Akizawa, N., Ozawa, K., Kogiso, T., Ishikawa, A., Miyake, A., Igami, Y., Wallis, S. R., Nagaya, T., Ohshima, C., Fujita, R., Kawamoto, T., Tamura, A., Morishita, T., Arai, S. & Yasumoto, A, Evidence for suboceanic small-scale convection from a “garnet”-bearing lherzolite xenolith from Aitutaki Island, Cook Islands. Prog Earth Planet Sci 11, 38 (2024). https://doi.org/10.1186/s40645-024-00643-w
Kaneki, S., Kouketsu, Y., Aoya, M., Nakaura, Y., Wallis, S. R., Shimura, Y. and Yamaoka, K. An automatic peak deconvolution code for Raman spectra of carbonaceous material and a revised geothermometer for intermediate- to moderately high-grade metamorphism. Prog Earth Planet Sci 11, 35 (2024). https://doi.org/10.1186/s40645-024-00637-8
Wallis, S. R., Okudaira, T., and Miyazaki, K. Paired metamorphism of SW Japan and implications for tectonics of convergent margins, Elements, 20, 71-76, https://doi.org/10.2138/gselements.20.2.71, 2024.
Knittel, U., Tokiwa, T., Tsutsumi, Y., Endo, S., Wallis, S. R. Geochronology of the Sanbagawa belt: younger and faster than before, Elements, 20, 89-95, https://doi.org/10.2138/gselements.20.2.89, 2024.
Miyazaki, K., Wallis, S. R., Ishii, K., and Annen Catherine, Thermal modeling of the Sanbagawa and Ryoke belts, Elements, 20, 110-116, https://doi.org/10.2138/gselements.20.2.110, 2024.
Yoshioka, T., Kanagawa, K., Hiroi, Y., Hirajima, T., Svojtka, M., Hokada, T., Wallis, S. R., Nagaya, T., Miyake, A. Deformation-induced, retrograde transformation of kyanite to andalusite: An example of felsic granulite in the southern Bohemian Massif, Tectonophysics, 877, https://doi.org/10.1016/j.tecto.2024.230293, 2024.
Koyama, Y., Wallis, S. R., & Nagaya T. Subduction plate interface shear stress associated with rapid subduction at deep slow earthquake depths: example from the Sanbagawa belt, southwestern Japan. Solid Earth 15, 143–166. https://doi.org/10.5194/se-15-143-2024, 2024.
England, P., Matsumoto, T., & Wallis, S Implications of surface heat flux for shear stress and temperature on the plate interface beneath northern Honshu. Geochemistry, Geophysics, Geosystems 25, e2023GC011285, https://doi.org/10.1029/2023GC011285, 2024.
K. Ishii, Y. Tahara, K. Hirata and S. R. Wallis. Relation between rheological properties and the stress state in subducting slabs. Earth, Planets and Space 76, 10, https://doi.org/10.1186/s40623-023-01957-7, 2024.
Yamaoka, K., Wallis, S.R. Clockwise rotation of SW Japan and timing of Izanagi–Pacific ridge subduction revealed by arc migration. Prog Earth Planet Sci 10, 62, https://doi.org/10.1186/s40645-023-00594-8, 2023.
Ken Yamaoka, Simon R. Wallis, Akira Miyake, Catherine Annen; Identifying plutons associated with long-lived volcanism by thermal modeling of contact metamorphic aureoles. Geology, https://doi.org/10.1130/G51563.1, 2023
Kenichiro Sugitani, Koichi Mimura, Ryoko Senda, Yui Kouketsu, Simon Wallis, Natsuko Takagi, Tsuyoshi Iizuka, Donald R. Lowe, Origin of Silicate Spherules and Geochemistry of Re and Platinum-Group Elements Within Microfossil-Bearing Archean Chert from the 3.4 Ga Strelley Pool Formation, Western Australia, Astrobiology, 23, no. 6 (2023): 670-690, https://doi.org/10.1089/ast.2021.0155, 2023.
Thomas Yeo, Norio Shigematsu, Takuma Katori, Dynamically recrystallized grains identified via the application of Gaussian mixture model to EBSD data, Journal of Structural Geology, 167, 104800, https://doi.org/10.1016/j.jsg.2023.104800, 2023.
Takayoshi Nagaya, Atsushi Okamoto, Masanori Kido, Jun Muto, Simon R. Wallis, Dehydration of brucite + antigorite under mantle wedge conditions: insights from the direct comparison of microstructures before and after experiments, Contributions to Mineralogy and Petrology, 177, 87, http://doi.org/10.1007/s00410-022-01956-z, 2022.
Shogo Soejima, Simon R Wallis, Deformed vein sets as a record of synmetamorphic volume change quantifying solution mass transfer in subduction‐type metasediments of the Del Puerto Canyon region, Franciscan Belt, USA., Journal of Geophysical Research: Solid Earth, 127, e2022JB024197, http://doi.org/10.1029/2022JB024197, 2022.
Ken Yamaoka, Simon Wallis, Recognition of broad thermal anomaly around the median tectonic line in central Kii peninsula, southwest Japan: Possible heat sources, Island Arc, 31, 1, e12440, https://doi.org/10.1111/iar.12440, 2022.
Ken Yamaoka, Simon Wallis, Akira Miyake, Yui Kouketsu, Recognition of detrital carbonaceous material in the Ryoke metamorphic belt by using Raman thermometry: Implications for thermal structure and detrital origin, Lithosphere, 2022, 1, 3899340, https://doi.org/10.2113/2022/3899340, 2022.
