigaze in Tibet, China. Chinese Science Bulletin, 2012, 57(33): 4363-4372.

31.    Zhijia Lin, Qinxian Wang, Dong Feng, Qian Liu, Duofu Chen*, 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, 2011, 242:71-79.

32.    Dong Feng, Duofu Chen*, Jörn Peckmann, Gerhard Bohrmann. Authigenic carbonates from methane seeps of the northern Congo fan: Microbial formation mechanism. Marine and Petroleum Geology, 2010, 27(4): 748-756.

33.    Guan H X, Feng D, Wu N Y, Chen D F*, Roberts H. H., Wu D D. Fatty-acids and their δ13C characteristics of seep carbonates from the northern continental slope of Gulf of Mexico. Chinese Sci Bull, 2010, 5(8): 730-735.

34.    Dong Feng, Duofu Chen*, Harry H. Roberts, Petrographic and geochemical characterization of seep carbonate from Bush Hill (GC 185) gas vent and hydrate site of the Gulf of Mexico. Marine and Petroleum Geology, 2009, 26:1190-1198.

35.    Dong Feng, Duofu Chen*, Jorn Peckmann, Rare earth elements in seep carbonates as tracers of variable redox conditions at ancient hydrocarbon seeps. Terra Nova, 2009, 21: 49–56.

36.    苏正, 曹运诚, 吴能友, Lawrence M. Cathles, 陈多福*, 水合物层下伏游离气渗漏过程的数值模拟及实例分析.地球物理学报, 2009, 52(12): 3124-3131.

37.    Feng Dong, Chen Duofu*, Harry H. Roberts, Sedimentary fabrics in the authigenic carbonates from Bush Hill: implication for seabed fluid flow and its dynamic signature. Geofluids. 2008, 8:301-310.

38.    Feng Dong, Chen Duofu*, Harry H. Roberts. Petrographic and geochemical characterization of seep carbonate from Alaminos Canyon, Gulf of Mexico. Chinese Science Bulletin, 2008, 53(11): 1716-1724.

39.    Chen Duofu*, Liu Qian, Zhang Zhengwei, Cathles L.M., Roberts H.H. Biogenic fabrics in seep carbonates from an active gas vent site in Green Canyon Block 238, Gulf of Mexico. Marine and Petroleum Geology, 2007, 4(5): 313-320.

40.    苏正,陈多福*,海洋环境甲烷水合物溶解度及其对水合物发育特征的控制.地球物理学报, 2007, 50(5): 1518-1526.

41.    Feng Dong, Chen Duofu*, Roberts Harry H., Petrology and Geochemistry of seep carbonate from Bush Hill, GC185, Gulf of Mexico. Journal of China University of Geosciences, 200718 (Special Issue):381-382.

42.    Chen Duo Fu, Qian Liu, Zhengwei Zhang, Lawrence M. Cathles III, Harry H. Roberts. Biogenic fabrics in seep carbonates from an active gas vent site in Green Canyon Block 238, Gulf of Mexico. Marine and Petroleum Geology, 2007, doi:10.1016/j.marpetgeo.2007.03.003.

43.    Chen D F, Su Zhen, and Cathles LM., Types of gas hydrates in marine environments and their thermodynamic characteristics. Terrestrial, Atmospheric and Oceanic Sciences2006. 17, 723-737.  

44.    Chen D F, Feng D, Su Z, Song Z G, Chen G Q, Cathles L M, Pyrite crystallization in seep carbonates at gas vent and hydrate site, Materials Science and Engineering C, 2006, doi:10.1016/j.msec.2005.08.037.  

45.    Chen D F, L M Cathles, On the thermal impact of gas venting and hydrate crystallization, Journal of Geophysics Research. 2005,110, B11204, doi:10.1029/2004JB003533.  

46.    Chen D F, Huang Y Y, Yuan X L, Cathles L M, Seep carbonates and preserved methane oxidizing archaea and sulfate reducing bacteria fossils suggest recent gas venting on the seafloor in the Northeastern South China Sea, Marine and Petroleum Geology, 2005, 22: 613–621.

