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Appendix A2. Clay minerals and age analysis from ODP Site 184-1144 (2010)

Wan, Shiming ; Li, Anchun ; Clift, Peter D ; [et al.]

PANGAEA

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Publication Date: 2024-01-09

Keywords: 184-1144; Accumulation rate, terrigenous; AGE; Calculated; Chlorite; COMPCORE; Composite Core; DEPTH, sediment/rock; Grain size, mean; Illite; Illite, chemical index; Illite, full width at half maximum, 10Å; Joides Resolution; Kaolinite; Leg184; Ocean Drilling Program; ODP; Smectite; South China Sea; X-ray diffraction, clay fraction

Type: Dataset

Format: text/tab-separated-values, 1192 data points

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Appendix A1. Clay minerals analysis and trace element concentartions from ODP Site 184-1146 (2010)

Wan, Shiming ; Li, Anchun ; Clift, Peter D ; [et al.]

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Publication Date: 2024-01-09

Keywords: 184-1146; Accumulation rate, terrigenous; AGE; Barium; Caesium; Calculated; Cerium; Chlorite; Chromium; Cobalt; COMPCORE; Composite Core; Copper; DEPTH, sediment/rock; Dysprosium; Erbium; Europium; Gadolinium; Gallium; Hafnium; Holmium; Illite; Illite, chemical index; Illite, full width at half maximum, 10Å; Inductively coupled plasma - mass spectrometry (ICP-MS); Joides Resolution; Kaolinite; Lanthanum; Lead; Leg184; Lutetium; Neodymium; Nickel; Niobium; Ocean Drilling Program; ODP; Praseodymium; Rubidium; Samarium; Scandium; Smectite; South China Sea; Strontium; Tantalum; Terbium; Thorium; Thulium; Uranium; Vanadium; X-ray diffraction, clay fraction; Ytterbium; Yttrium; Zinc; Zirconium

Type: Dataset

Format: text/tab-separated-values, 11255 data points

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Age and clay mineral analysis and trace element concentrations from ODP Sites 184-1144 and 184-1146 (2010)

Wan, Shiming ; Li, Anchun ; Clift, Peter D ; [et al.]

PANGAEA

In: Supplement to: Wan, Shiming; Li, Anchun; Clift, Peter D; Wu, Shiguo; Xu, Kehui; Li, Tiegang (2010): Increased contribution of terrigenous supply from Taiwan to the northern South China Sea since 3 Ma. Marine Geology, 278(1-4), 115-121, https://doi.org/10.1016/j.margeo.2010.09.008

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Publication Date: 2024-01-09

Description: Seismic profiles provide evidence that there has been strong transport by deep-water bottom currents and drift deposition on the northern slope of the South China Sea. Earlier geochemical studies suggest that the drift sediments originated primarily from Taiwan. However, the transport process, history and origin of the deep-water bottom deposition in the northern South China Sea, on both glacial-interglacial and tectonic time scales, remain unclear. Here, we show new high-resolution records of clay minerals, grain size and mass accumulation rate (MAR) of terrigenous materials from Ocean Drilling Program (ODP) Site 1144, together with trace element concentrations in siliciclastic sediments from ODP Site 1146. Combined with other published data, we find that the primary source for sediments at ODP Sites 1144-1148 since 3 Ma is from Taiwan, and not from Pearl River as previously thought. Before 3 Ma, however, sediment source to ODP Sites 1146 and 1148 was mainly from the Pearl River. Increased contribution of terrigenous supply from Taiwan to the northern South China Sea since ~ 3 Ma may be related to the formation of the Taiwan orogen and strengthening of deep-water bottom current transport in the northern South China Sea. Variations in clay mineralogy and sedimentology at ODP Site 1144, located on a sediment drift, shows strong glacial-interglacial cyclicity. This suggests that bottom current deposition is highly dependent on sea-level fluctuations, which control the terrigenous supply to the deep sea.