Elena Melekhova, Michal Camejo-Harry, Jon Blundy, Simon R Wallis, Catherine Annen, Barbara E Kunz, Frances E Jenner, Matthew Thirlwall, Arc crust formation of Lesser Antilles revealed by crustal xenoliths from Petit St. Vincent, Journal of Petrology, 63, 5, May 2022, egac033, https://academic.oup.com/petrology/advance-article/doi/10.1093/petrology/egac033/6563381, 2022.
Ishii, K., Wallis, S.R, A possible mechanism for spontaneous cyclic back-arc spreading, Prog Earth Planet Sci, 9, 27, 2022, https://doi.org/10.1186/s40645-022-00486-3, 2022.
Yui Kouketsu, Kazushi Sadamoto, Hayato Umeda, Hirokazu Kawahara, Takayoshi Nagaya, Tomoki Taguchi, Hiroshi Mori, Simon Wallis, Masaki Enami, Thermal structure in subducted units from continental Moho depths in a palaeo subduction zone, the Asemigawa region of the Sanbagawa metamorphic belt, SW Japan, Journal of Metamorphic Geology, 39, 727-749, https://doi.org/10.1111/jmg.12584, 2021.
Eva Hartung, Luca Caricchi, David Floess, Simon Wallis, Satoru Harayama, Establishing genetic relationships between the Takidani pluton and two large silicic eruptions in the Northern Japan Alps, Journal of Petrology, 62, egab085, https://doi.org/10.1093/petrology/egab085, 2021.
Astin Nurdiana, Atsushi Okamoto, Kenta Yoshida, Masaoki Uno, Takayoshi Nagaya, Noriyoshi Tsuchiya, Multi-stage infiltration of Na- and K-rich fluids from pegmatites at mid-crustal depths as revealed by feldspar replacement textures, Lithos, 388–389, 106096, https://doi.org/10.1016/j.lithos.2021.106096, 2021.
Diana Mindaleva, Masaoki Uno, Fumiko Higashino, Takayoshi Nagaya, Atsushi Okamoto, Noriyoshi Tsuchiya, Rapid fluid infiltration and permeability enhancement during middle-lower crustal fracturing: Evidence from amphibolite-granulite- facies fluid-rock reaction zones, Sør Rondane Mountains, East Antarctica, Lithos, 372–373, 105521 https://doi.org/10.1016/j.lithos.2020.105521, 2020.
Meghan R Guild, Christy B Till, Tomoyuki Mizukami, Simon Wallis, Petrogenesis of the Higashi-Akaishi Ultramafic Body: Implications for Lower Crustal Foundering and Mantle Wedge Processes, Journal of Petrology, 61, egaa089, https://doi.org/10.1093/petrology/egaa089, 2020.
Takayoshi Nagaya, Atsushi Okamoto, Ryosuke Oyanagi, Yusuke Seto, Akira Miyake, Masaoki Uno, Jun Muto, Simon Wallis, Crystallographic preferred orientation of talc determined by an improved EBSD procedure for sheet silicates: Implications for anisotropy at the slab–mantle interface due to Si-metasomatism, American Mineralogist, 105, 873–893, https://doi.org/10.2138/am-2020-7006, 2020.
Kazuhiko Ishii, Simon Wallis, High-and low-stress subduction zones recognized in the rock record, Earth and Planetary Science Letters, 531, 115935, https://doi.org/10.1016/j.epsl.2019.115935, 2020.
Simon Wallis, Ken Yamaoka, Hiroshi Mori, Akira Ishiwatari, Kazuhiro Miyazaki, Hayato Ueda, The basement geology of Japan from A to Z, Island Arc, 29, e12339, https://doi.org/10.1111/iar.12339, 2020.
Ilona Sakaguchi, Yui Kouketsu, Katsuyoshi Michibayashi, Simon Wallis, Attenuated total reflection infrared (ATR–IR) spectroscopy of antigorite, chrysotile, and lizardite, Journal of Mineralogical and Petrological Sciences, 115, 303-312, https://doi.org/10.2465/jmps.190807, 2020.
Simon Wallis, Shunsuke Endo, Comment on 'Metamorphic olivine after dehydration embrittlement in Serpentinite: Case study from the Shiraga Serpentinite mass in the Sanbagawa high P/T metamorphic belt, central Shikoku, Japan' by Fukumura, Okamoto and Terabayashi, https://doi.org/10.1111/iar.12293, Island Arc, 29, e12328, https://doi.org/10.1111/iar.12328, 2020.
Simon Wallis, Fukashi Maeno, Shinji Toda, Japan and Korean Peninsula, Encyclopedia of Geology (Second Edition), edited by David Alderton and Scott A. Elias, Academic Press, UK., 4, 526-543.
Otgonbayar Dandar, Atsushi Okamoto, Masaoki Uno, Ryosuke Oyanagi, Takayoshi Nagaya, Ulziiburen Burenjargal, Tsuyoshi Miyamoto, Noriyoshi Tsuchiya, Formation of secondary olivine after orthopyroxene during hydration of mantle wedge: evidence from the Khantaishir Ophiolite, western Mongolia, Contributions to Mineralogy and Petrology, doi, 2019.
Thijs RA Vandenbroucke, Olle Hints, Mark Williams, Simon Wallis, Jules Velleman, Toshiyuki Kurihara, Gengo Tanaka, Toshifumi Komatsu, Peep Männik, David J Siveter, Tim De Backer, Chitinozoans and scolecodonts from the Silurian and Devonian of Japan, Island Arc, 28, e12294, https://doi.org/10.1111/iar.12294, 2019.
Simon Wallis, Tatsuo Oji, Mark Williams, Moonsup Cho, The Paleozoic evolution of the Korean Peninsula and Japan: An introduction, Island Arc, 28, e12297, https://doi.org/10.1111/iar.12297, 2019.
