| [1] HORNBACH J M, HOLBROOK W S, GORMAN R A, et al. Direct seismic detection of methane hydrate on the Blake Ridge[J]. Geophysics, 2003, 68(1): 92-100.
[2] GORMAN A R, HOLBROOK W S, HORNBACH M J, et al. Migration of methane gas through the hydrate stability zone in a low-flux hydrate province[J]. Geology, 2002, 30(4): 327-330.
[3] VANNESTE M, BATIST M D, GOLMSHTOK A, et al. Multi-frequency seismic study of gas hydrate-bearing sediments in Lake Baikal, Siberia[J]. Marine Geology, 2001, 172(1/2): 1-21.
[4] KHLYSTOV O, VAN P R, DE M-BATIST, et al. Sublacustrine mud volcanoes and methane seeps caused by dissociation of gas hydrates in Lake Baikal[J]. Geology, 2002, 30(7): 631-634.
[5] VANNESTE M, POORTA J, BATIST M D, et al. A typical heat-flow near gas hydrate irregularities and cold seeps in the Baikal rift zone[J]. Marine and Petroleum Geology, 2003, 19(2003): 1257-1274.
[6] HAACKE R R, WESTBROOK K G, PEACOCK S, et al. Seismic anisotropy from a marine gas hydrate system west of Svalbard[C]//Proceedings of the Fifth International Conference on Gas Hydrates.Trondheim, Norway: Norway-ICGH5-Organising-Committee,2005.http://www.gas-hydrate.org.cn/symposium/symp_21_1.pdf.
[7] ROSSI G, MADRUSSANI G, GEI D, et al. Velocity and attenuation 3d tomography for gas hydrates studies: the NW offshore Svalbard case[C]//Proceedings of the Fifth International Conference on Gas Hydrates. Trondheim, Norway: Norway -ICGH5-Organising-Committee, 2005. http://www. nioz.nl/public/symposia_workshops/arctic/poster/madrussani. pdf
[8] WESTBROOK1 K G, BUENZ S, Camerlenghi A, et al. Measurement of P- and S-wave velocity, and the estimation of hydrate concentration at sites in the continental margin of Svalbard and the storegga region of Norway[C]//Proceedings of the Fifth International Conference on Gas Hydrates, Trondheim,Norway:Norway-ICGH5-Organising -Committee, 2005. http://eprints.soton.ac.uk/28653/.
[9] INAMORI T, HATO M, SAEKI T. Delineation of gas hy-
drate-bearing sediments by multi seismic attributes using 3d
seismic survey,offshore Tokai[C]//Proceedings of the Fifth
International Conference on Gas Hydrates, Trondheim, Nor-
way:Norway-ICGH5-Organising-Committee,2005.http://ww
w.gas-hydrate.org.cn/symposium/symp_21_1.pdf.
[10] ASAKAWA E, WARD P, VANNESTE M, et al. Ocean bottom seismometer wide-angle reflection study of gas hydrate accumulations in Nankai trough,offshore Tokai[C]//Proceedings of the Fifth International Conference on Gas Hydrates.Trondheim, Norway: Norway ICGH5 Organising-Committee, 2005. http://www.gas-hydrate.org. cn/symposium/symp_21_1.pdf.
[11] 张光学, 黄有样, 陈邦彦.海域天然气水合物地震学[M].北京: 海洋出版社, 2003: 27-56.
[12] NOUZÉ H, LAFOY Y, GÉLI L, et al. First results of a high resolution seismic study of a bottom simulating reflector in the fairway basin, offshore new Caledonia[C]//Proceedings of the Fifth International Conference on Gas Hydrates, Trondheim, Norway: Norway-ICGH5-Organising-Commitee, 2005. http:// d.wanfangdata.com.cn/periodical_dzkjqb200604006. aspx
[13] TINIVELLA U, ACCAINO F, et al. Gas hydrates and active mud volcanism on the South Shetland continental margin, Antarctic Peninsula[J]. Geo-Marine Letters,2007,28(2): 97-106.
[14] 张明, 伍忠良.天然气水合物BSR的识别与地震勘探频率[J].海洋学报, 2004, 26(4): 80-88.
[15] ZÜHLSDORFF L, SPIEß V.Pockmarks in the Northern Congo Fan area, SW Africa: Complex seafloor features shaped by fluid flow[J]. Marine Geology, 2008, 249(3/4): 206-225.
[16] JOHNSTON R C, REED D H, ANDDESLER J F. Special report on marine seismic energy source standards[J]. Geophysics, 1998, 53(4): 566-575.
[17] 何汉漪.海洋高分辨率地震技术及其应用[M].北京: 地质出版社, 2001: 60-62.
[18] 陆敬安, 伍忠良, 曾宪军. 海洋地震勘探中地震波, 鬼波综合效应分析与应用[J].海洋技术, 2006, 25(4): 76-78, 98.
[19] 伍忠良, 曾宪军, 王立明.海洋天然气水合物调查地震采集技术-调查初始阶段研究[J].海洋技术, 2006, 4(25): 79-87.
[20] 伍忠良, 曾宪军, 王伟巍.海洋天然气水合物调查地震采集技术-调查深入阶段[J].海洋技术, 2007, 26(4): 110-114.
[21] 张明, 彭朝旭, 沙志彬.天然气水合物准三维地震调查导航定位技术[J]. 海洋地质与第四纪地质, 2008, 28(6):
101-106.
[22] 赵庆献, 韩立国, 伍忠良, 等. 天然气水合物准三维地震勘探电缆动态定位精度研究[J].吉林大学学报: 地球科学
版, 2009, 39(5): 936-941. |
