POPULARITY
Er is nogal wat ophef over het feit dat private-equitybelegger KKR tegenwoordig eigenaar is van de Zwarte Cross. Tja, je hebt je aandeelhouders niet altijd voor het kiezen als je het bedrijf verkoopt. De oprichters deden het in 2021 over aan Superstruct en dat werd eind 2024 door KKR overgenomen. En nou zegt Youp van ’t Hek ook nog zijn optreden bij de Zwarte Cross af. Het is wel een beetje hypocriet van Youp. Ik ben benieuwd of er dan ook geen Becel of Blue Band in zijn koelkast staat. En boekt hij dan geen vakantiehuisje meer bij Roompot? Ruilt hij zijn Batavus- of Sparta-fiets in? Kijkt hij niet meer naar SBS? Parkeert hij niet meer bij Q-Park. Enzovoort, enzovoort. Daarmee beseffen we dat het Amerikaanse grootkapitaal in de haarvaten van onze maatschappij zit. Het management van de Zwarte Cross noemt KKR de boze stiefmoeder. Een terechte benaming, vind ik, onder meer vanwege het sprinkhanengedrag. Het is een beetje het Ben & Jerry’s-dilemma. Dat alternatieve ijsjesmerk werd door de oprichters aan Unilever verkocht. Maar Ben Cohen en Jerry Greenfield waren het vaak niet eens met het beleid van het moederbedrijf. Tja, dan had je niet moeten verkopen. Dus Youp zegt zijn optreden af. En dan? Verandert de wereld? Deze actie is slechts voor de bühne, maar ja, dat is zijn corebusiness. Als hij mij uit zijn blote hoofd de bedrijven kan noemen waarin KKR belegt waar hij het niet mee eens is, wil ik hem het voordeel van de twijfel geven. Over Youp maak ik me geen zorgen, wel over al die vrijwilligers die aan de Zwarte Cross meewerken. Ik kom graag naar Lichtenvoorde en heb er zelfs een paar keer mogen optreden. Ik ben elk jaar verbaasd over het enthousiasme en de hoeveelheid vrijwilligers. Sommige van die achtduizend (!) vrijwilligers zullen zich nu toch wel afvragen: sta ik me hier nou een beetje voor de winst van het grootkapitaal uit te sloven? Een voordeel is wel dat je nu dus in de Zwarte Cross kunt beleggen. Voordat u denkt: dat is mooi, dan koop ik een paar aandelen KKR en heb ik die paar extra biertjes op de Zwarte Cross zo terugverdiend, eerst even wat cijfers. KKR heeft een beleggingsportefeuille van ruim $700 mrd. Superstruct is naar schatting overgenomen voor €1,3 mrd. Dat is dus slechts 0,2% van het totaal. En Superstruct heeft tachtig festivals. De Zwarte Cross is daar maar een van en daar schenken ze naar schatting 1,8 miljoen biertjes. Het is heel jammer dat zelfs de Zwarte Cross in handen is gevallen van Amerikaans private equity, maar het is een feit. Misschien dat ik dit jaar ook een of twee biertjes laat staan. Gewoon voor het gevoel, gewoon voor de bühne. Over de column van Corné van Zeijl Corné van Zeijl is analist en strateeg bij Cardano en belegt ook privé. Reageer via c.zeijl@cardano.com. Deze column kun je ook iedere donderdag lezen in het FD.See omnystudio.com/listener for privacy information.
This week on Finding Your Bliss, Celebrity Interviewer and Bliss Coach Judy Librach is joined by “Canada's Cookbook Queen” Rose Reisman. Rose Reisman is an award-winning entrepreneur, caterer, author and media personality. As a registered nutritional consultant and certified personal trainer armed with an MBA, Rose has taken her passion for healthy living and developed it into a multi-faceted enterprise, making her one of Canada's leading authorities on the art of eating and living well. With decades of industry experience, countless media appearances and over 22 cookbooks to her name, Rose became affectionately known as Canada's “Cookbook Queen,” after years of being a leading cookbook author and media darling. Rose resides in Toronto, Ontario with her husband Sam, their Ragdoll cat and new puppy, Charlie. A proud mother of four and grandmother of seven, Rose started her career in her thirties, after she was diagnosed with high cholesterol. From a family with a genetic predisposition towards heart issues, Rose's passion for nutrition stemmed from a personal desire to help other families like hers, showing them how to make small changes to optimize their health, without sacrificing the joy of delicious food. Rose holds a Bachelor of Education from the University of Toronto, an MBA from York University and a Masters in Fine Arts, specializing in Theatre, also from York University. Excelling in the fields of communication, business and stage presence, Rose used her impressive educational background and effective communication skills to help thousands of Canadians adopt healthier lifestyles. In the early 90's, Rose wrote a breakthrough cookbook entitled "Rose Reisman Brings Home Light Cooking," selling over 400,000 copies. In the mid 2000's she pioneered the health menu at the Restaurant Chain, "The Pickle Barrel," collaborated with McCain's in a TV commercial, promoting their healthy