David Floess, Luca Caricchi, Guy Simpson, Simon Wallis, Melt segregation and the architecture of magmatic reservoirs: insights from the Muroto sill (Japan), Contributions to Mineralogy and Petrology, 174, 27, https://doi.org/10.1007/s00410-019-1563-9, 2019.
Christopher P Stocker, Derek J Siveter, Philip D Lane, Mark Williams, Tatsuo Oji, Simon Wallis, Gengo Tanaka, Toshifumi Komatsu, David J Siveter, Thijs RA Vandenbroucke, The paleobiogeographical significance of the Silurian and Devonian trilobites of Japan, Island Arc, 28, e12287, https://doi.org/10.1111/iar.12287, 2019.
Christopher Stocker, Mark Williams, Tatsuo Oji, Gengo Tanaka, Toshifumi Komatsu, Simon Wallis, Spirits of Yokokurayama: shrine of the Japanese trilobites, Geology Today, 35, 15-19, https://doi.org/10.1111/gto.12255, 2019.
Debbie P.W. Tsang, Simon Wallis, Koshi Yamamoto, Makoto Takeuchi, Hiroshi Hidaka, Kenji Horie, Brian C. Tattitch, Zircon U–Pb geochronology and geochemistry of the Cerro Colorado porphyry copper deposit, northern Chile, Ore Geology Reviews, 93, 114-140, https://doi.org/10.1016/j.oregeorev.2017.12.019, 2018.
Ellie M. Scourse, Neil A. Chapman, David R. Tappin and Simon Wallis, Tsunamis: Geology, hazards and risks – introduction, Geological Society, London, Special Publications, 456, 1-3, http://dx.doi.org/10.1144/SP456.13, 2018.
Christopher Stocker, Gengo Tanaka, Derek J. Siveter, Philip Lane, Yukiyasu Tsutsumi, Toshifumi Komatsu, Simon Wallis, Tatsuo Oji, David J. Siveter, Mark Williams, Biogeographical and biostratigraphical significance of a new Middle Devonian phacopid trilobite from the Naidaijin Formation, Kurosegawa Terrane, Kyushu, southwest Japan, Paleontological Research, 22(1):75-90, https://doi.org/10.2517/2017PR011, 2018.
Simon Wallis, Osamu Fujiwara, Kazuhisa Goto, Geological studies in tsunami research since the 2011 Tohoku earthquake, Geological Society, London, Special Publications, 456(1):39, https://doi.org/10.1144/SP456.12, 2018.
Chris Stocker, Toshifumi Komatsu, Gengo Tanaka, Mark Williams, David Siveter, Carys E. Bennett, Simon Wallis, Tatsuo Oji, Takumi Maekawa, Masatoshi Okura and T. R. A. Vandenbroucke, Carboniferous ostracods from central Honshu, Japan, Geological Magazine, 155, 1, 98 - 108, https://doi.org/10.1017/S0016756816000844, 2018.
Masaki Enami, Jun-Ichi Kimura, Motohiro Tsuboi, Yui Kouketsu, Takayoshi Nagaya, Shuaimin Huang: Coexisting different types of zoned garnet in kyanite-quartz eclogites from the Sanbagawa metamorphic belt: Evidence of deformation-induced lithological mixing during prograde metamorphism. Island Arc, 28, 1–19, https://doi.org/10.1111/iar.12274, 2018.
Shunsuke Endo, Simon Wallis, Structural architecture and low‐grade metamorphism of the Mikabu‐Northern Chichibu accretionary wedge, SW Japan, Journal of Metamorphic Geology, 35, 6, 695-716 https://doi.org/10.1111/jmg.12251, 2017.
Nicola Clark, Simon Wallis, Flamingos, salt lakes and volcanoes: hunting for evidence of past climate change on the high Altiplano of Bolivia, Geology Today, 33, 3, 101-107 https://doi.org/10.1111/gto.12186, 2017.
Eva Hartung, Luca Caricchi, David Floess, Simon Wallis, Satoru Harayama, Kalin Kouzmanov, Massimo Chiaradia, Evidence for residual melt extraction in the Takidani Pluton, Central Japan, Journal of Petrology, 58, 4, 763–788, https://doi.org/10.1093/petrology/egx033, 2017.
Hiroshi Mori, N. Mori, Simon Wallis, Westaway, C. Annen, The importance of heating duration for Raman CM thermometry: evidence from contact metamorphism around the Great Whin Sill intrusion, UK, Journal of Metamorphic Geology, 35, 2, 165-180, https://doi.org/10.1111/jmg.12225, 2017.
Takayoshi Nagaya, Simon Wallis, Yusuke Seto, Akira Miyake, Yusuke Soda, Seiichiro Uehara, Megumi Matsumoto, Minimizing and quantifying mis-indexing in electron backscatter diffraction (EBSD) determinations of antigorite crystal directions, Journal of Structural Geology, 95, 127–141, https://doi.org/10.1016/j.jsg.2016.12.006, 2017.
Masaki Enami, Takayoshi Nagaya, Maw Maw Win, An integrated EPMA-EBSD study of metamorphic histories recorded in garnet, American Mineralogist, 102, 192-204, https://doi.org/10.2138/am-2017-5666, 2017.