47.    陈多福,王茂春,夏斌,青藏高原冻土带天然气水合物的形成条件与分布预测,地球物理学报,200548(1):166-172

48.    陈多福,李绪宣,夏斌,南海琼东南盆地天然气水合物稳定域分布特征及资源预测,地球物理学报,2004 47 (3) : 483489

49.    Chen D F, Cathles L M, Roberts H H, The chemical signatures of variable gas venting at hydrate sites. Marine and Petroleum Geology, 2004, 21(3): 317 –326

50.    Chen D F, Dong W Q, Zhu B Q, Chen X P, Pb-Pb Ages of Neoproterozoic Doushantuo phosphorites in South China: Constraints on early metazoan evolution and glaciation events. Precambrian Research, 2004,132(1-2): 123 ~ 132

51.    Chen DF, Cathles LM, A kinetic model for the pattern and amounts of hydrate precipitated from a gas steam: Application to the Bush Hill vent site, Green Canyon Block 185, Gulf of Mexico. Journal of Geophysical Research, 2003, 108 (B1),2058, doi:10.1029/2001JB001597

52.    Chen, D.F.Dong, W. Q., Qi, L., Chen, G. Q., Chen, X. P., Possible REE constrains on the depositional and diagenetic environment of Doushantuo Formation phosphorites containing the earliest metazoan fauna. Chemical Geology, 2003,201103-118 

53.    Chen D F, Chen X P, Chen G Q., Sea-level changes and hydrothermal sedimentary mineralization of large-superlarge ore deposits among Sinian to Triassic in south China. Science in China (D), 2003, 46(suppl): 1 ~ 9.

 

二)合作SCI刊物论文及发明专利

1.        D. Smrzka, D. Feng, T. Himmler, J. Zwicker, Y. Hu, P. Monien, N. Tribovillard, D. Chen, J. Peckmann, Trace elements in methane-seep carbonates: Potentials, limitations, and Perspectives. Earth-Science Reviews 208 (2020), https://doi.org/10.1016/j.earscirev.2020.103263.

2.        Min Luo, Marta E. Torres, Wei-Li Hong, Thomas Pape, Julia Fronzek, Steffen Kutterolf, Joshu J. Mountjoy, Alan Orpin, Susann Henkel, Katrin Huhn, Duofu Chen, Sabine Kasten. Impact of iron release by volcanic ash alteration on carbon cycling in sediments of the northern Hikurangi margin. Earth and Planetary Science Letters 541 (2020) , https://doi.org/10.1016/j.epsl.2020.116288.

3.        Yu Hu, Min Luo*, Qianyong Liang, Linying Chen, Dong Feng*, Shengxiong Yang,Jinqiang Liang, Duofu Chen. Pore fluid compositions and inferred fluid flow patterns at the Haima cold seeps of the South China Sea. Marine and Petroleum Geology 103 (2019) 29–40.

4.        Linying Chen, Min Luo*, Andrew W. Dale, Harunur Rashid, Gang Lin, Duofu Chen. Reconstructing organic matter sources and rain rates in the southern West Pacific Warm Pool during the transition from the deglaciation period to early Holocene. Chemical Geology 529 (2019) 119291.

5.        Min Luo, Joris Gieskes, Linying Chen, Jan Scholten, Binbin Pan, Gang Lin and Duofu Chen. Sources, degradation, and transfer of organic matter in the New Britain Shelf-Trench continuum, Papua New Guinea. JGR Biogeoscience 2019, 124(6):1680-1695.

6.        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*. Gas hydrate dissociation during highstand inferred from U/Th dating of seep carbonate from the South China Sea. Geophysical Research Letters, 46. https://doi.org/10.1029/2019GL085643.

7.        Hongxiang Guan*, Linying Chen, Min Luo, Lihua Liu, Shengyi Mao, Huangmin Ge, Mei Zhang, Jiasong Fang, Duofu Chen, 2019. Composition and origin of lipid biomarkers in the surface sediments from the southern Challenger Deep, Mariana Trench, Geoscience Frontiers, 10: 351-360.

8.        H Guan, D Feng*, DBirgel*, J Peckmann, H H. Roberts, N Wu, D Chen. Lipid biomarker patterns reflect different formation environments of musseland tubeworm-dominated seep carbonates from the Gulf of Mexico (Atwater Valley and Green Canyon). Chemical Geology 505 (2019) 3647.

9.        Huiwen Huang, Shanggui Gong, Niu Li, Daniel Birgel, Jörn Peckmann, Meng Jin, Ming Cheng, Harry H. Roberts, Duofu Chen and Dong Feng*. Formation of Authigenic Low-Magnesium Calcite from Sites SS296 and GC53 of the Gulf of Mexico. Minerals 2019, 9, 251; doi:10.3390/min9040251.

10.    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. https://doi.org/10.1007/s10347-019-0581-4.

11.    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, https://doi.org/10.1155/2019/3240697

12.    Luo, M., Glud, R. N., Pan, B., Wenzhöfer, F., Xu, Y., Lin, G., & Chen, D. Benthic carbon mineralization in hadal trenches: Insights from in situ determination of benthic oxygen consumption. Geophysical Research Letters, 2018, 45:52–2760. https://doi.org/10.1002/ 2017GL076232.

