| First Author | Title | |
| T1-01 | Jie Zhang | Seismic evidence of a detachment fault near the fossil spreading center in the Southwest Sub-basin, South China Sea |
| T1-02 | Jinchang Zhang | Tamu Massif-Largest Volcano on Earth-within Shatsky Rise Oceanic Plateau Formed by Mantle Plume-Mid-Ocean Ridge Interaction? |
| T1-03 | Fan Zhang | Systematic variations in morphological characteristics of global transform faults |
| T1-04 | Weiwei DING | Tectonomagmatic process in the Southwest Sub-basin, South China Sea -geoconstraints from seismic data and IODP 349 Expedition |
| T1-05 | Tao Zhang | Asymmetric crustal structure of the slow-spreading Mohns Ridge |
| T1-06 | Chen Ling | Mantle heterogeneity and melt refertilization beneath the ultraslow-spreading ridge: Minerals compositions of peridotites from the Southwest Indian Ridge (53°E segment) |
| T1-07 | Songlei Xie | The influence of magma intrusion in South China Sea breakup |
| T1-08 | Ji-Qiang LIU | Micro-FTIR and Raman spectroscopy study of melt inclusions and glasses from East Pacific ridge (EPR) |
| T1-09 | wu zhaocai | Geophysical signatures of oceanic core complexes at the Carlsberg Ridge |
| T1-10 | Zhong, Q | Temporal and spatial variations in seismicity of fast-slipping oceanic transform faults at the East Pacific Rise |
| T1-11 | Ning Qiu | Interpretation of the spreading process for the narrow low-latitude inactive ocean basin using deeptow magnetic anomalies: A case study of Southwest Subbasin, South China Sea |
| T1-12 | Zhiyuan Zhou | Contrasts between magmatic versus amagmatic segments of ultra-slow spreading systems: Differences in underlying mantle thermal regime, partial melting, and lithospheric structure |
| T1-13 | Zhang Xia | Mineralogical Study of Hydrothermal Sulfide in the Okinawa Through |
| T1-14 | D.J. Wilson | Crustal evolution from the Costa Rica Rift to borehole 504B |
| T1-15 | Caicai Zha | Evolution of the ridges and transform faults due to the changing of spreading direction and speed at the Southwest Indian Ridge |
| T1-16 | E.P.M. Gregory | Geophysical analysis of oceanic crust at a mid-ocean ridge |
| T1-17 | Liu Shoujin | 对澳大利亚 - 南极洲不吻合带(Australian-Antarctic Discordance)的观测与地球动力学研究: 探索地幔下涌与温度异常对大洋中脊岩浆量以及岩石圈变形的影响 |
| T1-18 | Tingting Zheng | Contrasts in hydroacoustic seismicity along oceanic transform faults between the East Pacific Rise and Mid-Atlantic Ridge |
| T1-19 | Gavin A Haughton | InterRidge Bursary to Panama Basin and preliminary bathymetric interpretation |
| T1-20 | Xubo Zhang | Investigation of turbulent flows and near-bottom hydrothermal plumes at mid-ocean ridges |
| T1-21 | Ding Weiwei | Neotectonics in the Southwest Sub-basin, South China Sea: Constraints from multi-channel seismic data and IODP Expedition 349 |
| T1-22 | Masakazu FUJII | Near-seafloor Magnetics using AUV URASHIMA at the Tarama and Irabu Hydrothermal Fields, Okinawa Trough |
| T1-23 | Huatian Zhang | Different Crust Failure Modes Controlled by Spreading Obliquity and Its Implication: Insight from Southwest Indian Ridge 46-52.5°E |
| T1-24 | Ryoko Senda | Review of Os isotope variation and model ages in ablyssal peridotite |
| T1-25 | Dr. Natue Abe | Major element chemistries of the Pacific crust subducting into the Izu-Bonin Trench: |
| T2-01 | Yejian Wang | Sulfide Mineralization from a Newly Discovered Hydrothermal Field on the Carlsberg Ridge: Evidence from Mineralogy and LA-ICP-MS study |
| T2-02 | Ren Mengyi | Metallogenic information extraction and quantitative prediction process of seafloor polymetallic sulfide resources in the Southwest Indian Ocean |
| T2-03 | Xiaohu Li, | Zn isotope composition in hydrothermal systems on the mid-ocean ridge and its implication for geochemical cycling of Zinc |
| T2-04 | Li-Shoujun | TPEC Algorithm and its Application in Niao Chao Hill —China’s first international undersea feature naming |
| T2-05 | Li Huaiming | Hydrothermal sulfide mineralization model at Dragon Area on the Southwest Indian Ridge |
| T2-06 | Shujie Wang | Geochemical features of the hydrothermal sulfide on the Southern Mid-Atlantic Ridge near 15°S |
| T2-07 | Zongwei Cai | Rare-earth-elements characteristics of the hydrothermal sulfide in the Central Indian Ridge |
| T2-08 | Jianyu Ni | The new Hydrothermal zones along 3-7 south degree latitude at eastern Pacific Rise |
| T2-09 | Ágata Sofia C. M. Alveirinho Dias | Saldanha hydrothermal field: the role of the sediment-cover in the preservation of ore-forming minerals |
| T2-10 | ZIYIN WU | A new method to identify the foot of continental slope based on an integrated profile analysis |
| T2-11 | Dineng Zhao | A New Method of Automatic SVP Optimization Based on MOV Algorithm |
| T2-12 | Jayaraju N | Mining of Seabed Resources of Central Indian Ocean Basin : Ecological Implications |
| T2-13 | Zhang Weiyan | Evaluation parameters of seafloor polymetallic massive sulfide resources |
| T2-14 | Lartaud F | Characterization of chemical energy resources used by chemosynthetic bivalves in present and fossil hydrothermal systems using stable isotope signature of shells |
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