Nagaya, T., Walker, A. M., Wookey, J., Wallis, S. R., Ishii, K. and Kendall, J.-M. 2016 (Jul). Seismic evidence for flow in the hydrated mantle wedge of the Ryukyu subduction zone. Scientific Reports 6, 29981. [18]
Kawahara, H., Endo, S., Wallis, S. R., Nagaya, T., Mori, H. & Asahara, Y. 2016 (Jun). Brucite as an important phase of the shallow mantle wedge: Evidence from the Shiraga unit of the Sanbagawa subduction zone, SW Japan. Lithos 254-255, 53–66. [15]
Kim, D. Wallis, S., Endo, S. & Ree, J.-H. 2016 (May). Seismic properties of lawsonite eclogites from the southern Motagua fault zone, Guatemala. Tectonophysics 677–678, 88-98 [11]
Taira, A., Ohara, Y., Wallis, S. R., Ishiwatari, A. & Iryu, Y. 2016 (Mar). Geological evolution of Japan: an overview. In: The Geology of Japan, edited by Moreno, T., Wallis, S. R., Kojima, T. & Gibbons, W. Geological Society, London, 1-24. [23]
Wallis, S. R. & Okudaira, T. 2016 (Mar). Paired metamorphic belts of SW Japan: the geology of the Sanbagawa and Ryoke metamorphic belts and the Median Tectonic Line. In: The Geology of Japan, edited by Moreno, T., Wallis, S. R., Kojima, T. & Gibbons, W. Geological Society, London, pp. 101–124. []
石澤尭史 渡部真史 後藤和久 池原研 Simon Wallis 井龍康文, 20163月. 英国・シェトランド諸島における津波痕跡, 地質学雑誌, 122巻, I-II. []
Williams, M., Komatsu, T., Tanaka, G., Nguyen, H. H., Zalasiewicz, J., Vandenbroucke, T. R. A., Wallis, S. & Perrier, V. 2016 (Feb). Upper Llandovery (Telychian) graptolites of the Oktavites spiralis Biozone from the Long Dai Formation, at Lam Thuy villiage, Quang Binh Province, central Vietnam. Canadian Journal of Earth Sciences 53, 1–6. [4]
Williams, M., Wallis, S., Komatsu, T., Tanaka, G., Oji, T. and Clark, N. 2016 (Jan-Feb). Dragons, brimstone and the geology of a volcanic arc on the island of the last Samurai, Kyushu, Japan. Geology Today 32, 21-26. [1]
Sugitani, K., Mimura, K., Takeuchi, M., Yamaguchi, T., Suzuki, K., Senda, R., Asahara, Y., Wallis, S. & van Kranendonk, M. J. 2015 (Nov)
A paleoarchean coastal hydrothermal field inhabited by diverse microbial communities: the Strelley Pool formation, Pilbara Craton, Western Australia. Geobiology 13, 522-545 .[41]
Endo, S., Mizukami, T., Wallis, S. R., Tamura, A. & Arai, S. 2015 (Jun)
Orthopyroxene-rich rocks from the Sanbagawa belt (SW Japan); Fluid-rock interaction in the forearc slab-mantle wedge interface. Journal of Petrology 56, 1113-1136 .[15]
Mori, H., Wallis, S., Fujimoto, K. & Shigematsu, N. 2015(Dec)
Recognition of shear heating on a long-lived major fault using Raman carbonaceous material thermometry: implications for strength and displacement history of the MTL, SW Japan. Island Arc, 24, 425-446 .[19]
Furuichi, H., Ujiie, K., Kouketsu, Y., Saito, T., Tsutsumi, A. & Wallis, S. 2015(Aug)
Vitrinite reflectance and Raman spectra of carbonaceous material as indicators of frictional heating on faults: Constraints from friction experiments. Earth and Planetary Science Letters, 424, 191–200.[22]
Weller, O. M., Wallis, S. R., Aoya, M. & Nagaya, T. 2015 (Aug)
Phase equilibria modelling of blueschist and eclogite from the Sanbagawa metamorphic belt of southwest Japan reveals along-strike consistency in tectonothermal architecture. Journal of Metamorphic Geology 33, 579–596.[24]
Mori, N., Wallis, S. & Mori, H. 2015(Jun)
Graphitization of carbonaceous material in sedimentary rocks on short geologic time-scales: An example from the Kinsho-zan area, central Japan. Island Arc, 24, 119-130.[8]
Kim, D., Katayama, I., Wallis, S., Michibayashi, K., Miyake, A., Seto, Y. & Azuma, S. 2015(Feb)
Deformation microstructures of glaucophane and lawsonite in experimentally deformed blueschists: implications for intermediate-depth intraplate earthquakes. Journal of Geophysical Research: Solid Earth , 120, 1229-1242. [16]
Nagaya, T., Wallis S. R., Kobayashi H., Michibayashi K., Mizukami T., Seto Y., Miyake A. & Matsumoto M. 2014. Reply to comment by Nozaka on Dehydration breakdown of antigorite and the formation of B-type olivine CPO. Earth and Planetary Science Letters 408, 406-407. [1]
Mizukami, T., Yokoyama, H., Hiramatsu, Y., Arai, S., Kawahara, H., Nagaya, T. & Wallis, S. 2014 (Sept) Two types of antigorite serpentinite controlling heterogeneous slow-slip behavious of slab-mantle interface. Earth and Planetary Science Letters 401, 148-158. [18]
Williams, M., Wallis, S., Oji, T. & Lane, P. D. 2014 (Jun). Ambiguous biogeographical patterns mask a more complete understanding of the Ordovician to Devonian evolution of Japan. Island Arc 23, 76-101.[24]
重松紀生, 藤本光一郎, 奥平敬元, 田中伸明, 森宏 & Wallis, Simon. 2014 (3月) 断層掘削による中央 構造線断層帯内部構造. 月刊地球, 36, 120–129.[ ]
