Wang, H., H.B. Li, G. Di Toro, L.-W. Kuo, E. Spagnuolo, S. Aretusini, J.L. Si and S.-R. Song, (2023). Melting of fault gouge at shallow depth during the 2008 MW 7.9 Wenchuan earthquake, China. Geology 2023; doi: 10.1130/G50810.1
Tran, T.-D., K.-L. Wang*, V. Kovach, A. Kotov, S. Velikoslavinsky, N. Popov, S. Dril, Z.-Y. Chu, D.-C. Lee, L.-W. Kuo, Y. Iizuka and H.-Y. Lee, (2023). Plate tectonics in action in the Mesoarchean: Implication from the Olondo greenstone belt on the Aldan Shield of Siberian Craton. Earth and Planetary Science Letters, 603, doi: 10.1016/j.epsl.2022.117975.
Chen, T. Y., L. W. Kuo*, D. Brown, J. Si, T.-J. Meng, H.-S. Sheu, Y.-F. Song and G.-C. Yin, 2022. Lightning‑induced features on granitic gneiss and its implication for rare lightning scars from the geological record. Contributions to Mineralogy and Petrology, doi:10.1007/s00410-022-01973-y.
Kuo, L.-W.*, H. Sone, V. Luzin, E.-C. Yeh, Y.-J. Hsu and E. Tan, 2022. Gouge fabrics reset by thermal pressurization record stress on faults after earthquakes. Geology, doi: 10.1130/G50217.1
Tarling, M.S., S. A. F. Smith, M. Negrini, L.-W. Kuo, W.-H. Wu and A. F. Copper, 2022. An evolutionary model and classification scheme for nephrite jade based on veining, fabric development, and the role of dissolution–precipitation. Scientific Reports, 12, 7823, doi: 10.1038/s41598-022-11560-7
Kuo, L. W.*, C.-C. Hung, H. Li, S. Aretusini, J. Chen, G. Di Toro, E. Sapagnuolo, F. Di Felice, H. Wang, J. Si and H.-S. Sheu, 2022. Frictional properties of the Longmenshan-fault-belt gouges from WFSD-3 and implications for earthquake rupture propagation. JGR-Solid Earth, doi: 10.1029/2022JB024081
Talukdar, M.*, H. Sone and L. W. Kuo, 2022. Lithology and Fault-Related Stress Variations Along the TCDP Boreholes: The Stress State Before and After the 1999 Chi-Chi Earthquake. JGR Solid Earth, 127(2), doi: 10.1029/2021JB023290
Kuo, L.-W.*, S. A. F. Smith, C.-C. Chen, C.-S. Ku, C.-Y. Chiang, D. Brown, M. Negrini, W.-J. Huang and T.-Y. Chen, 2021. Lightning-induced high temperature and pressure microstructures in surface and subsurface fulgurites. Scientific Reports, 11:22031, p. 1-14, doi:10.1038/s41598-021-01559-x
Kuo, L.-W.*, W. J.-Wu, C.-W. Kuo, S. A. F. Smith, W.-T. Lin, W.-H. Wu and Y.-H. Huang, 2021. Frictional strength and fluidization of water-saturated kaolinite gouges at seismic slip velocities. Journal of Structural Geology, 150, p. 1-17, doi: 10.1016/j.jsg.2021.104419
Chen, B.-C., T. Perdana, L.-W. Kuo*, 2021. Fluid flow and fault-related subsurface fractures in slate and metasandstone formations: A case study of the Jentse Geothermal Area, Taiwan. Geothermics, 89, p.1-15, doi: 10.1016/j.geothermics.2020.101986
Kuo, L.-W., 2020. Is the Burth of Taiwan Nephrite Related to Plate Tectonics? National Taiwan Museum. p. 100-119. ISBN:978-986-532-128-4
Wu, W.-H*, L.-W. Kuo* and H.-C. Hsiao, 2020. Micro-scale Deformation Evidence in Serpentinite (and Nephrite) in Yuli Belt, Eastern Taiwan. Journal of the National Taiwan Museum, 73(2), p.13-24, doi: 10.6532/JNTM.202012_73(2).02
Wu, W.-J., L.-W. Kuo*, C.-S. Ku, C.-Y. Chiang, H.-S. Sheu, T. D. Aprilniadi and J.‐J. Dong, 2020. Mixed‐Mode Formation of Amorphous Materials in the Creeping Zone of the Chihshang Fault, Taiwan, and Implications for Deformation Style. JGR Solid Earth, doi: 10.1029/2020JB019862
Hung, C.-C.,L.‐W. Kuo*, E. Spagnuolo, C.-C. Wang, G. Di Toro, W.-J. Wu, J.-J. Dong, W. Lin, H.-S. Sheu, E.-C. Yeh and P.-S. Hsieh, 2019. Grain fragmentation and frictional melting during initial experimental deformation and implications for seismic slip at shallow depths. JGR Solid Earth, doi: 10.1029/2019JB017905.