alternatives and consulted for President's Choice on their Blue Menu items, to devise healthy recipes for this branch. Over 30 years, 22 cookbooks and hundreds of media appearances later, Rose is now a household name across Canada. Today, Rose has turned her passion for nutrition into a renowned and far-reaching enterprise, with several companies operating under her likeness and guidance, including Rose Reisman Catering; providing healthy cuisine catering for over 400 corporate and social clients; Rose Reisman Personal Gourmet, a fresh and frozen meal delivery program, and the acclaimed Kid's Lunch Program; the preferred vendor of the Toronto District School Board, providing hot and healthy meals to schools in the GTA, serving over 1500 children daily. Recently named “Now Magazine's” Best Nutritionist in their “Reader's Choice” 2021 Edition, Rose continues to be a charismatic stage presence, sharing her vast knowledge of the nutritional landscape to new audiences, through her popular Instagram and Tik Tok channels. Rose's healthy, active and balanced lifestyle is the ultimate testament to the effectiveness of her message. A longtime advocate of an active lifestyle, Rose rises at 4:15 am daily for her morning workout and has recently become an accredited certified personal trainer. Over the course of her successful career, Rose has made countless media appearances, including hosting several popular nutrition segments on national TV channels such as Citytv, Breakfast Television and 680 News. Some brands she has worked with include: Becel, President's Choice, McCain Foods, Pillers, Catelli, ProNamel, Pulses, Think Rice and more. Also on the program, we have talented singer/songwriter Jacob Schulman. Jacob Schulman is a PhD candidate in the field of MRI physics at the University of Toronto, but while he's not working in the lab, Jacob is an avid musician and songwriter. As the child of two musicians, a jazz pianist and a singer-songwriter, J?acob's passion for music manifested at an early age. Jacob has been writing music since he was ...
Met opvallende zwart verpakte pindakaas, chocopasta, margarine en bakboter probeert oprichter Marcel van Wing (The Flower Farm) de industrie op z'n kop te zetten. Het is niet de verpakking waarmee hij zich onderscheidt, maar de inhoud. Alle producten hebben één ding gemeen: er zit geen grammetje palmolie in. Allemaal om ontbossing van het regenwoud tegen te gaan. In Buiten de Beurs kijken we naar bedrijven die belachelijk succesvol zijn, en dat zónder beursnotering. Waarom kiezen die bedrijven ervoor de beurs links te laten liggen? Hoe komen zij dan aan hun geld? En hoe doe jij mee als je zo'n aandeel niet op de beurs kan kopen?See omnystudio.com/listener for privacy information.
Met opvallende zwart verpakte pindakaas, chocopasta, margarine en bakboter probeert oprichter Marcel van Wing (The Flower Farm) de industrie op z'n kop te zetten. Het is niet de verpakking waarmee hij zich onderscheidt, maar de inhoud. Alle producten hebben één ding gemeen: er zit geen grammetje palmolie in. Allemaal om ontbossing van het regenwoud tegen te gaan. In Buiten de Beurs kijken we naar bedrijven die belachelijk succesvol zijn, en dat zónder beursnotering. Waarom kiezen die bedrijven ervoor de beurs links te laten liggen? Hoe komen zij dan aan hun geld? En hoe doe jij mee als je zo'n aandeel niet op de beurs kan kopen?See omnystudio.com/listener for privacy information.
Na meer dan 100 jaar heeft Unilever geen trek meer in ijs. De ijsdivisie, met merken als Magnum en Ben & Jerry's, gaat in de verkoop. Het onderdeel wordt een beursbedrijf óf los verkocht aan een concurrent. Ook grijpt het bedrijf hard in: 7500 banen worden geschrapt. Deze aflevering hebben we het over de strategie van Unilever. De theedivisie werd eerder al verkocht (Lipton), de margarinetak (Becel) en nu gaan de ijsjes de deur uit. Is het slim dat veel bekende merken worden afgedankt? En kan het aandeel van Unilever nu weer uit de vriezer, want dat deed niet veel meer. Ook hebben we het over een superchip genaamd Blackwell. Dat is waarmee Nvidia kwam op de 'Woodstock van de AI'. Die chip wordt volgens Nvidia de basis voor computers. Gaat dit de beurskoers helpen of wordt dit de eerste keer dat Nvidia teleur gaat stellen? Verder hebben we het over de legendarische George Lucas, de man die onder meer Star Wars verzon. Hij meldt zich in een gevecht met een activistische aandeelhouder. Een aandeelhouder die het op de directie van Disney heeft gemunt.Je hoort waarom de energietransitie mislukt is en wat de gevolgen zijn van de renteverhoging van de Japanse centrale bank. Voor het eerst in 17 jaar ging de rente daar omhoog! Is nu die rally op de Japanse beurs nu ten einde?See omnystudio.com/listener for privacy information.
