POPULARITY
63 episodes with geophys
63 episodes with geophys
63 episodes with geophys
2 episodes with geophys
3 episodes with geophys
In this truly explosive episode that will have you erupting with laughter, we share our lava of volcanoes! This is a hot one, folks! Head to https://www.patreon.com/SciShowTangents to see a great video on the subject of Ceri's Fact Off fact, and to find out how you can help support SciShow Tangents, and see all the cool perks you'll get in return, like bonus episodes and a monthly newsletter!A big thank you to Patreon subscribers Eclectic Bunny and Garth Riley for helping to make the show possible!Follow us on Twitter @SciShowTangents, where we'll tweet out topics for upcoming episodes and you can ask the science couch questions! While you're at it, check out the Tangents crew on Twitter: Ceri: @ceriley Sam: @slamschultz Hank: @hankgreenSources:[Hear Ye]Round 1 AudioSource: NOAA Ocean Explorationhttps://oceanexplorer.noaa.gov/explorations/06fire/logs/april29/media/movies/spectragram.htmlRound 2 AudioAudio Credit: Robin MatozaCitation: Matoza, R.S., D. Fee, M.A. Garces, J.M. Seiner, P.A. Ramon, and M.A.H. Hedlin (2009), Infrasonic jet noise from volcanic eruptions, Geophys. Res. Lett., 36, L08303, doi:10.1029/2008GL036486Round 3 Audio Audio Credit: Robin MatoozaCitation: Matoza, R.S., D. Fee, M.A. Garces, J.M. Seiner, P.A. Ramon, and M.A.H. Hedlin (2009), Infrasonic jet noise from volcanic eruptions, Geophys. Res. Lett., 36, L08303, doi:10.1029/2008GL036486Round 3 Audio - AirplaneCredit: PDX AviationPDX Aviation - https://www.youtube.com/user/buybygb[Fact Off]Elephant salt mining in extinct volcanohttp://faculty.jsd.claremont.edu/dmcfarlane/MtElgon/index.htmhttps://www.researchgate.net/publication/240675138_Formation_of_cave_salts_and_utilization_by_elephants_in_the_Mount_Elgon_region_Kenyahttps://eawildlife.org/east-african-wildlife-societys-mount-elgon-elephant-project-eawls-meep/https://volcano.oregonstate.edu/faq/how-volcano-defined-being-active-dormant-or-extincthttps://theconversation.com/how-volcanoes-recycle-the-earths-crust-to-uncover-rare-metals-that-are-vital-to-green-technology-125159https://en.unesco.org/biosphere/africa/mount-elgon-ugandaParícutin volcanohttp://www.unmuseum.org/7wonders/mob/paricutin.htmhttp://sci.sdsu.edu/how_volcanoes_work/Paricutin.html[Ask the Science Couch]Preventing volcano eruptionshttps://www.usgs.gov/faqs/how-can-we-tell-when-a-volcano-will-erupthttps://www.eurekalert.org/news-releases/865376 https://theconversation.com/explainer-why-volcanoes-erupt-44732https://www.usgs.gov/faqs/can-we-drill-yellowstone-stop-it-erupting?qt-news_science_products=0https://www.forbes.com/sites/robinandrews/2018/05/28/why-cant-we-artificially-drain-magma-chambers-to-stop-volcanic-eruptions/https://link.springer.com/article/10.1007/BF02600367https://www.usgs.gov/center-news/volcano-watch-did-aerial-bombing-stop-1935-mauna-loa-lava-flow[Butt One More Thing]Ardley island penguin poop https://www.audubon.org/news/how-millennia-old-penguin-poo-led-scientists-volcanic-discovery
Please see below papers relevant to this interview. Comments and suggestions are always welcome: reviewer2@gmail.com @reviewer2geo @geoengineering1 and @clare_nomad_geo Please contact us if you want to come on the show or be a host for an episode and show us how it should be done. Lockley, A., D.G. MacMartin, H. Hunt, “An update on engineering issues concerning stratospheric aerosol injection for geoengineering”, Environmental Research Communications, 2(8):082001, 2020. Doi: 10.1088/2515-7620/aba944 · MacMartin, D.G., and B. Kravitz, “The engineering of climate engineering”, Annual Reviews of Control, Robotics, and Autonomous Systems, 2:445-67, 2019. doi:10.1146/annurev-control-053018-023725 · MacMartin, D.G., B. Kravitz, S. Tilmes, J.H. Richter, M.J. Mills, J.