Processes affecting the depth of the gas hydrate stability zone in the accretionary prism offshore Taiwan

Wu Cheng Chi; Yu Sian Lin; Christian Berndt; Shao Kai Wu; Gareth Crutchley; Liwen Chen; Char Shine Liu; Chuen Tien Shyu; Hsieh Tang Chiang; Saulwood Lin; Wei Chung Han; Ho Han Hsu; Yu Shan Peng; Yunshuen Wang

doi:10.1109/OCEANS-TAIPEI.2014.6964594

Processes affecting the depth of the gas hydrate stability zone in the accretionary prism offshore Taiwan

Wu Cheng Chi, Yu Sian Lin, Christian Berndt, Shao Kai Wu, Gareth Crutchley, Liwen Chen, Char Shine Liu, Chuen Tien Shyu, Hsieh Tang Chiang, Saulwood Lin, Wei Chung Han, Ho Han Hsu, Yu Shan Peng, Yunshuen Wang

Department of Earth Sciences

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Several geological processes introduce a discrepancy between the geothermal gradient derived from heat probe measurements on the seafloor and gradients derived from gas hydrate-related bottom-simulating reflectors (BSRs) at a few hundred meters below the seafloor. We use a wide-spread BSR offshore SW Taiwan in 3D seismic data and an in-situ thermal probe dataset, in addition to 3D finite element modeling, to study these processes, including topographic effects, fluid advection, and landslides. Topographic effects make the geothermal gradient lower on the ridge and higher under the flanks. Fluid advection from depth warms up the shallow crust through some conduits like faults, fissures, and mud diapirs. Landslides reset the seafloor temperature and generate temperature pulses that will take thousands of years to propagate to the BSR depth. To study regional crustal thermal structures we need to correct these effects. On the other hand, we could use these effects to better select gas hydrate prospects.

Original language	English
Title of host publication	OCEANS 2014 - TAIPEI
Publisher	Institute of Electrical and Electronics Engineers Inc.
ISBN (Electronic)	9781479936465
DOIs	https://doi.org/10.1109/OCEANS-TAIPEI.2014.6964594
Publication status	Published - 2014 Nov 20
Event	OCEANS 2014 MTS/IEEE Taipei Conference: Oceans Regeneration - Taipei, Taiwan Duration: 2014 Apr 7 → 2014 Apr 10

Publication series

Name	OCEANS 2014 - TAIPEI

Other

Other	OCEANS 2014 MTS/IEEE Taipei Conference: Oceans Regeneration
Country/Territory	Taiwan
City	Taipei
Period	14-04-07 → 14-04-10

All Science Journal Classification (ASJC) codes

Ocean Engineering

Access to Document

10.1109/OCEANS-TAIPEI.2014.6964594

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Chi, W. C., Lin, Y. S., Berndt, C., Wu, S. K., Crutchley, G., Chen, L., Liu, C. S., Shyu, C. T., Chiang, H. T., Lin, S., Han, W. C., Hsu, H. H., Peng, Y. S., & Wang, Y. (2014). Processes affecting the depth of the gas hydrate stability zone in the accretionary prism offshore Taiwan. In OCEANS 2014 - TAIPEI Article 6964594 (OCEANS 2014 - TAIPEI). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/OCEANS-TAIPEI.2014.6964594

@inproceedings{9516819051724a9781bc3ca540fab289,

title = "Processes affecting the depth of the gas hydrate stability zone in the accretionary prism offshore Taiwan",

abstract = "Several geological processes introduce a discrepancy between the geothermal gradient derived from heat probe measurements on the seafloor and gradients derived from gas hydrate-related bottom-simulating reflectors (BSRs) at a few hundred meters below the seafloor. We use a wide-spread BSR offshore SW Taiwan in 3D seismic data and an in-situ thermal probe dataset, in addition to 3D finite element modeling, to study these processes, including topographic effects, fluid advection, and landslides. Topographic effects make the geothermal gradient lower on the ridge and higher under the flanks. Fluid advection from depth warms up the shallow crust through some conduits like faults, fissures, and mud diapirs. Landslides reset the seafloor temperature and generate temperature pulses that will take thousands of years to propagate to the BSR depth. To study regional crustal thermal structures we need to correct these effects. On the other hand, we could use these effects to better select gas hydrate prospects.",