Na meer dan 100 jaar heeft Unilever geen trek meer in ijs. De ijsdivisie, met merken als Magnum en Ben & Jerry's, gaat in de verkoop. Het onderdeel wordt een beursbedrijf óf los verkocht aan een concurrent. Ook grijpt het bedrijf hard in: 7500 banen worden geschrapt. Deze aflevering hebben we het over de strategie van Unilever. De theedivisie werd eerder al verkocht (Lipton), de margarinetak (Becel) en nu gaan de ijsjes de deur uit. Is het slim dat veel bekende merken worden afgedankt? En kan het aandeel van Unilever nu weer uit de vriezer, want dat deed niet veel meer. Ook hebben we het over een superchip genaamd Blackwell. Dat is waarmee Nvidia kwam op de 'Woodstock van de AI'. Die chip wordt volgens Nvidia de basis voor computers. Gaat dit de beurskoers helpen of wordt dit de eerste keer dat Nvidia teleur gaat stellen? Verder hebben we het over de legendarische George Lucas, de man die onder meer Star Wars verzon. Hij meldt zich in een gevecht met een activistische aandeelhouder. Een aandeelhouder die het op de directie van Disney heeft gemunt.Je hoort waarom de energietransitie mislukt is en wat de gevolgen zijn van de renteverhoging van de Japanse centrale bank. Voor het eerst in 17 jaar ging de rente daar omhoog! Is nu die rally op de Japanse beurs nu ten einde?See omnystudio.com/listener for privacy information.
Peygamber Efendimiz'in Fetanetinin Bir Buudu: İnsanları Doğru Yerde İstihdam *Rasûl-i Ekrem Efendimiz'in (sallallâhu aleyhi ve sellem) fetanetinin farklı bir derinliği de kimi nerede istihdam ettiyse o mevzuda milimi milimine isabet buyurmasıdır. Evet, O, tayin ve tavzifte bulunduğu insanlardan hiçbirini değiştirme lüzumu duymamıştır. Çünkü kimi nereye tayin etmişse o orada başarılı olmuştur. Bu da vazife verirken insanları çok iyi okumaya, çok iyi test etmeye ve karakterlerini çok iyi keşfetmeye bağlıdır. Günümüz şartları içinde kabiliyetlerin doğru okunması ve onların yerli yerinde istihdam edilmesi ise bir yönüyle müşterek akla ve kolektif şuura vâbeste bir durumdur. *Evet, Allah Rasûlü'nün gönderdiği insanlar hep başarıyla dönmüşlerdir. Bir kısım muvakkat hezimet türü sarsıntılar ve sürçmeler yaşanmışsa, O'nun dediğinin hilafına hareket edildiğinden dolayıdır. Örnek olarak, Uhud Savaşı'nda okçular tepesini terk eden insanların durumunu düşünebilirsiniz. Şu kadar var ki, Kur'an-ı Kerim'de ilahi af, mağfiret ve rahmete mazhar olduklarına işaret edilen o insanları suçlamaya kalkmamalısınız; onların zellelerini bir içtihad hatası olarak kabul etmelisiniz. *Allah Rasûlü, Yemen halkının İslam'a büyük hayırları dokunacağını biliyor; onlara ihtimam gösteriyordu. Bir gün Rasûl-i Ekrem Efendimizin meclisinde herkes yerini almış otururken Cerîr İbni Abdullah el-Becelî hazretleri içeri girmişti. Hazreti Cerîr, kavminden 200 kişiyle birlikte Yemen'den Medine'ye gelerek müslüman olmuş saygıdeğer bir insandı. Genç, heybetli, güzel yüzlü ve imrendirici bir hâli vardı. Peygamberimizin huzuruna kim önce gelmiş ve nereye oturmuşsa orası onun hakkı idi; günümüzün nakil vasıtalarındaki numarasız koltuklarda olduğu gibi önce gelen arzu ettiği yere otururdu. Cerîr İbni Abdullah (radıyallahu anh) içeri girince oturacak yer bulamamıştı ve kendisine yer gösteren de olmamıştı. Bu durumu farkeden Peygamber Efendimiz, hemen cübbesini çıkarmış, künyesiyle ona seslenmiş “Ey Ebû Amr, al onu, üzerine otur!” demişti. Sonra da, çevresindekilere dönerek, “Bir topluluğun kerem ve şeref sahibi büyüğü yanınıza geldiği zaman, ona ikramda bulunun ve hürmet edin.” buyurmuştu. *İnsanlığın İftihar Tablosu, değişik dönemlerde Yemen'in farklı bölgelerine çok büyük sahabileri vazifelendirmişti. Onlardan biri de Muaz bin Cebel (radıyallahu anh) olmuştu. Sahiden onun Yemen'e gidişiyle alakalı hadisler dikkatlice mütalaa edildiğinde özellikle dört vasfın öne çıktığı görülür: Temsil, merak uyarma, meraka cevap verecek donanım ve üslupta tedricîlik.