13.    Hong-Xiang Guan, Lin-Ying Chen, Min Luo, Li-Hua Liu, Sheng-Yi Mao, Huang-Min Ge, Mei Zhang, Jia-Song Fang, Duo-Fu Chen. Composition and origin of lipid biomarkers in the surface sediments from the southern Challenger Deep, Mariana Trench, Geoscience Frontiers (2018), https://doi.org/10.1016/j.gsf.2018.01.004.

14.    Dong Feng, Jörn Peckmann, Niu Li, Steffen Kiel, Jian-Wen Qiu, Qianyong Liang, Robert S. Carney, Yongbo Peng, Jun Tao, Duofu Chen. The stable isotope fingerprint of chemosymbiosis in the shell organic matrix of seep-dwelling bivalves. Chemical Geology,2018,479:241-250.

15.    Qinxian Wang, Hongpeng Tong, Chi-Yue Huang, Duofu Chen. Tracing fluid sources and formation conditions of Miocene hydrocarbonseep carbonates in the central Western Foothills, Central Taiwan. Journal of Asian Earth Sciences, http://dx.doi.org/10.1016/j.jseaes.2017.11.015.

16.     Zheng Zi-HanCAO Yun-Cheng, CHEN Duo-Fu. Prediction of the methane supply and formation process of gas hydrate reservoir at ODP 1247, Hydrate Ridge. Chinese Journal of Geophysics, 2017, 60(8):3167-3176, doi:10.6038/cig20170823.

郑子涵, 曹运诚*, 陈多福, 2017. 水合物脊ODP1247 站位天然气水合物藏的甲烷来源和成藏过程模拟. 地球物理学报, 60(8):3167-3176, doi:10.6038/cig20170823.

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

18.     Zhang, X*., Huang, C., Wang,Y., P. D Clift., Yan,Y.,  Fu, X., Chen, D., 2017. Evolving Yangtze River reconstructed by detrital zircon U-Pb dating and petrographic analysis of Miocene marginal Sea sedimentary rocks of the Western Foothills and Hengchun Peninsula, Taiwan, Tectonics, 36, doi:10.1002/2016TC004357.

19.     Li , N., Feng, D*., Chen, L., Wang , H., Duofu Chen.,2017.Compositions of foraminifera-rich turbidite 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.

20.     Chen, W.-H., C.-Y. Huang*, Y. Yan*, Y. Dilek, D. Chen, M.-H. Wang, X. Zhang, Q. Lan, and M. Yu., 2017. Stratigraphy and provenance of forearc sequences in the Lichi Mélange, Coastal Range: Geological records of the active Taiwan arc-continent collision, J. Geophys. Res. Solid Earth, 122, doi:10.1002/2017JB014378.

21.     Li, N., Yang, X*., Peng, J., Zhou, Q., Chen, D., Paleo-cold seep activity in the southern South China Sea: Evidence from the geochemical and geophysical records of sediments, Journal of Asian Earth Sciences (2017), doi: https://doi.org/10.1016/j.jseaes.2017.10.022.

22.    Dong Feng, Yongbo Peng, Huiming Bao, Jörn Peckmann, Harry H. Roberts, Duofu Chen. A carbonate-based proxy for sulfate-driven anaerobic oxidation of methane. Geology, 2016, 44(12):999–1002.

23.    Fang Chen, Yu Hub, Dong Feng, Xin Zhang, Sihai Cheng, Jun Cao, Hongfeng Lu, Duofu Chen. Evidence of intense methane seepages from molybdenum enrichments in gas hydrate-bearing sediments of the northern South China Sea. Chemical Geology,2016, 443:173–181.

24.    Hongxiang Guan, Mei Zhang, Shengyi Mao, Nengyou Wu, Hongfeng Lu, Duofu Chen. Methane seepage in the Shenhu area of the northern South China Sea: constraints from carbonate chimneys. Geo-Marine Letter, 2016, 36:175–186.

25.    Luo, M., A. W. Dale, L. Haffert, M. Haeckel, S. Koch, G. Crutchley, H. De Stigter, D. Chen, and J. Greinert. A quantitative assessment of methane cycling in Hikurangi Margin sediments (New Zealand) using geophysical imaging and biogeochemical modeling, Geochem. Geophys. Geosyst., 2016,17, doi:10.1002/ 2016GC006643.