author = "Chi, {Wu Cheng} and Lin, {Yu Sian} and Christian Berndt and Wu, {Shao Kai} and Gareth Crutchley and Liwen Chen and Liu, {Char Shine} and Shyu, {Chuen Tien} and Chiang, {Hsieh Tang} and Saulwood Lin and Han, {Wei Chung} and Hsu, {Ho Han} and Peng, {Yu Shan} and Yunshuen Wang",

note = "Publisher Copyright: {\textcopyright} 2014 IEEE.; OCEANS 2014 MTS/IEEE Taipei Conference: Oceans Regeneration ; Conference date: 07-04-2014 Through 10-04-2014",

year = "2014",

month = nov,

day = "20",

doi = "10.1109/OCEANS-TAIPEI.2014.6964594",

language = "English",

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publisher = "Institute of Electrical and Electronics Engineers Inc.",

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Chi, WC, Lin, YS, Berndt, C, Wu, SK, Crutchley, G, Chen, L, Liu, CS, Shyu, CT, Chiang, HT, Lin, S, Han, WC, Hsu, HH, Peng, YS & Wang, Y 2014, Processes affecting the depth of the gas hydrate stability zone in the accretionary prism offshore Taiwan. in OCEANS 2014 - TAIPEI., 6964594, OCEANS 2014 - TAIPEI, Institute of Electrical and Electronics Engineers Inc., OCEANS 2014 MTS/IEEE Taipei Conference: Oceans Regeneration, Taipei, Taiwan, 14-04-07. https://doi.org/10.1109/OCEANS-TAIPEI.2014.6964594

TY - GEN

T1 - Processes affecting the depth of the gas hydrate stability zone in the accretionary prism offshore Taiwan

AU - Chi, Wu Cheng

AU - Lin, Yu Sian

AU - Berndt, Christian

AU - Wu, Shao Kai

AU - Crutchley, Gareth

AU - Chen, Liwen

AU - Liu, Char Shine

AU - Shyu, Chuen Tien

AU - Chiang, Hsieh Tang

AU - Lin, Saulwood

AU - Han, Wei Chung

AU - Hsu, Ho Han

AU - Peng, Yu Shan

AU - Wang, Yunshuen

PY - 2014/11/20

Y1 - 2014/11/20

N2 - Several geological processes introduce a discrepancy between the geothermal gradient derived from heat probe measurements on the seafloor and gradients derived from gas hydrate-related bottom-simulating reflectors (BSRs) at a few hundred meters below the seafloor. We use a wide-spread BSR offshore SW Taiwan in 3D seismic data and an in-situ thermal probe dataset, in addition to 3D finite element modeling, to study these processes, including topographic effects, fluid advection, and landslides. Topographic effects make the geothermal gradient lower on the ridge and higher under the flanks. Fluid advection from depth warms up the shallow crust through some conduits like faults, fissures, and mud diapirs. Landslides reset the seafloor temperature and generate temperature pulses that will take thousands of years to propagate to the BSR depth. To study regional crustal thermal structures we need to correct these effects. On the other hand, we could use these effects to better select gas hydrate prospects.

AB - Several geological processes introduce a discrepancy between the geothermal gradient derived from heat probe measurements on the seafloor and gradients derived from gas hydrate-related bottom-simulating reflectors (BSRs) at a few hundred meters below the seafloor. We use a wide-spread BSR offshore SW Taiwan in 3D seismic data and an in-situ thermal probe dataset, in addition to 3D finite element modeling, to study these processes, including topographic effects, fluid advection, and landslides. Topographic effects make the geothermal gradient lower on the ridge and higher under the flanks. Fluid advection from depth warms up the shallow crust through some conduits like faults, fissures, and mud diapirs. Landslides reset the seafloor temperature and generate temperature pulses that will take thousands of years to propagate to the BSR depth. To study regional crustal thermal structures we need to correct these effects. On the other hand, we could use these effects to better select gas hydrate prospects.

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M3 - Conference contribution

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T3 - OCEANS 2014 - TAIPEI

BT - OCEANS 2014 - TAIPEI

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - OCEANS 2014 MTS/IEEE Taipei Conference: Oceans Regeneration

Y2 - 7 April 2014 through 10 April 2014

ER -

Processes affecting the depth of the gas hydrate stability zone in the accretionary prism offshore Taiwan

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