We praten in deze aflevering over ouderschap. We bespreken de rol van ouders in films, series, social media en in commercials van merken als IKEA en Becel. En wat voor dier ben jij als ouder eigenlijk? Ben je meer een dolfijn of een schildpad? En wat is eigenlijk 'Sharenting' en waarom is dit een zorgwekkende trend? En hoe zit het met de nieuwe aandoening 'TikTokTourette? Wordt dit na Covid de nieuwe social media pandemie? Niemand minder dan Marjolein Moorman (PVDA-wethouder in Amsterdam) geeft haar kijk op de staat van het onderwijs en bespreekt de 'diploma-samenleving' waar we volgens haar in terecht zijn gekomen. Familierecht-advocate Lotte Castelijns van Fam.advocaten geeft tips aan ouders en biedt ons een kijkje in de wereld van echtscheidingen. Natuurlijk hebben we ook weer de 'Gouden Barista' en 'Koffie Verkeerd' en een verrassende Complot or NOT voor jullie klaar staan. En in deze aflevering ook weer een 'Star Wars Minute' en de rol van de disfunctionele gezinnen in the Galaxy far far away. Leuk ter vergelijking! Shownotes Rappers zingen over hun mama https://www.hotnewhiphop.com/663878-rap-songs-about-moms-mothers-day IKEA ‘Trots op de twee plek' https://www.ogilvy.com/work/proudly-second-best Van Helikopterouders tot Tijgerouders https://www.linda.nl/nieuws/helikopterouders-onderzoek-zorgen-opvoeding-broeikaskinderen/ https://www.psychologytoday.com/us/blog/the-dolphin-way/201405/how-the-tiger-dolphin-and-jellyfish-parents-differ Kinderen luisteren na hun 13e niet meer naar hun ouders https://www.brosjourney.nz/post/when-kids-turn-13-they-are-wired-to-ignore-what-their-parents-say Becel campagne ‘Blijf hart gaan' https://www.youtube.com/watch?v=kVWURJA0XNY AH campagne ‘onderhandelen' https://www.youtube.com/watch?v=5A1HSPClYcA&list=PLI1CVwO38JXby-bg0S2m1Afv5MyiNVlKz Erling Haaland & bio-hacking https://www.rtlnieuws.nl/sport/voetbal/artikel/5069071/gezond-de-crisis-door-met-de-bijzondere-leefstijl-van-ronaldo-en Kids op Social / Emojibaby https://www.vpngids.nl/onderzoek/driekwart-ouders-zet-kinderen-op-social-media/ Sharenting nieuwe zorgwekkende trend op social media https://www.ad.nl/tech/ouders-gooien-privacy-van-hun-kinderen-te-grabbel-op-sociale-media~a979794a/ https://www.telegraaf.nl/vrouw/1130296995/praat-mee-toon-jij-je-kinderen-herkenbaar-op-sociale-media Samenwonen na scheiden https://www.curbed.com/2023/07/divorced-living-together-nyc-real-estate.html
Glenn van der Burg ging tijdens Impact in gesprek met Anniek Mauser van Unilever. Waarschijnlijk douche jij ook ‘s ochtends met Axe, Dove of Andrélon en voordat je naar je werk gaat, of achter je laptop gaat zitten, smeer je je brood met Becel of Calvé. Om een uurtje of vier is het weer tijd voor een Cup-a-Soup. Wat deze producten met elkaar gemeen hebben? Ze zijn stuk voor stuk eigendom van de grootste Nederlandse producent van voedingsmiddelen en verzorgingsartikelen: Unilever. Het bedrijf dat sinds de lancering van het Sustainable Living Plan duurzaamheid als kern van de groeistrategie heeft. Volgens externe ranglijsten, zoals de Dow Jones Sustainability Index en Behind the Brands van Oxfam, is Unilever wereldwijd koploper op het gebied van milieu-impact verkleinen. Maar wat blijkt: twee derde van de milieu-impact wordt veroorzaakt door het gebruik van Unilever-producten door de consument. Mensen moeten worden geholpen om slimmere, betere en duurzamere keuzes te maken. De eigen zaken lijken op orde, maar hoe bereikt Unilever ook een gedragsverandering van de consument? Om dat te weten te komen sprak Glenn van der Burg in deze aflevering van Impact met Anniek Mauser, directeur duurzaamheid bij Unilever Benelux en Thomas de Groote, Founder van River Cleanup. Het programma wordt gemaakt in samenwerking met het impactonderzoekscentrum Impact Centre Erasmus; GroenLeven, marktleider op het gebied van zonne-energie, en duurzaam-ondernemen.nl, hét online kenniscentrum voor duurzaam of maatschappelijk verantwoord ondernemen. Impact is elke tweede en vierde vrijdag van de maand tussen 14:00 en 15:00 uur te beluisteren op New Business Radio. Na de uitzending is het programma terug te luisteren als podcast via alle bekende podcast platforms en impact.radio.
