Podcasts about g cubed

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Best podcasts about g cubed

Latest podcast episodes about g cubed

The Jimmy Rex Show
#589 - Lloyd Roberts - Founder "LoanPro" Is One Of Utah's Billion Dollar Unicorns

The Jimmy Rex Show

Play Episode Listen Later Jan 8, 2025 55:41


Lloyd Roberts is the co-founder of Utah's newest billion-dollar company, LoanPro, and author of his new book on fulfillment, "G Cubed".Lloyd shares his entrepreneurial journey, from building LoanPro with his brothers to scaling it into a multi-million-dollar business, and discusses key lessons in sales, leadership, and finance. The conversation later touches on the importance of personal fulfillment, and his pivot into philanthropy and charity with his non-profit "Become More", which is transforming lives in Cambodia through health, education, and sustainable farming programs. Lloyd also introduces his G Cubed philosophy—Gratitude, Growth, and Giving—as a framework for living a truly fulfilling life.G Cubled BookCheck out my Online Men's Coaching Community We Are The They and see how it's changing men's lives across the globe!Get my FREE guide with 45 Days of Simple Tips to Become a Better ManPick up my USA Today bestselling book Be One: How to Be a Healthy Man in Toxic TimesJoin the Real Men, Real Conversations Facebook Group

A Life Invested
107. The Fulfillment Formula | Interview with Lloyd Roberts (Founder of LoanPro and author of G Cubed)

A Life Invested

Play Episode Listen Later Oct 23, 2024 63:41


Book a Call With Someone on Roger's Team Here: https://bit.ly/3IYTw0o Follow Roger on Instagram, TikTok and YouTube at: roger.comstock ______________ Lloyd has spent his life overcoming adversity. He was born with a terminal illness called Cystic Fibrosis, is blind in one eye and has poor vision in the other. In his youth, he went down a waterslide that ripped his feet off and snapped his femur in half (spoiler alert: they put his leg back on). He's learned from personal experience how to grow and become a better version of himself, not by eliminating the struggle, but by going through it. He has built a beautiful family, a fintech business valued at more than $1B, and a charity that focuses on increasing fulfillment for Americans while simultaneously decreasing poverty for the poorest among us in the rural villages of Cambodia. His new mission is to share a profoundly simple personal fulfillment formula that YOU can use to become more, to become Happy, and to become truly fulfilled.

Innovation and Leadership
Billion Dollar Tech Cofounder Turned Philanthropist | Lloyd Roberts

Innovation and Leadership

Play Episode Listen Later Nov 29, 2023 60:22


Join host Jess Larsen and special guest Lloyd Roberts, co-founder of LoanPro and author of "G Cubed.” Discover the inspiring journey from auto lending to charity work, as Lloyd shares how universal principles can create positive change. Learn how you can support 'Become More' and explore Lloyd's entrepreneurial journey with LoanPro. Learn more about your ad choices. Visit megaphone.fm/adchoices