-F. Lamarque, J.J. Tribbia, and F. Vitt, “The climate response to stratospheric aerosol geoengineering can be tailored using multiple injection locations” J. Geophys. Res. A., 122, 12,574–12,590,2017. doi: 10.1002/2017JD026868 · Kravitz, B., D.G. MacMartin, H. Wang, and P. J. Rasch, “Geoengineering as a design problem”, Earth System Dynamics, 7, 469-497, 2016. doi:10.5194/esd-7-469-2016 · MacMartin, D. G., Kravitz, B., Keith, D. W., and Jarvis, A., “Dynamics of the coupled human-climate system resulting from closed-loop control of solar geoengineering”, Climate Dynamics, 43(1-2): 243-258, 2014. (doi: 10.1007/s00382-013-1822-9)
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 2- Processus physiques proposés et caractéristiques de la sismicité intermédiaire et profonde H. W. Green and P.C. Burnley (1989) A new self-organizing mechanism for deep earthquakes, Nature, 341, 733-737. Frohlich, C. (2006) Deep earthquakes, chap 6., Cambridge U. Press, Cambridge ISBN 978-0-521- 82869-7 Houston, H. (2015) Deep earthquakes, Treatise on Geophysics, G. Schubert, Ed., vol 4, chapter 13, Elsevier pubs. Kanamori, H. , D. L. Anderson and T. H. Heaton (1998) Frictional melting during the rupture of the 1994 Bolivian Earthquake, Science, 279, 839-842 Kawakatsu, H. (1996) Observability of the isotropic component of a moment tensor, Geophys. J. IInt., 126, 525-544. Kawkakatsu, H. and S. Yoshioka (2011) Metastable olivine wedge and eep dry cold slab beneath southwest Japan, Earth Planet. Sci. Lett., 303, 1-10. Scholz, C. (2002) The mechanics of earthquakes and Faulting, Cambridge U. Press, pp 471.
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 2- Processus physiques proposés et caractéristiques de la sismicité intermédiaire et profonde H. W. Green and P.C. Burnley (1989) A new self-organizing mechanism for deep earthquakes, Nature, 341, 733-737. Frohlich, C. (2006) Deep earthquakes, chap 6., Cambridge U. Press, Cambridge ISBN 978-0-521- 82869-7 Houston, H. (2015) Deep earthquakes, Treatise on Geophysics, G. Schubert, Ed., vol 4, chapter 13, Elsevier pubs. Kanamori, H. , D. L. Anderson and T. H. Heaton (1998) Frictional melting during the rupture of the 1994 Bolivian Earthquake, Science, 279, 839-842 Kawakatsu, H. (1996) Observability of the isotropic component of a moment tensor, Geophys. J. IInt., 126, 525-544. Kawkakatsu, H. and S. Yoshioka (2011) Metastable olivine wedge and eep dry cold slab beneath southwest Japan, Earth Planet. Sci. Lett., 303, 1-10. Scholz, C. (2002) The mechanics of earthquakes and Faulting, Cambridge U. Press, pp 471.
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 2- Processus physiques proposés et caractéristiques de la sismicité intermédiaire et profonde H. W. Green and P.C. Burnley (1989) A new self-organizing mechanism for deep earthquakes, Nature, 341, 733-737. Frohlich, C. (2006) Deep earthquakes, chap 6., Cambridge U. Press, Cambridge ISBN 978-0-521- 82869-7 Houston, H. (2015) Deep earthquakes, Treatise on Geophysics, G. Schubert, Ed., vol 4, chapter 13, Elsevier pubs. Kanamori, H. , D. L. Anderson and T. H. Heaton (1998) Frictional melting during the rupture of the 1994 Bolivian Earthquake, Science, 279, 839-842 Kawakatsu, H. (1996) Observability of the isotropic component of a moment tensor, Geophys. J. IInt., 126, 525-544. Kawkakatsu, H. and S. Yoshioka (2011) Metastable olivine wedge and eep dry cold slab beneath southwest Japan, Earth Planet. Sci. Lett., 303, 1-10. Scholz, C. (2002) The mechanics of earthquakes and Faulting, Cambridge U. Press, pp 471.
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
© 2020-2025 Ivy Podcast Discovery LLC