Kouketsu, Y., Mizukami, T., Mori, H., Endo, S., Aoya, M., Hara, H., Nakamura, D. & Wallis, S. 2014 (Mar) A new approach to develop the Raman carbonaceous material geothermometer for low-grade metamorphism using peak width. Island Arc 23, 33-50.[252]
Nagaya, T., Wallis, S. R., Kobayashi, H., Michibayashi, K., Mizukami, T., Seto, Y., Miyake, A. & Matsumoto, M. 2014 (Feb) Dehydration breakdown of antigorite and the formation of B-type olivine CPO. Earth and Planetary Science Letters 387, 67-76.[35]
Aoya, M., Endo, S., Mizukami, T. & Wallis, S. R. 2013 (Apr) Paleo-mantle wedge preserved in the Sambagawa high-pressure metamorphic belt and the thickness of forearc continental crust. Geology 41, 451-454.[40]
Endo,S., Nowak, I. & Wallis, S. R. 2012 (Aug) High-pressure garnet amphibolite from the Funaokayama unit, western Kii Peninsula and the extent of eclogite facies metamorphism in the Sanbagawa belt. Journal of Mineralogical and Petrological Sciences 108, 189-200. [11]
Shigematsu, N., Fujimoto, K., Tanaka, N., Furuya, N., Mori, H. & Wallis, S. 2012(4). Internal structure of the Median Tectonic Line fault zone, SW Japan, revealed by borehole analysis. Tectonophysics 532–535, 103-118. [33]
Mitsuishi, M, Wallis, S. R., Aoya, M., Lee, J. & Wang, Y. 2012(4). E–W extension at 19 Ma in the Kung Co area, S. Tibet: Evidence for contemporaneous E–W and N–S extension in the Himalayan orogen. Earth and Planetary Science Letters 325–326, 10-20.[90]
Endo, S., Wallis, S. R., Tsuboi, M., Torres de León, R., Solari, L. A. 2012(2). Metamorphic evolution of lawsonite eclogites from the southern Motagua fault zone, Guatemala: insights from phase equilibria and Raman spectroscopy. Journal of Metamorphic Geology 30, 143-164.[44]
Wallis, S. R., Kobayashi, H., Nishii, A., Mizukami, T. & Seto, Y. 2011 (11). Obliteration of olivine crystallographic preferred orientation patterns in subduction related antigorite-bearing mantle peridotite: an example from the Higashi-Akaishi body, SW Japan. In 'Deformation Mechanism, Rheology & Tectonics: Microstructures, Mechanics & Anisotropy', edited by D. Prior & E. Rutter, D. J. Tatham, D. J. Geological Society of London Special Publications v. 360, 113-127.[16]
Nishii, A., Wallis, S. R., Mizukami, T. & Michibayashi, K. 2011(10). Subduction related Antigorite CPO patterns from forearc mantle in the Sanbagawa belt, southwest Japan. Journal of Structural Geology 33, 1436–1445. [38]
Fukunari, T., Wallis, S. R. & Tsunogae, T. 2011(9). Fluid inclusion microthermometry for constraints on normal displacement along the MTL in the Northern Besshi area, Southwest Japan. Island Arc 20, 426-438. [4]
Wallis, S., Nakamura, T., Mori, H., Ozawa, K., Mitsuishi, M., Shirakawa, C. & Hayashi, S. 2011(3). 14C Dating of Tufa Deposits Around Lake Nam Co, Tibet. Summaries of Researches at Nagoya University Using AMS, v. XXII 174-179.
Lee, J., Hager, C., Wallis, S. R., Stockli, D. F., Whitehouse, M. J., Aoya, M. & Wang, Y. 2011(3). Middle to late Miocene extremely rapid exhumation and thermal equilibration in the Kung Co rift, southern Tibet. Tectonics, 30, TC2007 doi:10.1029/2010TC002745. [93]
Aoya, M., Kouketsu, Y., Endo, S., Shimizu, H., Mizukami, T., Nakamura, D. & Wallis, S. R. 2010(Dec). Extending the applicability of the Raman carbonaceous-material geothermometer using data from contact metamorphic rocks. Journal of Metamorphic Geology 28, 895-914. [223]
Mori, H. & Wallis, S. R. 2010(Jun). Large-scale folding in the Asemi-gawa region of the Sanbagawa belt, southwest Japan. Island Arc 19, 313-335. [22]
Wallis, S. R., Mori, H., Ozawa, K., Mitsuishi, M. & Shirakawa, C. 2010(Jun). Lake shoreline deformation in Tibet and mid-crustal flow. Island Arc 19, 209-211. [3]
Sumino, H., Burgess, R., Mizukami, T., Wallis, S. R., Holland, G. & Ballentine, C. J. 2010(May). Seawater-derived noble gases and halogens preserved in exhumed mantle wedge peridotite. Earth and Planetary Science Letters 294, 163-172. [108]
Wallis, S.R. & Endo, S. 2010(Apr). Comment on ‘Metamorphic P–T–time history of the Sanbagawa belt in central Shikoku, Japan and implications for retrograde metamorphism during exhumation’ by K. Aoki, K. Kitajima, H. Masago, M. Nishizawa, M. Terabayashi, S. Omori, T. Yokoyama, N. Takahata, Y. Sano, S. Maruyama [Lithos 113 (2009) 393–407], Lithos 116, 195-196. [12]
Wallis, S. R. & Mizukami, T. 2010(Mar). Mt Higashiakaishi as an outstanding field laboratory for studying deformation of antigorite-bearing peridotite in subduction zones. Earth Monthly 32, 2–8 (in Japanese).
