收稿日期: 2016-06-28
修回日期: 2017-02-18
网络出版日期: 2017-05-10
基金资助
国家天然气水合物专项(编号:GZH201100301;GZH201100305;GZH200200203)联合资助.
Characteristics of methane seepage and gas hydrate reservoir in the northeastern slope of South China Sea
Received date: 2016-06-28
Revised date: 2017-02-18
Online published: 2017-05-10
根据近年天然气水合物地质、地球化学和地球物理调查资料,结合2013年钻孔成果,分析南海东北部陆坡海底甲烷渗漏特征及其对水合物成藏的影响,探讨了水合物成因模式。研究表明,南海东北部陆坡海底存在高通量甲烷渗漏体系,甲烷渗漏引起的地质、地球化学指标异常非常明显。大量块状、脉状、结核状渗漏型水合物也被发现,其成因应与高通量甲烷渗漏有关。其典型成因模式是高通量甲烷以游离态渗漏方式沿断层或裂缝体系向浅部地层运移,以气烟囱形式在稳定带的不同部位形成渗漏区,甲烷在气烟囱顶端或侧翼聚集而形成水合物矿藏。影响水合物成藏的断层主要为长期活动的继承性正断层、层间断层以及与海底滑塌密切相关的活动断层,气烟囱对渗漏型水合物成藏有明显的控制作用。
梁金强,付少英,陈芳,苏丕波,尚久靖,陆红锋,方允鑫 . 南海东北部陆坡海底甲烷渗漏及水合物成藏特征[J]. 天然气地球科学, 2017 , 28(5) : 761 -770 . DOI: 10.11764/j.issn.1672-1926.2017.02.006
In this paper,the characteristics of methane seepage and its impact on methane hydrate accumulation in addition to the formation model of methane hydrate in the northeastern slope of South China Sea are analyzed by using geological,geophysical and geochemical data during recent investigation as well as drilling results of GMGS2 in 2013.A seepage system with high methane flux in our study area is inferred from evidences of seeps-related geological features,geochemical anomalies.In addition,abundant massive,vein,and nodular gas hydratewere found and its formation is probably associated with high methane flux seepage.Free methane migrates along faults or factures upward to shallower strata,resulting in gas seepage occurring in variable depths within gas hydrate stability zone,which presented as gas chimneys.Methane hydrate reservoirs are inferred to form on the top or flanks of gas chimneys.The faults associated with methane hydrate accumulation consist of active regional normal faults,localized faults,and shallow active faults related toseafloor instability.The accumulation of localized visible methane hydrate is mainly controlled by the gas chimneys.
[1]Cao Y,Chen D,Cathles L M.A kinetic model for the methane hydrate precipitated from venting gas at cold seep sites at Hydrate Ridge,Cascadia margin,Oregon[J].Journal of Geophysical Research:Solid Earth,2013,118(9):4669-4681.
[2]MacDonald I R,Guinasso N L,Sassen R,et al.Gas hydrate that breaches the sea floor on the continental slope of the Gulf of Mexico[J].Geology,1994,22(8):699-702.
[3]Boetius A,Wenzhfer F.Seafloor oxygen consumption fuelled by methane from cold seeps[J].Nature Geoscience,2013,6(9):725-734.
[4]Suess E,Huang Y Y,Wu N Y,et al.IFM-GEOMAR Report,FS Sonne Cruise Report SO177[R].Kiel:Leibniz Institute of Marine Sciences,2005:168.
[5]Han X Q,Suess E,Huang Y,et al.Jiulong methane reef:microbial mediation of seep carbonates in the South China Sea[J].Marine Geology,2008,249(3):243-256.
[6]Zhang G X,Yang S X,Zhang M,et al.GMGS2 expedition investigates rich and complex gas hydrate environment in the South China Sea[J].Fire in the Ice,2014,14(1):1-5.
[7]Sha Z,Liang J,Zhang G,et al.A seepage gas hydrate system in northern South China Sea:Seismic and well log interpretations[J].Marine Geology,2015,366:69-78.
[8]Lin C C,Lin A T S,Liu C S,et al.Geological controls on BSR occurrences in the incipient arc-continent collision zone off southwest Taiwan[J].Marine and Petroleum Geology,2009,26(7):1118-1131.
[9]Fuh S C,Chern C C,Liang S C,et al.The biogenic gas potential of the submarine canyon systems of Plio-Peistocene foreland Basin,southwestern Taiwan[J].Marine and Petroleum Geology,2009,26(7):1087-1099.
[10]Chen Fang,Zhuang Chang,Zhou Yang,et al.Calcareous Nannofossils and Foraminifera biostratigraphy on the northeastern slope of the south china sea and sedimentation rates[J].Earth Science:Journal of China University of Geosciences,2016,41(3):416-424.[陈芳,庄畅,周洋,等.南海东北部陆坡天然气水合物钻探区生物地层与沉积速率[J].地球科学:中国地质大学学报,2016,41(3):416-424.]
