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!!Jian Lin - Publications
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More than 250 international peer-reviewed publications, full list in [https://www2.whoi.edu/staff/jlin/publications]\\
Total citations: 19,940; H-index: 69; I10-index: 167 (per Google scholar)\\
Most-cited earthquake paper in a decade, ISI Essential Science Indicators, 2003\\
ESI top 1% paper, 2017 - 2021\\
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__Selected representative publications (*denotes students and post-docs):__\\
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1.	Wang, Z., and J. Lin, Role of fluids and seamount subduction in interplate coupling and the mechanism of the 2021 Mw 7.1 Fukushima-Oki earthquake, Japan, Earth and Planetary Science Letters, 584, 117439, 2022\\
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2.	Zhang*, F., J. Lin, Z. Zhou, H. Yang, and J.P. Morgan, Mechanism of progressive broad deformation from oceanic transform valley to off-transform faulting and rifting, The Innovation, 3, 100193, 2022\\
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3.	Lin, J., et al., Ed. Continental and Oceanic Earthquakes, Geology, and Geodynamics, Higher Education Press, in press\\
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4.	Zhang*, X., J. Lin, and M.D. Behn, Mantle heterogeneity and melting processes in the South China Sea: Thermal and melting models constrained by oceanic crustal thickness and basalt geochemistry, J. Geophys. Res., 126, e2020JB020735, 2021\\
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5.	Tao C. et al., Deep high-temperature hydrothermal circulation in a detachment faulting system on the ultra-slow spreading ridge, Nature Comm., 11, 1300, 2020 \\
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6.	Zhang*, F., J. Lin, and Z. Zhou. Flexural bending curvature and yield zone of subducting plates, Int. Geol. Rev., 62, 859-886, 2020 \\
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7.	Lin, J., Y. Xu, Z. Sun, and Z. Zhou, Mantle upwelling beneath the South China Sea and links to surrounding subduction systems, Nat. Sci. Rev., 6, 877-881 2019 \\
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8.	Ding*, M., J. Lin, C. Gu, Q. Huang, and M.T. Zuber, Variations in Martian lithospheric strength based on gravity/topography analysis, J. Geophys. Res. - Planets, 124, 3095-3118, 2019\\
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9.	Lin, J., J. Li, et al., Ocean drilling and major advances in marine geological and geophysical research of the South China Sea, Acta Oceanol. Sin., 41, 125-140, 2019 \\
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10.	Park, S.H., C.H. Langmuir, K.W.W. Sims, J. Blichert-Toft, S.S. Kim, S.R. Scott, J. Lin, et al., An isotopically distinct Zealandia–Antarctic mantle domain in the Southern Ocean, Nat. Geosci., 12, 206-214, 2019\\
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11.	Wan, K., J. Lin, et al., Deep seismic structure across the southernmost Mariana Trench: Implications for arc rifting and plate hydration, J. Geophys. Res., 124, 4710-4727, 2019\\
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12.	Zhu*, G., H. Yang, J. Lin, et al., Along-strike variation in slab geometry at the southern Mariana subduction zone revealed by seismicity through ocean bottom seismic experiments, Geophys. J. Intl., 218, 2122-2135, 2019\\
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13.	Larsen, H.C., et al., Rapid transition from continental breakup to oceanic crust at South China Sea rifted margin, Nature Geosci., 11, 782–789, 2018\\
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14.	Zhang*, F., J. Lin, Z. Zhou, H. Yang, and W. Zhan, Intra- and inter-trench variations in flexural bending of the Manila, Mariana and global trenches, Geophys. J. Intl., 212, 1429-1449, 2018 \\
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15.	Zhou*, Z., and J. Lin, Elasto-plastic deformation and plate weakening due to normal faulting in the subducting plate along the Mariana Trench, Tectonophys., 734-735, 59-68, 2018 \\
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16.	Lin, J. et al., Ocean drilling investigation of the global subduction processes, Adv. Earth Sci., 32, 1253-1266,2017\\
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17.	Ding*, M., and J. Lin, Deformation and faulting of subduction overriding plate caused by a subducted seamount, Geophys. Res. Lett., 43, 8936-8944, 2016\\
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18.	Zhou*, Z., J. Lin, M. D. Behn, and J.-A. Olive, Mechanism for normal faulting in the subducting plate at the Mariana trench, Geophys. Res. Lett., 42, 4309-4317, 2015\\
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19.	Li, C.-F., X. Xu, J. Lin, et al., Ages and magnetic structures of the South China Sea basin constrained by deep tow magnetic surveys and IODP Expedition 349, Geochem. Geophys. Geosyst., 15, 4958-4983, 2014\\
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20.	Tao, C., J. Lin, et al., First active hydrothermal vents on an ultraslow spreading center: Southwest Indian Ridge, Geology, 40, 47-50, 2012\\
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21.	Lin, J., R.S. Stein, et al., Stress transfer among en echelon and opposing thrust and tear faults: Triggering caused by the 2003 Mw=6.9 Zemmouri, Algeria, earthquake, J. Geophys. Res., 116, B03305, 2011 \\
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22.	Toda, S., J. Lin, and R.S. Stein, Using the 2011 Mw=9.0 off the Pacific coast of Tohoku earthquake to test the Coulomb stress triggering hypothesis and to calculate faults brought closer to failure, Earth, Planets Space, 63, 725-730, 2011\\
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23.	Toda, S., J. Lin, M. Meghraoui, R.S. Stein, 12 May 2008 M=7.9 Wenchuan, China, earthquake calculated to increase failure stress and seismicity on three major fault systems, Geophys. Res. Lett., 35, L17305, 2008\\