Hattori, K., Wallis, S., Enami, M. & Mizukami, T. 2010(Mar). Subduction of mantle wedge peridotites: Evidence from the Higashi-akaishi ultramafic body in the Sanbagawa metamorphic belt. Island Arc 19, 192-207. [60]
Hacker, B. R., Wallis, S. R., McWilliams, O. & Gans, P. B. 2009. 40Ar/39Ar Constraints on the tectonic history and architecture of the ultrahigh-pressure Sulu orogen. Journal of Metamorphic Geology 27, 827–844. [68]
Itaya, T., Hyodo, H., Tsujimori, T., Wallis, S., Aoya, M., Kawakami, T & Gouzu, C. 2009. Regional-scale excess Ar wave in Barrovian type metamorphic belt, eastern Tibetan Plateau. Island Arc 18, 293–305. [28]
Endo, S., Wallis, S. R., Hirata, T., Anczkiewicz, R., Platt, J. P., Thirlwall, M. & Asahara, Y. 2009. Age and early metamorphic history of the Sanbagawa belt: Lu–Hf and P–T constraints from the Western Iratsu eclogite. Journal of Metamorphic Geology 27, 371–384. [63]
Aoya, M., Mizukami, T., Uehara, S.-I. & Wallis, S. R. 2009. High-P metamorphism, pattern of induced flow in the mantle wedge, and the link with plutonism in paired metamorphic belts. Terra Nova 21, 67-73. [21]
Wallis, S. R., Anczkiewicz, R., Endo, S., Aoya, M., Platt, J. P, Thirlwall, M. & Hirata, T. 2009. Plate movements, ductile deformation and geochronology of the Sanbagwa belt, SW Japan: tectonic significance of 89-88 Ma Lu–Hf eclogite ages. Journal of Metamorphic Geology 27, 93–105. [112]
Mizukami, T., Wallis, S., Enami, M. & Kagi, H. 2008. Forearc diamond from Japan. Geology 36, 219-222.[31]
Adachi, Y. & Wallis, S. 2008. Ductile deformation and development of andalusite microstructures in the Nukata area: constraints on the metamorphism and tectonics of the Ryoke belt. Island Arc 17, 41-56. [14]
Kawakami, T., Aoya, M., Wallis ,S., Lee, J., Terada, K., Wang, Y., & Heizler, M. 2007. Contact metamorphism in the Malashan dome, North Himalayan gneiss domes, southern Tibet: An example of shallow extensional tectonics in the Tethys Himalaya. Journal of Metamorphic Geology 25, 831-853.[51]
Mizukami, T., Kagi, H., Wallis, S. R. & Fukura, S. 2007. Pressure-induced change in the compressional behavior of the O-H bond in chrysotile: A Raman high-pressure study up to 4.5 GPa. American Mineralogist 92, 1456-1463.[9]
Fukunari, T. & Wallis, S. R. 2007.Structural evidence for large-scale top-to-the-north normal displacement along the Median Tectonic Line in southwest Japan. Island Arc 16, 243-261.[24]
Hacker, B., Wallis, S., Ratschbacher, L., Grove, M. & Gehrels, G. 2006. High-Temperature Geochronology Constraints on the Tectonic History and Architecture of the Ultrahigh-Pressure Dabie-Sulu Orogen. Tectonics 25, TC5006, doi:10.1029/2005TC001937.[291]
Aoya, M., Wallis, S. R., Kawakami, T., Lee, J., Wang, Y. & Maeda, H. 2006. The Malashan metamorphic complex in south Tibet: comparative study with the Kangmar dome with special reference to kinematics of deformation and origin of associated granites. Geological Society of London Special Publications 248, 471-495.[53]
Otani, M. & Wallis, S. R. 2006. Quartz lattice preferred orientation patterns and static recrystallization: natural examples from the Ryoke belt, Japan. Geology 34, 561-564.[27]
Aoya, M., Tsuboi, M. & Wallis, S. R. 2006. Origin of eclogitic metagabbro mass in the Sambagawa belt: geological and geochemical constraints. Lithos 89, 107-134.[29]
Mizukami, T. & Wallis, S. R. 2005. Micro- and mesostructural constraints on the tectonic evolution of the Higashiakaishi garnet peridotite mass in southwest Japan. Tectonics 24 TC6012, doi:10.1029/2004TC001733 [66]
Aoya, M., Wallis, S. R., Terada, K., Lee, J., Kawakami, T., Wang, Y. & Heizler, M. 2005. North-south extension in the Tibetan crust triggered by granite emplacement. Geology 33, 853-856.[160]
Wallis, S. R., Tsuboi, M., Suzuki, K., Fanning, M., Jiang, L. & Tanaka, T. 2005. Role of partial melting in the evolution of the Sulu (eastern China) ultrahigh-pressure belt. Geology 33, 129-132.[193]
Aoya, M., Wallis, S. R., Kawakami, T., Lee, J. & Wang, Y. 2004. The Malashan metamorphic complex in southern Tibet: dominantly top to the north deformation and intrusive origin of its associated granites. Himalayan Journal of Sciences 2, 92-93.