Kuo, L.-W.*, J.-R. Huang, J.-N. Fang, J. Si, H. Li and S.-R. Song, 2018. Carbonaceous materials in the fault zone of the Longmenshan Fault belt: 1. Signatures within deep Wenchuan earthquake fault zone and its implication. Minerals, 8(385), doi: 10.3390/min8090385.
Kuo, L.-W.*, J.-R. Huang, J.-N. Fang, J. Si, S.-R. Song, H. Li and E.-C. Yeh, 2018. Carbonaceous Materials in the Fault Zone of the Longmenshan Fault Belt: 2. Characterization of Fault Gouge from Deep Drilling and Implications for Fault Maturity. Minerals, 8(393), doi: 10.3390/min8090393.
J. Si*, H. Li, L.-W. Kuo, J.-R. Huang, S.-R. Song, J. Pei, H. Wang, L. Song, J.-N. Fang and H.-S. Sheu, 2018. Carbonaceous Materials in the Longmenshan Fault Belt Zone: 3. Records of Seismic Slip from the Trench and Implications for Faulting Mechanisms. Minerals, 8(457), doi:10.3390/min8100457
Kuo, L.-W.*, F. Di Felice, E. Spagnuolo, G. Di Toro, S.-R. Song, S. Aretusini, H. Li, J. Suppe, J. Si and C.-Y. Wen, 2017. Fault gouge graphitization as evidence of past seismic slip. Geology, 45, p.979-982, doi: 10.1130/G39295.1.
Kuo, L.-W.*, S.-R. Song, J. Suppe and E.-C. Yeh, 2016. Fault mirrors in seismically active fault zones: A fossil of small earthquakes at shallow depths. Geophysical Research Letters, 43, p. 1950-1959.
Kuo, L.-W.*, Y.-F. Song, C.-M. Yang, S.-R. Song, C.-C. Wang, J.-J. Dong, J. Suppe and T. Shimamoto, 2015. Ultrafine spherical quartz formation during seismic fault slip: Natural and experimental evidence and its implications. Tectonophysics, 664, p. 98-108.
Si, J., H. Li,L.-W. Kuo, J. Pei, S.-R. Song and H. Wang, 2014. Clay mineral anomalies in the Yingxiu-Beichuan fault zone from the WFSD-1 drilling core and its implications for the faulting mechanism during the 2008 Wenchuan earthquake (Mw7.9). Tectonophysics, 619-620, p. 171-178.
Kuo, L.-W.*, H.-C. Hsiao, S.-R. Song, H.-S. Sheu and J. Suppe, 2014. Coseismic thickness of principal slip zone from the Taiwan Chelungpu fault Drilling Project-A (TCDP-A) and correlated fracture energy. Tectonophysics, 619-620, p. 29-35.
Kuo, L.-W.*, H. Li, S. Smith, G. Di Toro, J. Suppe, S.-R. Song, S. Nielsen, H.-S. Sheu and J. Si., 2014. Gouge graphitization and dynamic fault weakening during the 2008 Mw 7.9 Wenchuan earthquake. Geology, 42, p.47-50, doi: 10.1130/G34862.1.
Li, H., H. Wang, Z. Xu, J. Si, J. Pei, T. Li, H. Yao, S.-R. Song, L.-W. Kuo, Z. Sun, M.-L. Chevalier and D. Liu, 2013. Characteristics of the fault-related rocks, fault zones and the principal slip zone in the Wenchuan earthquake Fault Scientific Drilling project Hole-1 (WFSD-1). Tectonophysics, 584, p. 23-42.