Chris und Jochen hören sich wieder und inzwischen hat Jochen ein Kind bekommen. Indirekt. Im Gepäck haben wir einige heißgeliebte Kategorien, wie Weirde Werbung, einen Bandnamen, ganz viel Trivia und dazwischen passieren auch noch Dinge. Um es grob zu umreißen: Brüste, Harems, Ferrari, Becel, Einbrecher-Chris, Pac-Man, Espresso und natürlich noch ganananz viel mehr! >Parapika >100% Bio-Rahm >tierisches Streichfett, Alta! >Béby auf dem Nockéby >Hunterbyte Mail: 2meter2mark@mail.de Insta: @zweimeterzweimark @chryz_tretto @joe100984
Avant toute chose, nous tenons à vous souhaiter une année 2021 aussi lumineuse et nourrissante que possible. En dépit du chaos que nous avons tous vécu depuis le mois de mars 2020, nous sommes heureux d'avoir pu continuer à vous proposer des rencontres inédites avec de jeunes talents, -fussent-ils à distance-. Notre enthousiasme et notre vitalité n'ont pas faibli, tout regaillardis par la perfusion d'énergie positive que nous nous offrent chaque semaine ces jeunes musiciens. Nous espérons de tout coeur que cette année vous permettra de découvrir de nombreux jeunes talents. Ils ont souffert davantage que les artistes confirmés, et votre écoute est pour eux, un soutien bien plus important que vous ne l'imaginez ! Au nom de ces jeunes artistes que j'ai la chance de rencontrer chaque dimanche, je vous remercie pour l'intérêt que vous leur portez. Ce dimanche, je vous propose une nouvelle diffusion de la rencontre avec le trio Becel, c'était le 15 mars 2020. En 1915, Claude Debussy compose la Sonate pour flûte, alto et harpe. C'est la 1ère fois que l'on écrit pour ces trois instruments dans l'Histoire de la Musique. Près de 100 ans plus tard, la flûtiste française Léonore Frommlet, et la harpiste italienne Martina Antognozzi se rencontrent au Conservatoire d'Anvers, où elles étudient. Elles forment alors un duo flûte/harpe, pour lequel le répertoire abonde. Un peu plus tard, le duo rencontre l'altiste hongrois Gergely Kóta, et devient dès lors un trio. Une formation qui se rencontrera et se formera autour de la Sonate de Debussy évoquée ci-dessus : le Trio Becel https://www.triobecel.com/francais/bio était né ! Un trio singulier de par sa composition, et pour lequel on a écrit davantage qu'on ne l'imagine, après l'oeuvre fondatrice de Debussy, en 1915. Cela étant dit, si l'on compare le répertoire de ce trio flûte, alto et harpe, avec celui du trio avec piano, ou du trio à cordes, il est évidemment plus modeste. C'est l'une des raisons pour lesquelles le trio n'hésite pas à arranger ou à transcrire de grandes oeuvres du répertoire. Un exercice dans lequel il excelle. Un bel exemple avec la Sonate "Pathétique" (ndlr. : Sonate pour piano) de Beethoven, dont nous écouterons un extrait. Des transcriptions tellement fines, qu'elles nous font redécouvrir ces grandes pages du répertoire qu'on croyait pourtant connaître par coeur. Les compositeurs de notre temps ne sont pas non plus en reste. L'Urugayen Miguel De Águila, par exemple, a composé "Submerged" pour cette formation. Une oeuvre dans laquelle il utilise à la fois des motifs de Musique traditionnelle urugayenne, et des éléments de langage dodécaphonique : un métissage qui fonctionne à merveille ! Gergely Kóta, l'altiste, né en Hongrie rappelle qu'en Hongrois " Bècél " signifie " parler ". Et la volonté du trio de " parler avec " est évidente. Ce goût pour le dialogue avec le public, se fait entendre et voir dès les premières notes que jouent ces chambristes, complices comme frère et soeurs. Le trio partage l'amour d'un langage qu'il adresse de façon directe, légère et ludique au public, sans hésiter à solliciter les particularités de chaque membre pour fonder la richesse de ses mises en scène innovantes. Le trio Becel utilise aussi toutes les techniques d'aujourd'hui pour communiquer : la vidéo par exemple. Mais lorsqu'on écoute le trio attentivement, c'est surtout sa passion et son enthousiasme pour la musique qu'il interprète, qui emportent l'adhésion du public, fut-il novice en répertoire classique. Le Trio Becel : une formation qui respire la joie, et dont la technique impeccable est exclusivement au service du langage musical. Un trio à écouter sans délai ! Bonne écoute ! Réalisation et présentation : Laurent GRAULUS
Lisa Le is a nerdy, feminist, intersectional vegan blogger and food photographer. She runs The Viet Vegan blog and Youtube channel, and you may remember her as a former Veg Out host and Resource Centre volunteer. Lisa joined us virtually to talk about her sourdough journey, propagating house plants, and discovering the new plant based Becel […] The post Veg Out 477: Catching up with Lisa Le, The Viet Vegan appeared first on Toronto Vegetarian Association » Toronto Vegetarian Podcast.