Matthews, J., Wallis, S. R. & Yamaguchi, Y. 2004. ASTER views a high altitude Tibetan lake in stereo. EOS 85, 435-440.[10]
Wallis, S. R., Moriyama, Y. & Tagami, T. 2004. Exhumation rates and age of metamorphism in the Sanbagawa belt: new constraints from zircon fission track analysis. Journal of Metamorphic Geology 22, 17-24.[25]
Mizukami, T., Wallis, S. R. & Yamamoto, J. 2004. Natural examples of olivine lattice preferred orientation with a flow-normal a-axis maximum. Nature 427, 432-436.[159]
Aoya, M., Uehara, S., Matsumoto, M., Wallis, S. R. & Enami, M. 2003. Subduction-stage P-T path of eclogite from the Sambagawa belt: prophetic record for oceanic-ridge subduction. Geology 31, 1045-1048. [82]
Wallis, S. R., Tsujimori, T., Aoya, M., Kawakami, T., Terada, K., Suzuki, K. & Hyodo, H. 2003. Cenozoic and Mesozoic metamorphism in the Longmenshan orogen: Implications for geodynamic models of eastern Tibet. Geology 31, 745-748.[120]
Ikeda, T., Shimobayashi, N., Wallis, S. R. & Tsuchiyama, A. 2003. Reply to comment by A. Stallard on "Crystallographic orientation, chemical composition and three-dimensional geometry of sigmoidal garnet: evidence for rotation", Journal of Structural Geology 25, 1341-1342.[1]
Matsumoto, M., Wallis, S. R., Aoya, M., Enami, M., Kawano, J., Seto, Y. & Shimobayashi, N. 2003. Petrological constraints on the formation conditions and retrograde P-T path of the Kotsu eclogite unit, central Shikoku. Journal of Metamorphic Geology 21, 363-376.[51]
Aoya, M. & Wallis, S. R. 2003. Role of nappe boundaries in subduction-related regional deformation: spatial variation of meso- and microstructures in the Seba eclogite unit, the Sambagawa belt, SW Japan Journal of Structural Geology 25, 1097-1106.[15]
Moriyama, Y. & Wallis, S. R. 2002. Three-dimensional finite strain analysis in the high-grade part of the Sanbagawa Belt using deformed meta-conglomerate. Island Arc 11, 111-121. [20]
Yasutaka, Y. Wallis, S. R. & Ikeda, T. 2002. Comment on “Thermal evolution of the Ryoke metamorphic belt, southwestern Japan: Tectonic and numerical modeling”. Island Arc 11, 142-145.[3]
Ikeda, T., Shimobayashi N., Wallis, S. R. & Tsuchiyama, A. 2002. Crystallographic orientation, chemical composition and three-dimensional geometry of sigmoidal garnet: evidence for rotation. Journal of Structural Geology 24, 1633-1646.[26]
Aoya, M., Uehara, S. & Wallis, S. R. 2002. Thermal consequences of a subduction boundary jump: a numerical model for generating subduction-related clockwise P-T paths. Tectonics 21, 4 1-17.[25]
Wallis, S. R. & Aoya, M. 2000. A re-evaluation of eclogite facies metamorphism in SW Japan: proposal for an eclogite nappe. Journal of Metamorphic Geology 18, 653-664.[104]
Wallis, S. R., Enami, M. & Banno, S. 1999. The Sulu ultrahigh-pressure terrane - a review of petrology and structural geology. International Geology Review 41, 906-920. [94]
Aoya, M. & Wallis, S. R. 1999. Structural and microstructural constraints on the mechanism of eclogite formation in the Sambagawa belt, S W Japan. Journal of Structural Geology 21, 1561-1573.[42]
Wallis, S. R. 1998. Exhuming the Sanbagawa belt: the importance of tectonic discontinuitites. Journal of Metamorphic Geology 16, 83-95.[102]
Ernst, W. G., Maruyama, S. & Wallis, S.R. 1997. Buoyancy-driven rapid exhumation of ultrahigh-pressure metamorphosed continental crust. Proceedings of the National Academy of Sciences USA 94, 9532-9537.[278]
Wallis, S. R., Ishiwatari, A., Hirajima, T., Kai, Y., Zhai, M., Nakamura, D., Cong, B., Banno, S., Kato, T., Enami, M. & Guo, J. 1997. Occurrence and field relationships of UHP meta-granitoid in the Su-Lu terrane, China, Journal of the Geological Society of London 154, 45-54.[117]
Wallis, S. R. & Behrmann, J. H. 1996. Crustal stacking and extension recorded by tectonic fabrics of the S.E. margin of the Tauern Window, Austria. Journal of Structural Geology 18, 1455-1470.[11]
Wallis, S. R. 1995. Vorticity analysis and recognition of ductile extension in the Sanbagawa Belt, SW Japan. Journal of Structural Geology 17, 1077-1093.[267]
Takasu, A., Wallis, S. R., Banno, S. & Dallmeyer, R. D. 1994. Evolution of the Sanbagawa metamorphic belt, Japan. Lithos 33, 119-134.[99]
Enami, M, Wallis, S. R. & Banno, Y. 1994. Occurrence of sodic pyroxene in quartz schists: implications for the tectonic evolution of the Sanbagawa belt. Contributions to Mineralogy and Petrology. 116, 182-198.[232]
Wallis, S. R., Platt, J. P. & Knott, S. D. 1993. Recognition of syn-convergence extension in accretionary wedges: examples from the Calabrian Arc and the Eastern Alps. American Journal of Science 293, 463-495.[227]
