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110 related items for PubMed ID: 19948543

  • 1. The spatial and temporal patterning of the deep crust and implications for the process of melt extraction.
    Brown M.
    Philos Trans A Math Phys Eng Sci; 2010 Jan 13; 368(1910):11-51. PubMed ID: 19948543
    [Abstract] [Full Text] [Related]

  • 2. The mechanics of granitoid systems and maximum entropy production rates.
    Hobbs BE, Ord A.
    Philos Trans A Math Phys Eng Sci; 2010 Jan 13; 368(1910):53-93. PubMed ID: 19948544
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  • 3. The process of formation of ocean crust.
    Lewis BT.
    Science; 1983 Apr 08; 220(4593):151-7. PubMed ID: 17795800
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  • 4. Underplating and partial melting: implications for melt generation and extraction.
    Bergantz GW.
    Science; 1989 Sep 08; 245(4922):1093-5. PubMed ID: 17838809
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  • 5. The earthquake cycle in the dry lower continental crust: insights from two deeply exhumed terranes (Musgrave Ranges, Australia and Lofoten, Norway).
    Menegon L, Campbell L, Mancktelow N, Camacho A, Wex S, Papa S, Toffol G, Pennacchioni G.
    Philos Trans A Math Phys Eng Sci; 2021 Mar 22; 379(2193):20190416. PubMed ID: 33517876
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  • 7. Seismic reflection images of the Moho underlying melt sills at the East Pacific Rise.
    Singh SC, Harding AJ, Kent GM, Sinha MC, Combier V, Bazin S, Tong CH, Pye JW, Barton PJ, Hobbs RW, White RS, Orcutt JA.
    Nature; 2006 Jul 20; 442(7100):287-90. PubMed ID: 16855587
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  • 10. Near-isothermal conditions in the middle and lower crust induced by melt migration.
    Depine GV, Andronicos CL, Phipps-Morgan J.
    Nature; 2008 Mar 06; 452(7183):80-3. PubMed ID: 18322532
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  • 11. Primary carbonatite melt from deeply subducted oceanic crust.
    Walter MJ, Bulanova GP, Armstrong LS, Keshav S, Blundy JD, Gudfinnsson G, Lord OT, Lennie AR, Clark SM, Smith CB, Gobbo L.
    Nature; 2008 Jul 31; 454(7204):622-5. PubMed ID: 18668105
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  • 12. The role of fluids in lower-crustal earthquakes near continental rifts.
    Reyners M, Eberhart-Phillips D, Stuart G.
    Nature; 2007 Apr 26; 446(7139):1075-8. PubMed ID: 17460671
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  • 13. Faulting induced by precipitation of water at grain boundaries in hot subducting oceanic crust.
    Zhang J, Green HW, Bozhilov K, Jin Z.
    Nature; 2004 Apr 08; 428(6983):633-6. PubMed ID: 15071590
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  • 17. The effect of energy feedbacks on continental strength.
    Regenauer-Lieb K, Weinberg RF, Rosenbaum G.
    Nature; 2006 Jul 06; 442(7098):67-70. PubMed ID: 16823450
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  • 18. Evidence from three-dimensional seismic reflectivity images for enhanced melt supply beneath mid-ocean-ridge discontinuities.
    Kent GM, Singh SC, Harding AJ, Sinha MC, Orcutt JA, Barton PJ, White RS, Bazin S, Hobbs RW, Tong CH, Pye JW.
    Nature; 2000 Aug 10; 406(6796):614-8. PubMed ID: 10949299
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  • 19. Melting conditions in the modern Tibetan crust since the Miocene.
    Chen J, Gaillard F, Villaros A, Yang X, Laumonier M, Jolivet L, Unsworth M, Hashim L, Scaillet B, Richard G.
    Nat Commun; 2018 Aug 29; 9(1):3515. PubMed ID: 30158586
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  • 20. Survival times of anomalous melt inclusions from element diffusion in olivine and chromite.
    Spandler C, O'Neill HS, Kamenetsky VS.
    Nature; 2007 May 17; 447(7142):303-6. PubMed ID: 17507980
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