My Perfect Failure
Manifesting Your Best Life with Lloyd Roberts

My Perfect Failure

Play Episode Listen Later Jan 28, 2023 77:29


MPF Discussion with Lloyd RobertsManifesting Your Best Life with Lloyd Roberts Lloyd Roberts is a dedicated husband, father, and serial entrepreneur who loves business and investing. Before he cofounded a tech unicorn, a company with a billion-dollar valuation, Lloyd had many ups and downs as an entrepreneur, with each new venture teaching him lessons about what to do, and not do, in business. For his hunger, passion, and agility in business, he has been nominated for several entrepreneur-focused awards, including the WIN100 (Top 100 Entrepreneurs) and the Mountain West EY Entrepreneur of the Year. In 2021, his tech company was recognized by Inc. 5000 as the 21st fastest-growing software company in the country. Born and raised in Utah, Lloyd enjoys spending time with his endearing wife and their four miracle children and relishes everything from outdoor activities, like pickleball, jungle hikes, and luaus, to indoor fun, like hitting the gym, practical jokes, and couch-time storytelling.Lloyd champions the idea of living an intentional life, where life happens for you, not to you. He hopes to inspire others by sharing his journey and discovery of a personal fulfilment formula that can be used by anyone to become truly fulfilled. On this episode of My Perfect Failure (Manifesting Your Best Life) I have an inspiring conversation with Lloyd Roberts. Lloyd provides illuminating insights into his journey as an entrepreneur, the ups the downs he has encountered, to co-founding his tech unicorn, to the tragic loss of his sister.  And how Lloyd sister sparked his desire to find a richer life of purpose and fulfilment.  Lloyd's sister ultimately helped him to discover the key to a fulfilled life culminating in Lloyds fantastic book G Cubed: The Only Formula You Will Ever Need to Become Personally Fulfilled.  Lloyd provides us all with the formula so we can all gain access to a fulfilled life with purpose. Some of the areas we cover.  Gratitude, Growth, and Giving: The core factors to manifesting your best life.·       The importance of finding personal fulfilment ·       life happens for you, not to you. ·       Why we should present our failures.·       We discuss Lloyd's book. G Cubed: The Only Formula You Will Ever Need to Become Personally Fulfilled.  Contact Lloyd: ·       https://gcubedformula.com/ Purchase G-Cubed·       https://www.amazon.co.uk/Cubed-Formula-Become-Personally-Fulfilled/dp/B0B9HR6259/ref=sr_1_1?crid=2PZ5EFUBON18G&keywords=G+Cubed&qid=1674948421&sprefix=g+cubed%2Caps%2C57&sr=8-1 Becomemore – find out more about Becomemore and support. ·       https://becomemorecharity.org/ Looking for Coaching support. Contact: Billie Roberts·       billie.roberts@gcubedformula.com Please Leave A ReviewLike this show? Please leave us a review here, even one sentence helps! Consider including your Twitter handle so we can thank you personally!Paul: Contact Details ·         Work with me: paul@myperfectfailure.com

Being Human
#235 G Cubed - with Lloyd Roberts

Being Human

Play Episode Listen Later Nov 25, 2022 56:35


> Sign Up For Our Newsletter: http://www.firsthuman.com/being-human-newsletter/   This week, I speak with Lloyd Roberts, author, serial entrepreneur and tech company co-founder. His book G Cubed: The Only Formula You Will Ever Need to Become Personally Fulfilled, is a powerful self-help guide that pairs real-life stories with a practical recipe for a personal fulfilment formula that will revitalize your potential, activate your success, and level up your entire world.  We talk: How losing his sister changed his life Almost going blind Changing your standards Gratitude, Growth, and Giving as life satisfaction multipliers How to embed rituals   Links: G Cubed - The Book The G Cubed Formula Become More

Evolved Caveman
Episode 171: 3 Ways To Find Fulfillment During Tough Times

Evolved Caveman

Play Episode Listen Later Nov 14, 2022 58:03


In the midst of a pandemic, a potential recession, layoffs, inflation, and a myriad of personal problems, how do you find personal fulfillment, happiness and meaning? Tune in to Dr. John's interview with author, Lloyd Roberts, to find out!Topics Covered:How to reprogram your unconscious mind to align it with your dreams & aspirations?What is the 7-step process to increase your levels of gratitude, growth, and giving for lasting personal fulfillment? What are some standard tools that cultivate greater personal fulfillment and happiness?Lloyd Roberts is a dedicated husband, father, and serial entrepreneur who loves business and investing. Before he cofounded a tech unicorn, a company with a billion-dollar valuation, Lloyd had many ups and downs as an entrepreneur, with each new venture teaching him lessons about what to do, and not do, in business. Lloyd has been nominated for several entrepreneur-focused awards. In 2021, his tech company was recognized by Inc. 5000 as the 21st fastest-growing software company in the country.  In his book, G Cubed, Lloyd champions the idea of living an intentional life, where life happens for you, not to you. He hopes to inspire others by sharing his journey and discovery of a personal fulfillment formula that can be used by anyone to become truly fulfilled. Learn more at www.gcubedformula.com.If you like what you've heard at The Evolved Caveman podcast, support us by subscribing, leaving reviews on Apple podcasts. Every review helps to get the message out! Please share the podcast with friends and colleagues.Follow Dr. John Schinnerer on| Instagram | Instagram.com/@TheEvolvedCaveman| Facebook | Facebook.com/Anger.Management.Expert| Twitter | Twitter.com/@JohnSchin| LinkedIn | Linkedin.com/in/DrJohnSchinnererOr join the email list by visiting: GuideToSelf.comPlease visit our YouTube channel and remember to Like & Subscribe!https://www.youtube.com/user/jschinnererEditing/Mixing/Mastering by: Brian Donat of B/Line Studios www.BLineStudios.com

Town Talk
Town Talk: Germanna Community College & G Cubed partnership

Town Talk

Play Episode Listen Later Jun 27, 2022 44:03


Germanna's Dr. Janet Gullickson and Dr. Shashuna Gray along Vernon Green of Stafford-based G-Cubed talked about partnerships. Included, a discussion about a grant for high school students and teachers in cybersecurity and IT.  