[11]Gong Yuehua,Wu Shiguo,Zhang Guangxue,et al.Relation between gas hydrte and geologic structures in Dongssha islands sea areas of South China Sea[J].Marine Geology & Quaternary Geology,2008,28(1):99-104.[龚跃华,吴时国,张光学,等.南海东沙海域天然气水合物与地质构造的关系[J].海洋地质与第四纪地质,2008,28(1):99-104.]
[12]Zhang Guangxue,Liang Jinqiang,Lu Jingan,et al.Characteristics of natural gas hydrate reservoirson the northeastern slope of the South China Sea[J].Natural Gas Industry,2014,34(11):1-10.[张光学,梁金强,陆敬安,等.南海东北部陆坡天然气水合物藏特征[J].天然气工业,2014,34(11):1-10.]
[13]Kastner M.Gas Hydrates in Convergent Margins:Formation,Cccurrence,Geochemistry,and Global Significance[C].Natural Gas Hydrates:Occurrence,Distribution,and Detection,2001:67-86.
[14]Borowski W S,Paull C K,Ussler W.Carbon cycling within the upper methanogenic zone of continental rise sediments:An example from the methane-rich sediments overlying the Blake Ridge gas hydrate deposits[J].Marine Chemistry,1997,57(3):299-311.
[15]Borowski W S,Paull C K,Ussler Iii W.Global and local variations of interstitial sulfate gradients in deep-water,continental margin sediments:Sensitivity to underlying methane and gas hydrates[J].Marine Geology,1999,159(1):131-154.
[16]Borowski W S,Hoehler T M,Alperin M J,et al.Significance of anaerobic methane oxidation in methane-rich sediments overlying the Blake Ridge gas hydrates[C]//Paull C K,Matsumoto R,Wallace P J,et al,Proceedings of the Ocean Drilling Program,Scientific Results,2000,164:87-99.
[17]Suess E,Torres M E,Bohrmann G,et al.Gas hydrate destabilization:Enhanced dewatering,benthic material turnover and large methane plumes at the Cascadia convergent margin[J].Earth and Planetary Science Letters,1999,170(1):1-15.
[18]Torres M E,McManus J,Hammond D E,et al.Fluid and chemical fluxes in and out of sediments hosting methane hydrate deposits on Hydrate Ridge,OR,I:Hydrological provinces[J].Earth and Planetary Science Letters,2002,201(3):525-540.
[19]Tryon M D,Brown K M,Torres M E.Fluid and chemical flux in and out of sediments hosting methane hydrate deposits on Hydrate Ridge,OR,II:Hydrological processes[J].Earth and Planetary Science Letters,2002,201(3):541-557.
[20]Fu Shaoying.Characteristics of the different hydrocarbon gases in marine sediments and their geochemical significances[J] Earth Science Frontiers,2005,12(3):253-257.[付少英.海底沉积物中不同形式烃类气体的地球化学意义[J].地学前缘,2005,12(3):253-257.]
[21]Lu Hongfeng,Liu Jian,Chen Fang,et al.Shallow sulfate-methane interface in northeastern South China Sea:An indicator of strong methane seepage on seafloor[J].Marine Geology & Quaternary Geology,2012,32(1):93-98.[陆红锋,刘坚,陈芳,等.南海东北部硫酸盐还原_甲烷厌氧氧化界面——海底强烈甲烷渗溢的记录[J].海洋地质与第四纪地质,2012,32(1):93-98.]
[22]Kulm L D,Suess E.Relationship between carbonate deposits and fluid venting:Oregon accretionary prism[J].Journal of Geophysical Research:Solid Earth(1978-2012),1990,95(B6):8899-8915.
[23]Bohrmann G,Greinert J,Suess E,et al.Authigenic carbonates from the Cascadia subduction zone and their relation to gas hydrate stability[J].Geology,1998,26(7):647-650.
[24]Greinert J,Bohrmann G,Suess E.Gas hydrate-associated carbonates and methane-venting at Hydrate Ridge:Classification,distribution,and origin of authigenic lithologies[J].Natural Gas Hydrates:Occurrence,Distribution,and Detection,2001:99-113.
[25]Lu Hongfeng,Chen Fang,Liu Jian,et al.Mineralogies and stable isotopic compositions of methane-derived carbonates from the northeastern South China Sea[J].Marine Geology & Quaternary Geology,2010,30(2):51-59.[陆红锋,陈芳,刘坚,等.南海东北部甲烷成因碳酸盐岩的矿物学及同位素组成[J].海洋地质与第四纪地质,2010,30(2):51-59.]
[26]Charlou J L,Donval J P,Zitter T.Evidence of methane venting and geochemistry of brines on mud volcanoes of the eastern Mediterranean Sea[J].Deep-Sea Research Ⅰ,2003,50:941-958.
[27]Joye S B,Boetius A,Orcutt B N,et al.The anaerobic oxidation of methane and sulfate reduction in sediments from Gulf of Mexico cold seeps[J].Chemical Geology,2004,205(3):219-238.
/
| 〈 |
|
〉 |
甘公网安备 62010202000678号