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24.	Tucholke, B.E., M.D. Behn, R. Buck, and J. Lin, The role of melt supply in oceanic detachment faulting and formation of megamullions, Geology, 36, 455-458, 2008\\
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25.	Gregg*, P.M., J. Lin, M. Behn, and L.G.J. Montesi, Spreading rate dependence of gravity anomalies along oceanic transform faults, Nature, 448, 183-187, 2007\\
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26.	Lin, J., and R.S. Stein, Stress triggering in thrust and subduction earthquakes, and stress interaction between the southern San Andreas and nearby thrust and strike-slip faults, J. Geophys. Res., 109, B02303, 2004\\
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27.	Dick, H.J.B., J. Lin, and H. Schouten, An ultraslow-spreading class of ocean ridge, Nature, 426, 405-412, 2003\\
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28.	Fujiwara, T., J. Lin, et al., Crustal evolution of the Mid-Atlantic Ridge near the Fifteen-Twenty Fracture zone in the last 5 Ma, Geochem. Geophys. Geosyst., 4(3), 1024, 2003\\
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29.	Ito, G., J. Lin, and D. Graham, Observational and theoretical studies of the dynamics of mantle plume-mid-ocean ridge interaction, Rev. Geophys., 41, 1017, 2003\\
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30.	Clift, P.D., J. Lin, and U. Barckhausen, Evidence of low flexural rigidity and low viscosity lower continental crust during continental breakup in the South China Sea, Mar. Petrol. Geol., 19, 951-970, 2002\\
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31.	Clift, P.D., and J. Lin, Preferential mantle lithospheric extension under the South China margin, Mar. Petrol. Geol., 18, 925-949, 2001\\
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32.	Freed*, A.M., and J. Lin, Delayed triggering of the 1999 Hector Mine earthquake by viscoelastic stress transfer, Nature, 411, 180-183, 2001\\
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33.	Georgen*, J.E., J. Lin, and H.J.B. Dick, Evidence from gravity anomalies for interactions of the Marion and Bouvet hotspots with the Southwest Indian Ridge: Effects of transform offsets, Earth Planet. Sci. Lett., 187, 283-300, 2001\\
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34.	Freed*, A.M., and J. Lin, Time-dependent changes in failure stress after thrust earthquakes, J. Geophys. Res., 103, 24,393-24,409, 1998\\
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35.	Tucholke, B.E., J. Lin, and M.C. Kleinrock, Megamullions and mullion structure defining oceanic metamorphic core complexes on the Mid-Atlantic Ridge, J. Geophys. Res., 103, 9857-9866, 1998\\
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36.	Ito*, G., J. Lin, and C.W. Gable, Dynamics of mantle flow and melting at a ridge-centered hotspot: Iceland and the Mid-Atlantic Ridge, Earth Planet. Sci. Lett., 144, 53-74, 1996\\
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37.	Shaw*, W.T., and J. Lin, Models of ocean ridge lithospheric deformation: Dependence on crustal thickness, spreading rate, and segmentation, J. Geophys. Res., 101, 17,977-17,993, 1996\\
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38.	Ito*, G., and J. Lin, Oceanic spreading center-hotspot interactions: Constraints from along-isochron bathymetric and gravity anomalies, Geology, 23, 657-660, 1995\\
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39.	King, G.C.P., R.S. Stein, and J. Lin, Static stress changes and the triggering of earthquakes, Bull. Seismol. Soc. Amer., 84, 935-953, 1994\\
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40.	Stein, R.S., G.C.P. King, and J. Lin, Stress triggering of the 1994 Northridge earthquake by its predecessors, Science, 265, 1432-1435, 1994\\
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41.	Tucholke, B.E., and J. Lin, A geological model for the structure of ridge segments in slow-spreading ocean crust, J. Geophys. Res., 99, 11,937-11,958, 1994\\
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42.	Sempere, J.-C., J. Lin, et al., Segmentation and morphotectonic variations along a slow-spreading center: The Mid-Atlantic Ridge 24°-30°40'N, Mar. Geophys. Res., 15, 153-200, 1993\\
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43.	Lin, J., and J. Phipps Morgan, The spreading rate dependence of three-dimensional mid-ocean ridge gravity structure, Geophys. Res. Lett., 19, 13-16, 1992\\
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44.	Stein, R.S., G.C.P. King, and J. Lin, Change in failure stress on the southern San Andreas fault system caused by the 1992 M=7.4 Landers earthquake, Science, 256, 1928-1932, 1992\\
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45.	Lin, J., G.M. Purdy, H. Schouten, J.-C. Sempere, and C. Zervas, Evidence from gravity data for focused magmatic accretion along the Mid-Atlantic Ridge, Nature, 344, 627-632, 1990\\
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46.	Lin, J., and E.M. Parmentier, Mechanisms of lithospheric extension at mid-ocean ridges, Geophys. J., 96, 1-22, 1989\\
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47.	Lin, J., and R.S. Stein, Coseismic folding, earthquake recurrence, and the 1987 source mechanism at Whittier Narrows, Los Angeles basin, California, J. Geophys. Res., 94, 9614-9632, 1989\\
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48.	Lin, J., and E.M. Parmentier, Quasistatic propagation of a normal fault: A fracture mechanics model, J. Struct. Geol., 10, 249-262, 1988\\
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49.	Lin, J., and E.M. Parmentier, Surface topography due to convection in a variable viscosity fluid: Application to short wavelength gravity anomalies in the Central Pacific Ocean, Geophys. Res. Lett., 12, 357-360, 1985


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