Hirajima, T., Wallis, S. R., Zhai, M. & Kai, Y. 1993. Eclogitized metagranitoid from the Su-Lu ultra high-pressure (UHP) province, eastern China. Proceedings of the Japan Academy 69, Ser. B., No. 10, 249-254.[89]
Wallis, S. R., Banno, S. & Radvanec, M. 1992. The structure, kinematics and relationship to metamorphism of the E - W flow in the Sanbagawa Belt, SW Japan. Island Arc 1, 176-185.[86]
Wallis, S. R. 1992. Comment on 'Do smoothly-curved, spiral-shaped inclusion trails signify porphyroblast rotation?' by Bell et al. Geology 20, 1054-1055.[12]
Wallis, S. R. 1992. Vorticity analysis in a metachert from the Sanbagawa Belt, S. W. Japan. Journal of Structural Geology 14, 271-280 [203]
Kitamura, M., Wallis, S. R. & Hirajima, T. 1992. Sector zoning and surface roughening of garnet in the Sanbagawa metamorphic rock. Proceedings of the 6th Topical Meeting on Crystal Growth Mechanisms, 215-220
Wallis, S. R., 平島崇男,柳井修一. 1990.関東山地下仁田の跡倉ナップの運動方向とセンスについて.地質学雑誌 96, 977-980.[6]
Wallis, S. R. & Banno, S. 1990. The Sambagawa Belt - Trends in research. Journal of Metamorphic Geology 8, 393-399.[31]
Wallis, S. R. 1990. Comment on 'extension in compressional orogenic belts: The Eastern Alps' by Ratschbacher et al. Geology 18, 675-676.[0]
Wallis, S. R. 1990. The timing of folding and stretching in the Sambagawa Belt: the Asemigawa region, Central Shikoku. Journal of the Geological Society of Japan 96, 345-352.[82]
Platt, J. P., Behrmann, J. H., Cunningham, P. C., Dewey, J. F., Helman, M., Parish, M., Shepley, M. G., Wallis, S. R. & Weston P. J. 1989. Kinematics of the Alpine arc and the motion history of Adria. Nature 337, 158-161 (second author).[223]
Behrmann, J. H. & Wallis, S. R. 1987. Hangingwall imbrication of the southern margin of the Tauern window in Kals (Osttirol) as a witness of eo-alpine underplating. Jahrbuch der Geologische Bundes-Anstalt 130, 133-138 (in German). [11]
Itaya, T. & Wallis, S. R. (ed.) 2009. Microchronology and microgeochemistry: problems, perspectives and geological applications. Island Arc 18 No. 2
Aitchison, J. & Wallis, S. R. (ed.) 2009. Papers arising out of the 22nd Himalaya–Karakorum–Tibet workshop (HKT22). Island Arc 18.
Wallis, S., Banno, S. & Komatsu, M. (ed.) 1998. Mid to deep crustal processes in the island-arc setting: the metamorphic belts of Japan. Journal of Metamorphic Geology 16, No. 1.
Watanabe, T. & Wallis, S. (ed.) 1994. Tectonic processes in metamorphic belts, Island Arc 3.
Banno, S. & Wallis, S. R. (ed.) 1990. The Sambagawa Metamorphic Belt, Japan. Journal of Metamorphic Geology 8, No. 4.
S. Wallis, 水上知行. 2010. 東赤石岩体—含アンチ牛来とカンラン含の変形に関する天然の実験結果 (Mt Higashiakaishi as an outstanding field laboratory for studying deformation of antigorite-bearing peridotite in subduction zones). 月刊地球 volume 32, 2–8
Wallis, S. R., Takasu, A., Enami, M. & Tsujimori, T. 2000. Eclogite and related metamorphism in the Sanbagawa Belt, southwest Japan. Okayama University of Science Institute of Natural Sciences Bulletin of Research 26, 3-18.
Toriumi, M., Enami, M., Hirajima, T., Watanabe, T., Wallis, S. R., Takasu, A. & Nishiyama, T. 1998. The outlook for metamorphic petrological studies in the 21st century with particular reference to high-pressure metamorphic belts. Memoirs of the Geological Society of Japan 49, 71-88.
Wallis, S. R.・青矢睦月1998: 伸長剪断帯の認識とその造山帯における重要性.月刊地球 20, 87-92.
坂野昇平・Wallis, S. R.・平島崇男1997: 大陸衝突帯の深部から−超高圧変成岩の発見とその意義. 科学67, 39-47.
石渡明・平島崇男・Wallis, S. R.・榎並正樹 1996: 中国蘇魯変成帯調査報告—超高圧変成岩の温度圧力履歴と現岩の多様性について. 月刊地球 18, 146-152.
Wallis, S. R. 1996: 大陸地殻の沈み込みー浮力と沈み込む力の釣り合い.月刊地球18, 173-176.
Wallis, S. R. 1993: 地殻の力学的モデルを検証する変形運動学. 月刊地球 15, 153-157.
Platt, J. P.・Wallis, S. R. 1991: 高圧変成岩はどうやって上昇したのか.科学 61, 535-543.
Aoya, M. & Wallis, S. R. 2001. Eclogite Facies Rocks and Structures of the Sebaregion. IEC field trip guide No.2 at the 6th International Eclogite Conference, Niihama, Japan.
Wallis, S. R., Enami, M., Takasu, A., Banno, S. & Ikeda, T. 1992. Paired metamorphic belts in southwest Japan. IGC field trip guidebook (C25), Geological Survey of Japan Publications, 133-169.
Wallis, S. R. & Enami, M. 1991. Shikoku geotraverse, field excursion guide, Ocean Research Institute of Tokyo, 69-100.
Enami, M., Banno, S., Wallis, S. R. & Banno, Y. 1991: 三波川変成帯の累進変成作用.日本地質学会第98年学術大会, 見学旅行案内書, 41-61.
青矢睦月・平島崇男・榎並正樹・Wallis, S. R.・榊原正幸 2001: 第6回国際エクロジャイト会議の記念碑とその材料となったエクロジャイトの転石. 地質学雑誌107, XXI-XXII.
Wallis, S. R.・青矢睦月・河上哲生・辻森樹2000: 大陸衝突の現場:南チベットの地質調査. 地質学雑誌106,XXV-XXVI.
Wallis, S. R. & Swinbanks, D. 1990. New science institute gets director. Nature 344, 477.
Wallis, S. R. Japan plans holes on land and in the ocean, 1990. Nature 344, 279.
Wallis, S. R. 1988. Review of ‘Geologie von Österreich’ by Alexander Tollman, Geology Magazine.
Wallis, S. R. & Swinbanks, D. 1989. Japanese scientists stay clear of China for time being. Nature 340, 582.