[1] 王家生, 王永标, 李清, 2007. 海洋极端环境微生物活动与油气资源关系[J]. 地球科学-中国地质大学学报, 32(6): 781-788. WANG JIASHENG, WANG YONGBIAO, LI QING, 2007. Potential relationship between extremophiles and hydrocarbon resources in marine extreme environment[J]. Earth Science-Journal of China University of Geosciences, 32(6): 781-788 (in Chinese with English abstract). [2] 徐行, 施小斌, 罗贤虎, 等, 2006. 南海西沙海槽地区的海底热流测量[J]. 海洋地质与第四纪地质, 26(4): 51-58. XU XING, SHI XIAOBIN, LUO XIANHU, et al, 2006. Heat flow measurements in the Xisha trough of the South China Sea[J]. Marine Geology & Quaternary Geology, 26(4): 51-58 (in Chinese with English abstract). [3] 杨小秋, 张志刚, 施小斌, 等, 2013. 海底原位热流探测技术的改进[C] // 中国地球物理学会. 中国地球物理2013——第二十八专题论文集. 昆明:《中国学术期刊(光盘版)》电子杂志社, 44. [4] BULLARD E C, 1945. Thermal history of the Earth[J]. Nature, 156(3950): 35-36. [5] BULLARD E C, 1954. Heat-flow through the floor of the ocean[J]. Deep Sea Research, 1(2): 65-66. [6] BULLARD E C, DAY A, 1961. The flow of heat through the floor of the Atlantic Ocean[J]. Geophysical Journal International, 4(S1): 282-292. [7] DAVIS E E, VILLINGER H, MCDONALD R D, et al, 1997. A robust rapid-response probe for measuring bottom-hole temperatures in deep-ocean boreholes[J]. Marine Geophysical Researches, 19(3): 267-281. [8] DICKENS G R, 2003. Rethinking the global carbon cycle with a large, dynamic and microbially mediated gas hydrate capacitor[J]. Earth and Planetary Science Letters, 213(3-4): 169-183. [9] HE LIJUAN, WANG JIYANG, XU XING, et al, 2009. Disparity between measured and BSR heat flow in the Xisha Trough of the South China Sea and its implications for the methane hydrate[J]. Journal of Asian Earth Sciences, 34(6): 771-780. [10] HENRYS S A, ELLIS S, URUSKI C, 2003. Conductive heat flow variations from bottom-simulating reflectors on the Hikurangi margin, New Zealand[J]. Geophysical Research Letters, 30(2): 1065, doi:10.1029/2002GL015772. [11] HESS H H, 1962. History of ocean basins[M]//ENGEL A E J, JAMES H L, LEONARD B F. Petrologic studies: a volume in honor of A. F. Buddington. New York: Geological Society of America: 599-620. [12] HORAI K, VON HERZEN R P, 1985. Measurement of heat flow on leg 86 of the Deep Sea Drilling Project[R/OL]//HEATH G R, BURCKLE L H. Initial reports of the deep sea drilling project, Volume LXXXVI. Washington: U.S. Government Printing Office: 759-777. [2015-09-01]. 1)http://www.deepseadrilling.org/86/volume/dsdp86_35.pdf. [13] HYNDMAN R D, FOUCHER J P, YAMANO M, et al, 1992. Deep sea bottom-simulating-reflectors: calibration of the base of the hydrate stability field as used for heat flow estimates[J]. Earth and Planetary Science Letters, 109(3-4): 289-301. [14] KAUL N, ROSENBERGER A, VILLINGER H, 2000. Comparison of measured and BSR-derived heat flow values, Makran accretionary prism, Pakistan[J]. Marine Geology, 164(1-2): 37-51. [15] KVENVOLDEN K A, 1993. Gas hydrates-geological perspective and global change[J]. Reviews of Geophysics, 31(2): 173-187. [16] LEE W H K, 1966. The present state of heat flow observations[J]. Bulletin Volcanologique, 29(1): 313-325. [17] LI YAMIN, LUO XIANHU, XU XING, et al, 2010. Seafloor in-situ heat flow measurements in the deep-water areas of the northern slope, South China Sea[J]. Chinese Journal of Geophysics, 53(5): 774-783. [18] LISTER C R B, SCLATER J G, DAVIS E E, et al, 1990. Heat flow maintained in ocean basins of great age: investigations in the north-equatorial West Pacific[J]. Geophysical Journal International, 102(3): 603-628. [19] MARTIN W, BAROSS J, KELLEY D, et al, 2008. Hydrothermal vents and the origin of life[J]. Nature Reviews Microbiology, 6(11): 805-814. [20] PFENDER M, VILLINGER H, 2002. Miniaturized data loggers for deep sea sediment temperature gradient measurements[J]. Marine Geology, 186(3-4): 557-570 [21] QIN YANGYANG, YANG XIAOQIU, WU BAOZHEN, et al, 2013. High resolution temperature measurement technique for measuring marine heat flow[J]. Science China Technological Sciences, 56(7): 1773-1778. [22] REVELLE R, MAXWELL A E, 1952. Heat flow through the floor of the eastern North Pacific Ocean[J]. Nature, 170(4318): 199-200. [23] SHYU C T, CHEN Y J, CHIANG S T, et al, 2006. Heat flow measurements over bottom simulating reflectors, offshore southwestern Taiwan[J]. Terrestrial, Atmospheric and Oceanic Sciences, 17(4): 845-869. [24] SULTAN N, COCHONAT P, FOUCHER J-P, et al, 2004. Effect of gas hydrates melting on seafloor slope instability[J]. Marine Geology, 231(1-4): 379-401. [25] VILLINGER H, DAVIS E E, 1987. A new reduction algorithm for marine heat flow measurements[J]. Journal of Geophysical Research, 92(B12): 12846-12856. [26] WANG K, HYNDMAN R D, DAVIS E E, 1993. Thermal effects of sediment thickening and fluid expulsion in accretionary prisms: model and parameter analysis[J]. Journal of Geophysical Research, 98(B6): 9975-9984. [27] WESSEL P, SMITH W H F, 1995. New version of the Generic Mapping Tools (GMT) version 3.0 released[J]. EOS, 76(33): 329. [28] YAMANO M, UYEDA S, AOKI Y, et al, 1982. Estimates of heat flow derived from gas hydrates[J]. Geology, 10(7): 339-343. |