Kuo, L.-W.*, S.-R. Song, E.-C. Yeh, H.-F. Chen and J. Si, 2012. Clay mineralogy and geochemistry investigations in the host rocks of the Chelungpu fault, Taiwan: implication for faulting mechanism. Journal of Asian Earth Sciences, 59, p. 208-218.
Chou, Y.-M., S.-R. Song, C. Aubourg, T.-Q. Lee, A. M. Boullier, Y.-F. Song, E.-C. Yeh, L.-W. Kuo and C.-Y. Wang, 2012. An earthquake slip zone is a magnetic recorder. Geology, 40, p. 551-554, doi: 10.1130/G32864.1.
Kuo, L.-W., S.-R. Song, L. Huang, E.-C. Yeh and H.-F. Chen, 2011. Temperature estimates of coseismic heating in clay-rich fault gouges, the Chelungpu fault zones, Taiwan. Tectonophysics, 502, p. 315-327.
Chen, H.-F., Y.-P. Chang, S.-J. Kao, M.-T. Chen, S.-R. Song, L.-W. Kuo, S.-Y. Wen, T.-N. Yang and T.-Q. Lee, 2011. Mineralogical and geochemical investigations of sediment-source region changes in the Okinawa Trough during the past 100 ka (IMAGES core MD012404). Journal of Asian Earth Science, 40(6), p.1238-1249.
Kuo, L.-W., S.-R. Song, E.-C. Yeh and H.-F. Chen, 2009. Clay mineral anomalies in the fault zone of the Chelungpu Fault, Taiwan, and their implications. Geophysical Research Letters, 36, L18306.
Wu, Y.- H., E.-C. Yeh, J.-J. Dong, L.-W. Kuo, J.-Y. Hsu and J.-H. Hung, 2008. Core-log integration studies in hole-A of Taiwan Chelungpu-fault Drilling Project. Geophysical Journal International, 174, p. 949-965.
Wang, P.-L., L.-H. Lin, H.-T. Yu, T.-W. Cheng, S.-R. Song, L.-W. Kuo, E.-C. Yeh, W. Lin and L.-Y. Wang, 2007. Cultivation-Based Characterization of Microbial Communities Associated with Deep Sedimentary Rocks from Taiwan Chelungpu Drilling Project Cores. Terrestrial Atmospheric and Oceanic Science, 18, p. 395-412.
Song, S.-R., L.-W. Kuo, E.-C. Yeh, C.-Y. Wang, J.-H. Hung and K.-F. Ma, 2007. Characteristics of the Lithology, Fault-related rocks and fault zone structures in the TCDP Hole-A. Terrestrial Atmospheric and Oceanic Science, 18, p. 243-269.
Ma, K.-F., H, Tanaka, S.-R, Song, C.-Y. Wang , J.-H. Hung, Y.-B. Tsai, J. Mori, Y.-F. Song, E.-C. Yeh, W. Soh, H. Sone, L.-W. Kuo and H.-Y. Wu, 2006. Slip zone and energetics of a large earthquake from the Taiwan Chelungpu-fault Drilling Project. Nature, 444, p. 473-476.
Song, S.-R., Y.-L., Chen, C.-M. Liu, W.-Y. Ku, H.-F. Chen, Y.-J. Liu,L.-W. Kuo, T.-F. Yang, C.-C. Chen, T.-K. Liu and M. Lee, 2005. Hydrochemical Changes in Spring Waters in Taiwan: Implications for Evaluating Sites for Earthquake Precursory Monitoring. Terrestrial Atmospheric and Oceanic Science, 16, p.745-762.
Chen, H.-F., S.-R. Song, H.-J. Lo, L.-J. Li, J.-N. Fang, Y.-L. Chen, I.-C. Lin, Y.-J. Liu, C.-M. Liu andL.-W. Kuo, 2005. Dissolution of Na2O-CaO-nSiO2 glasses in Na2CO3 solution for long-term and short-term experiments. Journal of Non-Crystalline Solids, 351, p. 1417-1425.
Song, S.-R., W.-Y. Ku, Y.-L. Chen, I.-C. Lin, C.-M. Liu,L.-W. Kuo, T.-F. Yang and H.-J. Lo, 2003. Groundwater Chemical Anomaly before and after the Chi-Chi earthquake in Taiwan. Terrestrial Atmospheric and Oceanic Science, 14, p.311-320.
斷層地質實驗室 Fault-Zone Geology Laboratory 