26.    Hongxiang Guan, Dong Feng, Nengyou Wu, Duofu Chen. Methane seepage intensities traced by biomarker patterns in authigenic carbonates from the South China Sea. Organic Geochemistry, 2016, 91:109–119.

27.    Hongxiang Guan, Dong Feng, Nengyou Wu, Duofu Chen. Methane seepage intensities traced by biomarker patterns in authigenic carbonates from the South China Sea. Organic Geochemistry. 2016, 91:109–119

28.    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.

29.    Feng Dong, Duofu Chen. Authigenic carbonates from an active old seep of the northern South China Sea: New insights into fluid sources and past seepage activity. Deep-Sea Research II, http://dx.doi.org/10.1016/j.dsr2.2015.02.003.

30.    Wen-Huang Chen, Chi-Yue Huang, Yen-Jun Lin, Quanhong Zhao, Yi Yan, Duofu Chen, Xinchang Zhang, Qing Lan, Mengming YuDepleted deep South China Sea 13C paleoceanographic events in response to tectonic evolution in Taiwan–Luzon Strait since Middle Miocene. Deep-Sea Research II,2015, 122:195–225

31.    Xinchang Zhang, Yi Yan, Chi-Yue Huang, Duofu Chen, Yehua Shan, Qin Lan, Wenhuang Chen, Mengming Yu, Provenance analysis of the Miocene accretionary prism of the Hengchun Peninsula, southern Taiwan, and regional geological significance. Journal of Asian Earth Sciences 2014, 85:26-39

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

33.    苏正,曹运诚,杨睿等,吴能友,陈多福,杨胜雄,王宏斌.南海北部神狐海域天然气水合物成藏模式研究.地球物理学报, 2014, 57(5):1664-1674.

34.    Yunpeng WangDuofu ChenZhiguang Song. Detecting surface oil slick related to gas hydrate/petroleum on the ocean bed of South China Sea by ENVI/ASAR radar data. Journal of Asian Earth Sciences, 2013,65:21-26.

35.    Zheng Su, Yuncheng Cao, Nengyou Wu, Duofu Chen, Shengxiong Yang, Hongbin Wang. Numerical investigation on methane hydrate accumulation in Shenhu Area, northern continental slope of South China Sea. Marine and Petroleum Geology, 38:158-165, 2012.

36.    Cathles LM, Su Z, Chen D. The physics of gas chimney and pockmark formation, with implications for assessment of seafloor hazards and gas sequestration. Marine and Petroleum Geology 27 (2010) 82–91.

37.    Dong Feng, Harry H. Roberts, Hai Cheng, Jörn PeckmannGerhard Bohrmann, R. Lawrence Edwards, Duofu Chen. U/Th dating of cold-seep carbonates: An initial comparison. Deep Sea Research Part II: Topical Studies in Oceanography, 2010, 57(21-23):2055-2060.

38.    Cathles L M.D F Chen, Benjamin F. Nicholson. A dimensionless vent number characterizing the thermal impact of fluid discharge through planar and cylindrical vents with particular application to seafloor gas vents crystallizing hydrate.  Journal of Geophysical Research,   111, B10205, doi:10. 1029/2005 JB004221, 2006.

39.    Cathles L M, Chen D F, A compositional kinetic model of hydrate crystallization and dissolution, Journal of Geophysical Research, 2004, 109, B08102, doi:10.1029/ 2003JB002910

40.    陈庆华、荣一辚、邸鹏飞、陈多福*。电机驱动翻板阀式海底冷泉渗漏流量测量排水集气系统,国家发明专利,CN201110084333.3

41.    邸鹏飞、陈庆华、陈多福*,一种测量海底冷泉天然气渗漏原位流量速率变化的测量装置,国家发明专利,CN201010292875.5

42.    邸鹏飞, 龙建军, 张浩,陈琳莹,冯东,陈多福. 海底冷泉天然气渗漏气泡破碎装置. 国家发明专利,授权公告日2016.6.29,专利号:ZL201410044427.

43.    邸鹏飞,龙建军,刁世普,陈琳莹,冯东,陈多福.一种用于使海底冷泉渗漏气泡均匀破碎装置. 授权公告日2016.6.1,专利号:ZL201410045160.8

44.    邸鹏飞,龙建军,龙达鑫,陈琳莹,冯东,陈多福. 海底冷泉天然气渗漏流量原位超声波测量系统.  授权公告日2016.8.19,专利号:ZL201410045178.8.

45.    龙建军,邸鹏飞,胡柳,陈琳莹,冯东,陈多福. 测量海底冷泉天然气渗漏气泡上浮速度的声波分路器. 授权公告日2016.8.24,专利号:ZL201410045180.5.