Remko is gezondheidscoach, arts in opleiding tot cardioloog, onderzoeker en auteur van Het Oerdieet. In deze Podcast vertelt Remko over: waarom we onze leefstijl moeten aanpassen aan voor de landbouwrevolutie hoe de wetenschap meer vanuit consensus dan vanuit competitie zou moeten werken waarom ego en gebrekkige kennis een belangrijke oorzaak zijn van beladen discussies over gezondheid en voeding de behoefte aan een onafhankelijk preventief leefstijlcentrum zonder lobby (omdat een arts niet verantwoordelijk is voor gezond leven) het spanningsveld tussen onnatuurlijke voedingsproducten en gezondheidsclaims (bijvoorbeeld logo Hartstichting op Becel) een simpel voorstel voor een ander en beter beoordelingsmodel dan de nieuwe NutriScore hoe de complementaire wereld hem meer omarmt dan de reguliere werel hoe vooruitstrevende internationale wetenschappers zijn kennis steeds meer ontdekken zijn stages en ervaringen bij oerstammen in Afrika zijn waardevolste les van een arts in Afrika een nieuwe poli in het ziekenhuis puur voor preventie (gratis tip voor zorgverzekeraars!) hoe zorgverzekeraars een centrale schakel zijn in de omslag naar preventie wat hij met 50 miljard euro zou doen in het verbeteren van de volksgezondheid waarom je als goede wetenschapper altijd moet blijven twijfelen eenzijdigheid als voedingsprobleem in Nederland (en variatie als oplossing de gezondheidsvoordelen van niets eten (intermittent fasting) dat we onze kinderen vroeg in het leven moeten laten kennismaken met gezonde voeding Amsterdamse huizen zonder keuken hoe we de cultuur op scholen en crèches moeten veranderen qua snoep en traktaties het economische model in een ziekenhuis (waaronder de ongezonde voedingskar) het gebrek aan personalised nutrition in moderne ziekenhuizen de revolutie van onderaf die in volle gang is (ook in de geneeskunde) vragen die hij veel van huisartsen krijgt tijdens zijn bijscholingen hoe de toenemende zorgkosten voor een failliet van het huidige gezondheidssysteem kunnen zorgen de uitdaging om te kiezen tussen eigen plezier en duurzaamheid de cultuur in artsengroepen om hard te werken (en weinig te ontspannen) hoe yogaruimtes in ziekenhuizen meer dan welkom zijn dat er steeds meer aandacht is voor laaggradige ontsteking als oorzaak van ziekten, waaronder hart- en vaatziekten Wij zijn graag jouw gids naar een beter leven. Sluit je bij ons aan via ons gratis lidmaatschap, zie https://oersterk.nu/gratis-gezondheid-geluk/ Deze aflevering wordt mede mogelijk gemaakt door OERsterk (www.oersterk.nu) en Vitaily (www.vitaily.nl).
Volto a falar sobre o perigo da margarina como já avisei aqui algumas vezes, algumas pacientes costumam consumir a margarina e ainda confundem ou acham ser igual a manteiga tanto que na consulta ainda me informam ser manteiga mesmo sendo a margarina que estão consumindo. . E o que complica mais ainda a má informação sobre os perigos da margarina é a margarina de marca Becel receber o selo de qualidade da sociedade de cardiologia talvez por outros interesses mesmo os médicos não concordando e sendo contra o consumo da margarina em qualquer ocasião. . #Margarina #DrDiogoSimao #AtletasLowCarb #Manteiga #CafeDaManha #SeloDeQualidade
A edição de maio de 2010 do Bermuda Folgada (versão masculina do "Saia Justa" que era apresentada semanalmente na Rádio Malaveia) apresentou um especial sobre o Dia das Mães. Entre as peças raras em destaque tem jingles de Doriana, Café Seleto, Cobertores Parahyba, Waffer São Luiz (cantado por Toquinho), além das músicas dos comerciais de Natura e das Casas Bahia, veiculados recentemente em homenagem à data. Nossa história começa com o nascimento de trigêmeos no comercial de Becel, passa pelos tradicionais momentos de união da família na hora do café da manhã, segue as fases de crescimento dos filhos até a adolescência e faz uma parada no Trem das Onze, momento em que o jovem já está namorando, porém não esquece de se dedicar à mãe. Emoção, humor e uma série de propagandas históricas estão no trajeto do bate-papo mantido por Marcelo Abud e Daniel Grecco. A conversa não contou com a participação de Edu Malavéia, justamente pelo fato de nosso titular estar neste momento se dedicando a cuidar de sua mãe. Ainda neste programa, contamos também com a participação de Odayr Baptista, que aparece interpretando Trem das Onze, de Adoniran Barbosa, em Francês. --- Send in a voice message: https://anchor.fm/pecasraras/message
Bismillah. Kıymetli Kardeşlerimiz, Her hafta mutat olarak icra edilen, Riyâzu's-Sâlihin seminerimizde bu hafta,"Emr-i Bi'l-Ma'ruf Nehy-i Ani'l-Münker" bahsi ele alınarak, hadis-i şerifler şerh edildi. Şerh edilen hadis-i şeriflerin metinleri şöyle; Bu haftaki seminerlerimizde şerh edilen rivâyetleri indirmek için; http://shnsmn.co/rsrk270319 193. İbni Abbas radıyallahu anhümâ’dan rivayet edildiğine göre; Resûlullah sallallahu aleyhi ve sellem, bir adamın elinde altın bir yüzük gördü, onu çıkardı ve attı. Sonra da şöyle buyurdu: “Sizden biriniz ateşten bir köze yönelip, onu eline mi alıyor?” Hz. Peygamber gittikten sonra o adama: – Yüzüğünü al da ondan uygun bir şekilde faydalan, denildi. Bu kişi ise: – Hayır Allah’a yemin ederim ki, Allah Resûlü onu attıktan sonra onu ebediyyen almayacağım, dedi. 194. Ebû Saîd Hasan el-Basrî’den rivayet