Keywords: 184-1144; 184-1146; COMPCORE; Composite Core; Joides Resolution; Leg184; Ocean Drilling Program; ODP; South China Sea

Type: Dataset

Format: application/zip, 2 datasets

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Elevated gas hydrate saturation within silt and silty clay sediments in the Shenhu area, South China Sea (2011)

Wang, Xiujuan ; Hutchinson, Deborah R. ; Wu, Shiguo ; [et al.]

American Geophysical Union

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Publication Date: 2022-05-25

Description: Author Posting. © American Geophysical Union, 2011. This article is posted here by permission of American Geophysical Union for personal use, not for redistribution. The definitive version was published in Journal of Geophysical Research 116 (2011): B05102, doi:10.1029/2010JB007944.

Description: Gas hydrate saturations were estimated using five different methods in silt and silty clay foraminiferous sediments from drill hole SH2 in the South China Sea. Gas hydrate saturations derived from observed pore water chloride values in core samples range from 10 to 45% of the pore space at 190–221 m below seafloor (mbsf). Gas hydrate saturations estimated from resistivity (Rt) using wireline logging results are similar and range from 10 to 40.5% in the pore space. Gas hydrate saturations were also estimated by P wave velocity obtained during wireline logging by using a simplified three-phase equation (STPE) and effective medium theory (EMT) models. Gas hydrate saturations obtained from the STPE velocity model (41.0% maximum) are slightly higher than those calculated with the EMT velocity model (38.5% maximum). Methane analysis from a 69 cm long depressurized core from the hydrate-bearing sediment zone indicates that gas hydrate saturation is about 27.08% of the pore space at 197.5 mbsf. Results from the five methods show similar values and nearly identical trends in gas hydrate saturations above the base of the gas hydrate stability zone at depths of 190 to 221 mbsf. Gas hydrate occurs within units of clayey slit and silt containing abundant calcareous nannofossils and foraminifer, which increase the porosities of the fine-grained sediments and provide space for enhanced gas hydrate formation. In addition, gas chimneys, faults, and fractures identified from three-dimensional (3-D) and high-resolution two-dimensional (2-D) seismic data provide pathways for fluids migrating into the gas hydrate stability zone which transport methane for the formation of gas hydrate. Sedimentation and local canyon migration may contribute to higher gas hydrate saturations near the base of the stability zone.

Description: Our research is supported by the National Basic Research Program (2009CB219505), International Science & Technology Cooperation program of China (2010DFA21740), and National Natural Science Foundation of China (40930845).

Keywords: Gas hydrate ; Saturation ; Shenhu area ; Fine-grained ; Gas chimney

Repository Name: Woods Hole Open Access Server

Type: Article

Format: application/pdf

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First documentation of seismic stratigraphy and depositional signatures of Zhongsha atoll (Macclesfield Bank), South China Sea (2020)

Huang, Xiaoxia ; Betzler, Christian ; Wu, Shiguo ; [et al.]

ELSEVIER SCI LTD

In: EPIC3Marine and Petroleum Geology, ELSEVIER SCI LTD, 117, ISSN: 0264-8172

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Publication Date: 2020-04-05

Description: Carbonate platforms form informative archives for paleoclimates and their internal structures can also hold crucial information about the tectonic history and carbonate evolution of the ocean basins. The Zhongsha atoll (Macclesfield Bank) forms the largest atoll system in the South China Sea with a surface area of 23500 km2. However, the internal structure and evolution of this atoll system is completely unknown. 2D multichannel seismic reflection data were acquired in 2017 over the Zhongsha atoll in the South China Sea to unravel the stratigraphy, geomorphology, depositional processes, and seismic facies of one of the world's largest atoll for the first time. This Neogene carbonate platform comprises more than 1 km thick carbonate sequence and overlies a metamorphic basement. The southeastern part of the atoll comprises a fault-controlled graben system, which was formed during the Cenozoic rifting stage of the South China Sea. Most of the faults trend NE-SW and E-W and terminate at or slightly above the top of Middle Miocene strata. Atolls and abundant organic reefs initiated on the positive relief and closely mimicked the underlying topography during the Early Miocene. Shallow-water carbonates continued growing through Middle Miocene to present times. Regional uplift led to subaerial exposure, termination of platform growth and karstification during the Miocene. We also reveal a number of fluid-flow features such as vertical sub-bottom venting features (chimneys and pipes), chaotic reflection zones, which provide the first evidence of active fluid venting in the area of Zhongsha atoll. The Neogene sedimentation history of Zhongsha atoll further provide an important paleoenvironmental context for future scientific drilling to better constrain the evolution of Asia Monsoon.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