Leaders in the Trenches
Mission Driven Cultures Drive Growth with Vernon Green at G Cubed

Leaders in the Trenches

Play Episode Listen Later May 21, 2020 27:07


People want to be aligned with a purpose to drive impact. Another way to look at this is a mission-driven culture drives growth. You may believe that your mission as a leader is to increase the bottom-line or you may think that you have to develop your team for growth. Both of these are important to company success. Being a leader of a mission-driven culture is one way to make all of this easier. My guest today is Vernon Green, CEO of G Cubed Enterprises. This company was ranked #386 in the 2019 Inc 5000 list. Vernon talks about mission-driven cultures and how it drives company growth. We looked at new aspects of being a leader that is mission-driven. Join us today to look at clarifying your purpose to activate more growth. Get the show notes for Mission-Driven Cultures Drive Growth with Vernon Green at G Cubed Click to Tweet: Listening to an amazing episode on Growth Think Tank featuring Vernon Green at G Cubed with me your host @GeneHammett http://bit.ly/ VernonGreen #MissionDrivenCulture #Culture #Leadership #GHepisode563 #GTTepisodes #Podcasts Give Growth Think Tank a review on iTunes!

Physique de l'intérieur de la terre
04 - Les séismes profonds - VIDEO

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Général)
04 - Les séismes profonds - PDF

Collège de France (Général)

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones geosc tectonophys riebrock deep water transportation tectonoph
Collège de France (Général)
04 - Les séismes profonds

Collège de France (Général)

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Physique/Chimie)
04 - Les séismes profonds - VIDEO

Collège de France (Physique/Chimie)

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones geosc tectonophys riebrock deep water transportation tectonoph
Collège de France (Physique/Chimie)
04 - Les séismes profonds - PDF

Collège de France (Physique/Chimie)

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Physique/Chimie)
04 - Les séismes profonds

Collège de France (Physique/Chimie)

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Physique/Chimie)
04 - Les séismes profonds - PDF

Collège de France (Physique/Chimie)

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
04 - Les séismes profonds - PDF

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones geosc tectonophys riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
04 - Les séismes profonds

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
04 - Les séismes profonds - VIDEO

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones geosc tectonophys riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
04 - Les séismes profonds

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
04 - Les séismes profonds - PDF

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
04 - Les séismes profonds - VIDEO

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Général)
04 - Les séismes profonds - VIDEO

Collège de France (Général)

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Physique/Chimie)
04 - Les séismes profonds - VIDEO

Collège de France (Physique/Chimie)

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
04 - Les séismes profonds - PDF

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Physique/Chimie)
04 - Les séismes profonds

Collège de France (Physique/Chimie)

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones geosc tectonophys riebrock deep water transportation tectonoph
Collège de France (Général)
04 - Les séismes profonds - VIDEO

Collège de France (Général)

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Général)
04 - Les séismes profonds - PDF

Collège de France (Général)

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones geosc tectonophys riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
04 - Les séismes profonds

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
04 - Les séismes profonds - VIDEO

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
04 - Les séismes profonds - PDF

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
04 - Les séismes profonds

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones geosc tectonophys riebrock deep water transportation tectonoph
Collège de France (Général)
04 - Les séismes profonds

Collège de France (Général)

Play Episode Listen Later Nov 13, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Physique/Chimie)
04 - Les séismes profonds - VIDEO

Collège de France (Physique/Chimie)

Play Episode Listen Later Nov 12, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Général)
04 - Les séismes profonds - PDF

Collège de France (Général)

Play Episode Listen Later Nov 12, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
04 - Les séismes profonds - VIDEO

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 12, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Physique/Chimie)
04 - Les séismes profonds - PDF

Collège de France (Physique/Chimie)

Play Episode Listen Later Nov 12, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Physique/Chimie)
04 - Les séismes profonds

Collège de France (Physique/Chimie)

Play Episode Listen Later Nov 12, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
04 - Les séismes profonds - PDF