edildiğine göre, Âiz İbni Amr radıyallahu anh Ubeydullah İbni Ziyâd’ın yanına girdi ve: – Ey oğlum! Ben, Resûlullah sallallahu aleyhi ve sellem’in “Yöneticilerin en kötüsü, idaresi altındaki insanlara karşı katı ve kaba davrananlardır” buyurduğunu işittim, sakın sen onlardan olma, dedi. Ubeydullah İbni Ziyâd, Âiz’e: – Sen otur! Çünkü sen Muhammed sallallahu aleyhi ve sellem’in ashabının, unun kepeği gibi döküntü takımındansın, dedi. Âiz İbni Amr: – Onlar arasında unun kepeği gibi döküntü takımından olan mı var ki? Unun kepeği gibi döküntü takımından olanlar onlardan sonra ve onlar dışındakilerin arasından çıktı, dedi. 195. Huzeyfe radıyallahu anh’den rivayet edildiğine göre, Nebî sallallahu aleyhi ve sellem şöyle buyurdu: “Canımı gücü ve kudretiyle elinde tutan Allah’a yemin ederim ki, ya iyilikleri emreder ve kötülüklerden nehyedersiniz, ya da Allah kendi katından yakın zamanda üzerinize bir azab gönderir. Sonra Allah’a yalvarıp dua edersiniz ama, duanız kabul edilmez.” 196. Ebû Saîd el-Hudrî radıyallahu anh’den rivayet edildiğine göre, Nebî sallallahu aleyhi ve sellem şöyle buyurdu: “Cihadın en faziletlisi, zâlim sultanın karşısında hakkı ve adaleti söylemektir.” 197. Ebû Abdullah Târık İbni Şihâb el-Becelî el-Ahmesî radıyallahu anh’den rivayet edildiğine göre, Nebî sallallahu aleyhi ve sellem ayağını özengiye koymuş vaziyette iken, bir adam: – Hangi cihad daha faziletlidir, diye sordu? Peygamberimiz: – “Zâlim sultan katında söylenen hak söz” buyurdular. Önceki haftalarda işlenen seminerlerimiz şurada; http://shnsmn.co/RiyazusSalihin Seminer yeri: Uluçınar Vakfı - Pendik. Seminer tarihi: 27 Mart 2019 19:00 İlginiz için teşekkür ederiz. Saygılarımızla, Sahn-ı Semân.
Efter att ha varit verksam i nästan sex år i friluftsbranschen kändes det otroligt konstigt att det tog så pass lång tid innan jag träffade Jerry Engström.Jerry blev rekryterad till tjänsten som global marknadschef till Fjällräven - men efter några år fattade han ett ganska radikalt beslut: att säga upp sig för att förverkliga sin vision om Friluftsbyn vid Höga Kusten.Under min research inför intevjun med Jerry slår det mig plötsligt att han bara är ett år äldre än mig: hur är det möjligt, han har ju hunnit med så otroligt mycket!?Efter avslutade studier på Umeå universitet inleder han sin karriär med ett traineeprogram på Unilever. Efter bara något år driver han stora kampanjer för bland annat Dove, AXE och Becel. See acast.com/privacy for privacy and opt-out information.
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
Barbara Romanowicz Physique de l'intérieur de la terre Année 2018-2019 Les séismes profonds Bibliographie Cours no 3 - Séismes de profondeur intermédiaire et déshydratation de la croûte et de la lithosphère Brudzinski, M. R., C. H. Thurber, B. R. Hacker and E. R. Engdahl (2007) Global Prevalence of Double Benioff Zones, Science, 316, 1472-1474. Faccenda, M. (2014) Water in the slab: a trilogy, Tectonophys. 614, 1-30. Garth, T. and A. Riebrock (2017) Constraining the hydration of the subducting Nazca plate beneath northern Chile using subduction zone guided waves, Earth Planet. Sci. lett, 474, 237-247. Hacker, B., R., S. M. Peacock, G. A. Abers and S. D. Holloway (2003) Subduction factory. 2. Are intermediate-depth earthquakes in subducting slabs linked to metamorphic dehydration reactions? J. Geophys. Res., 108, B1, 2030. Kawakatsu, H. (1985) Double seismic zones in Tonga, Nature, 316, 53-55 Kawakatsu, H. and S. Watada (2008) Seismic Evidence for Deep-Water Transportation in the Mantle, Science, 316, 1468-1471. Kita, S., T. Okada, A. Hasegawa, J. Nakjima, T. Matsuzawa (2010) Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido in northeastern Japan, Tectonoph. 496, 68-92. Kirby, S., E. R. Engdahl, R. Denlinger (1996) Intermediate-Depth Intraslab Earthquakes and Arc Volcanismas physical expression of mantle metamorphism in subducting slabs (Overview), in "SUbduction Top to Bottom", AGU Monograph Series, edited by G. B. Bebout et al., AGU, Washington, D.C. Naif, S., K. Key, S. Constable, and R. L. Evans (2015) Water-rih bending faults at the Middle AMerica Trench, G-Cubed, 16, 2582-2597. Ranero, C. R., J. P. Morgan, K. McINtosh and C. Reichert (2003) Bending-related faulting and mantle serpentinization at the Middle America Trench, Nature 425, 367-373. Peacock, S. M. (2001) Are the lower planes of double seismic zones caused by serpentine dehydration in subducting oceanic mantle? Geology, 29, 299-302. Reynard, B. (2013) Serpentine in active subduction zones, Lithos, 178, 171-185. Rondenay, S., G. A. Abers and P. E. van Keken (2008) Seismic imaging of subduction zone metamorphism, Geology, 36, 275-278. Shillington, D. J., A. Becel., M. R. Nedimovic, H. Kuehn et al. (2015) Link between plate fabric, hydration and subduction zone seismicity in Alaska, Nat. Geosc., 8, 961- 964
On this episode, Kaya shares her recent experience to Kenya, how she went from studying tourism to sustainability to becoming her own business owner. She digs into what our clothing is made of, fast fashion and why hemp isn't for hippies anymore. We jam on minimalism, purging and defining your own style. We share our favourite childhood outfits, why you don't put Becel in bulletproof coffee and getting sucked into the vortex of reality TV.