Format: application/pdf

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Occurrence and exploration of gas hydrate in the marginal seas and continental margin of the Asia and Oceania region (2011)

Matsumoto, Ryo ; Ryu, Byong-Jae ; Lee, Sung-Rock ; [et al.]

Elsevier

In: Marine and Petroleum Geology, 28 (10). pp. 1751-1767.

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Publication Date: 2015-11-17

Description: Supplies of conventional natural gas and oil are declining fast worldwide, and therefore new, unconventional forms of energy resources are needed to meet the ever-increasing demand. Amongst the many different unconventional natural resources are gas hydrates, a solid, ice-like crystalline compound of methane and water formed under specific low temperature and high pressure conditions. Gas hydrates are believed to exist in large quantities worldwide in oceanic regions of continental margins, as well as associated with permafrost regions in the Arctic. Some studies to estimate the global abundance of gas hydrate suggest that the total volume of natural gas locked up in form of gas hydrates may exceed all known conventional natural gas reserves, although large uncertainties exist in these assessments. Gas hydrates have been intensively studied in the last two decades also due to connections between climate forcing (natural and/or anthropogenic) and the potential large volumes of methane trapped in gas hydrate accumulations. The presence of gas hydrate within unconsolidated sediments of the upper few hundred meters below seafloor may also pose a geo-hazard to conventional oil and gas production. Additionally, climate variability and associated changes in pressure-temperature regimes and thus shifts in the gas hydrate stability zone may cause the occurrence of submarine slope failures. Several large-scale national gas hydrate programs exist especially in countries such as Japan, Korea, Taiwan, China, India, and New Zealand, where large demands of energy cannot be met by domestic supplies from natural resources. The past five years have seen several dedicated deep drilling expeditions and other scientific studies conducted throughout Asia and Oceania to understand gas hydrates off India, China, and Korea. This thematic set of publications is dedicated to summarize the most recent findings and results of geo-scientific studies of gas hydrates in the marginal seas and continental margin of the Asia, and Oceania region.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.marpetgeo.2011.09.009

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Large-scale scours formed by supercritical turbidity currents along the full length of a submarine canyon, northeast South China Sea (2020)

Li, Shuang ; Li, Wei ; Alves, Tiago M. ; [et al.]

Elsevier

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Publication Date: 2023-02-08

Description: High-resolution multibeam bathymetric and seismic data enables a detailed morphological investigation of a submarine canyon (West Penghu Canyon) on the northeastern South China Sea margin, where twenty-three (23) scours are observed along the canyon thalweg. These scours form narrow topographic depressions in plan view and show asymmetrical morphologies in cross-section. The identified scours can be further divided into two groups (Types A and B) based on their sizes and relative locations. They are separated by a slope break at a water depth of ~2850 m. Type A scours (S1-S18) occur upslope from the slope break, whereas Type B scours (S19-S23) lie downslope from this same break. The scours are interpreted as net-erosional cyclic steps associated with turbidity currents flowing through the West Penghu Canyon; the currents that form Type A scours reflect higher V, Q, and Δel compared to the currents forming Type B scours. A change in slope gradient and loss of lateral confinement are proposed to control the change from Type A to Type B scours. Furthermore, Coriolis force influences the flow direction of turbidity currents, leading to the preferential development and larger incision depths of scours towards the southwestern flank of the West Penghu Canyon. Our results contribute to a better understanding on the origin of scours in submarine canyons across the world.

Type: Article , PeerReviewed

Format: text

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