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 12, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
04 - Les séismes profonds

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 12, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
04 - Les séismes profonds

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 12, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones geosc tectonophys riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
04 - Les séismes profonds - PDF

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 12, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
04 - Les séismes profonds - VIDEO

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 12, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Général)
04 - Les séismes profonds - VIDEO

Collège de France (Général)

Play Episode Listen Later Nov 12, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Général)
04 - Les séismes profonds

Collège de France (Général)

Play Episode Listen Later Nov 12, 2018 94:05


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
03 - Les séismes profonds - PDF

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
03 - Les séismes profonds - VIDEO

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones geosc tectonophys riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
03 - Les séismes profonds - VIDEO

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Physique/Chimie)
03 - Les séismes profonds - VIDEO

Collège de France (Physique/Chimie)

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Physique/Chimie)
03 - Les séismes profonds - PDF

Collège de France (Physique/Chimie)

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Physique/Chimie)
03 - Les séismes profonds

Collège de France (Physique/Chimie)

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones geosc tectonophys riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
03 - Les séismes profonds - PDF

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
03 - Les séismes profonds

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Général)
03 - Les séismes profonds - VIDEO

Collège de France (Général)

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Général)
03 - Les séismes profonds - PDF

Collège de France (Général)

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Général)
03 - Les séismes profonds

Collège de France (Général)

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
03 - Les séismes profonds

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
03 - Les séismes profonds - VIDEO

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
03 - Les séismes profonds - PDF

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
03 - Les séismes profonds - VIDEO

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones geosc tectonophys riebrock deep water transportation tectonoph
Collège de France (Général)
03 - Les séismes profonds - PDF

Collège de France (Général)

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Physique/Chimie)
03 - Les séismes profonds - VIDEO

Collège de France (Physique/Chimie)

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Physique/Chimie)
03 - Les séismes profonds - PDF

Collège de France (Physique/Chimie)

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones geosc tectonophys riebrock deep water transportation tectonoph
Collège de France (Physique/Chimie)
03 - Les séismes profonds

Collège de France (Physique/Chimie)

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Général)
03 - Les séismes profonds - VIDEO

Collège de France (Général)

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
03 - Les séismes profonds

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones geosc tectonophys riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
03 - Les séismes profonds

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
03 - Les séismes profonds - PDF

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Général)
03 - Les séismes profonds

Collège de France (Général)

Play Episode Listen Later Nov 6, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Général)
03 - Les séismes profonds - PDF

Collège de France (Général)

Play Episode Listen Later Nov 5, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Général)
03 - Les séismes profonds - VIDEO

Collège de France (Général)

Play Episode Listen Later Nov 5, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Physique/Chimie)
03 - Les séismes profonds - VIDEO

Collège de France (Physique/Chimie)

Play Episode Listen Later Nov 5, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Général)
03 - Les séismes profonds

Collège de France (Général)

Play Episode Listen Later Nov 5, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Physique/Chimie)
03 - Les séismes profonds - PDF

Collège de France (Physique/Chimie)

Play Episode Listen Later Nov 5, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones geosc tectonophys riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
03 - Les séismes profonds - PDF

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 5, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
03 - Les séismes profonds

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 5, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones geosc tectonophys riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
03 - Les séismes profonds

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 5, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
03 - Les séismes profonds - PDF

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 5, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
03 - Les séismes profonds - VIDEO

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 5, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Collège de France (Physique/Chimie)
03 - Les séismes profonds

Collège de France (Physique/Chimie)

Play Episode Listen Later Nov 5, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones tectonophys geosc riebrock deep water transportation tectonoph
Physique de l'intérieur de la terre
03 - Les séismes profonds - VIDEO

Physique de l'intérieur de la terre

Play Episode Listen Later Nov 5, 2018 92:27


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

science washington japan water nature alaska chile bottom evans hackers peacock existence kita terre holloway physique garth tonga geology mantle bending res mcintosh seismic b1 okada constable hokkaido nazca reichert serpentine agu tohoku kuehn thurber reynard constraining naif hasegawa engdahl subduction shillington keken abers matsuzawa bebout becel faccenda romanowicz global prevalence g cubed geophys nedimovic nakjima rondenay kawakatsu seismic evidence arc volcanismas subduction top agu monograph series middle america trench double benioff zones geosc tectonophys riebrock deep water transportation tectonoph