Claybom! Doriana! Becel! Delícia! AHHHHHHHHHHHHHHH! No episódio desta semana nos reunimos para falar do vencedor do Chorume Baronesa Mone! O megalovaxpequeno Fuk Fuk à Brasileira! Lançado pelo Jean Garrett em 1986 e estrelado pelo Anão Chumbinho. E além de nossa resenha habitual você ouvirá sobre a Boca do Lixo e astros marginais que sumiram sem vestígios. Então aumentem seus iPods porque mais um Podtrash está no ar! Duração: 78'02'' Média TD1P: 4,6 ELENCO Almighty, o Estagiário de Chinelos! Bruno "Gunfree" Gunter Demétrius "Anjo Negro" Santos Douglas Fricke, o Exumador Shin Koheo, o Maratonista nu! ARTE DO BANNER Marcelo Damm EXTRAS DESTE PODTRASH IMDb do filme Filme completo no Xvideos (NSFW)! Escute no Spotify! FEEDS E LINKS DO PODTRASH Podtrash na iTunes Store Feed completo do Podtrash Feed sem os Lado B Feed do Lado B Canal do Podtrash no Youtuner Participe do Grupo “Esse Merece um Podtrash” lá no Facebook! Conheça a Loja de Camisetas As Baratas! CONTATOS DO PODTRASH podtrash@td1p.com @podtrash Facebook do Podtrash Caixa Postal 34012 – Rio de Janeiro, RJ - CEP 22460-970 CAPA DESTE PODTRASH
The Packaged Foods Exposed series takes a look at the largest food manufacturers in the world. What products fall under their banners; how has their influence shaped economic policy, society and culture; how have they affected the environments they operate in; and what relationships do they foster within the countries they are located? This series places corporations in a critical light, hoping to provide a more balanced image to the advertising and PR campaigns launched by some of the most influential food corporations on the planet. In this fourth episode of the Packaged Foods Exposed series, we take a look at one of the largest consumer products companies in the world - Unilever. With such a significant influence on agriculture, food and health here in Canada and around the world, this focus on the company will be spread out over a two-part series. Part I On Part I of the Unilever series, we explore one product that the company maintains considerable control over in Canada - margarine, in particular their Becel, Imperial, Blue Bonnet and I Can't Believe it's not Butter brands. Margarine may very well, by the end of the year, spark the first ever interprovincial retaliatory trade war since the Agreement on Internal Trade was first signed by the provinces in 1994. How could a tub of margarine be so powerful you may ask? The province of Quebec is the last place in the world that maintains a margarine colouration ban, that is a ban that prohibits margarine to be coloured yellow like butter. Such a ban infuriates a company like Unilever who now must produce two different products, one for Quebec and one for the rest of Canada. But margarine isn't new to conflict in Canada and the United States. In fact the history of margarine is probably one of the most fascinating windows into the evolution of our food system over the past 100 years... "The evolution of this problem is closely related to historical shifts from agriculture to industrial order" - Richard Ball / Robert Lilly "[Margarine is] another sign of the artificiality of modern life." - Mark Twain With such significant statements, margarine does indeed seem like a product worth deconstructing given how accepted margarine has become as part of the Canadian diet. Also on the broadcast will be an update on our complaint filed with Advertising Standards Canada following the April 12, 2007 broadcast on Kraft Foods. Guests Sean McPhee - President, Vegetable Oil Industry of Canada (VOIC) (Toronto, ON) - An industry group representing 75,000 oilseed growers across Canada, oilseed processors and suppliers of fats and oils to the food industry, and makers of oilseed-based food products, such as margarine, cooking oil, salad dressing, mayonnaise and dessert toppings. Members include the Canadian Canola Growers Association, the Canadian Oilseed Processors Association, Archer Daniel Midland Agri-Industries Ltd., Bunge Canada, Canbra Foods, Cargill Limited, AarhusKarlshamn US and Canada, Loders Croklaan, Unilever Canada and Rich Products Corporation. Therese Beaulieu - Assistant Director, Communication and Policy, Dairy Farmers of Canada (Ottawa, ON) - A national policy, lobbying and promotional organization representing Canada’s 16,000 dairy farms. DFC strives to create favourable conditions for the Canadian dairy industry, today and in the future. It works to maintain policies that foster the viability of Canadian dairy producers and promote dairy products and their health benefits. Audio Clips "Housewives Save With Margarine" - CBC News Roundup (1948) - Broadcast on December 14, 1948 shortly following the legalization of margarine in Canada. Host: Bill Reid. Reporters: Warren Baldwin, Dave Price. Interviewer: Bill Beatty. Guest: Erle Kitchen.