Skip to Main Content

Formation and Exhumation of Ultrahigh-Pressure Terranes

Elements (2013) 9 (4): 289-293.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
Element Transfer and Redox Conditions in Continental Subduction Zones: New Insights from Peridotites of the Ulten Zone, North Italy
Journal of Petrology (2019) 60 (2): 231.
Absolute timing of Caledonian orogenic wedge assembly, Central Sweden, constrained by Rb–Sr multi-mineral isochron data
Lithos (2019) 344-345: 339.
Phase relations in metabasic rocks: constraints from the results of experiments, phase modelling and ACF analysis
Geological Society, London, Special Publications (2019) 474 (1): 25.
Is exhumation of UHP terranes limited to low latitudes?
Journal of Geodynamics (2019) 130: 41.
Metamorphism and the evolution of subduction on Earth
American Mineralogist (2019) 104 (8): 1065.
Elemental and isotopic (Nd-Sr-O) geochemistry of eclogites from the Zamtyn-Nuruu area (SW Mongolia): Crustal contribution and relation to Neoproterozoic subduction-accretion events
Journal of Asian Earth Sciences (2018) 167: 33.
Sapphirine as a Breakdown Product of Garnet in a Variscan UHP/HT Peridotite from the Vosges Mountains (France) – An Indication of Near-Isothermal Decompression
Journal of Petrology (2018) 59 (11): 2221.
Crystallographic preferred orientations in eclogites – A review
Journal of Structural Geology (2018) 115: 284.
Calibration of a multi-anvil high-pressure apparatus to simulate planetary interior conditions
EPJ Techniques and Instrumentation (2018) 5 (1)
Arc-like magmas generated by mélange-peridotite interaction in the mantle wedge
Nature Communications (2018) 9 (1)
The Franciscan Complex (California, USA) – The model case for return-flow in a subduction channel put to the test
Gondwana Research (2017) 45: 282.
Metamorphic P – T – t – d evolution of (U)HP metabasites from the South Tianshan accretionary complex (NW China) — Implications for rock deformation during exhumation in a subduction channel
Gondwana Research (2017) 47: 161.
3D geometry and kinematic evolution of the Wadi Mayh sheath fold, Oman, using detailed mapping from high-resolution photography
Journal of Structural Geology (2017) 101: 26.
Dynamics of Saxothuringian subduction channel/wedge constrained by phase-equilibria modelling and micro-fabric analysis
Journal of Metamorphic Geology (2017) 35 (3): 253.
Subduction undone
Nature (2017) 543 (7643): 44.
Diapir versus along-channel ascent of crustal material during plate convergence: Constrained by the thermal structure of subduction zones
Journal of Asian Earth Sciences (2017) 145: 16.
Late Carboniferous high-pressure metamorphism of the Kassan Metamorphic Complex (Kyrgyz Tianshan) and assembly of the SW Central Asian Orogenic Belt
Lithos (2016) 264: 41.
RESEARCH FOCUS: Understanding continental subduction: A work in progress
Geology (2016) 44 (3): 239.
High-pressure Tethyan Himalaya rocks along the India-Asia suture zone in southern Tibet
Lithosphere (2016) 8 (5): 574.
Coupled extrusion of sub-arc lithospheric mantle and lower crust during orogen collapse: a case study from Fiordland, New Zealand
Journal of Metamorphic Geology (2016) 34 (5): 501.
Tectonic significance of serpentinites
Tectonophysics (2015) 646: 1.
Diamond in metasedimentary crustal rocks from Pohorje, Eastern Alps: a window to deep continental subduction
Journal of Metamorphic Geology (2015) 33 (5): 495.
Oceanic- and continental-type metamorphic terranes: Occurrence and exhumation mechanisms
Earth-Science Reviews (2014) 139: 33.
Subduction and exhumation mechanisms of ultra-high and high-pressure oceanic and continental crust at Makbal (Tianshan, Kazakhstan and Kyrgyzstan)
Journal of Metamorphic Geology (2014) 32 (8): 861.
Ediacaran 2,500-km-long synchronous deep continental subduction in the West Gondwana Orogen
Nature Communications (2014) 5 (1)
Microdiamond discovered in the Seve Nappe (Scandinavian Caledonides) and its exhumation by the “vacuum-cleaner” mechanism
Geology (2014) 42 (12): 1107.
Recycling of crustal materials through study of ultrahigh-pressure minerals in collisional orogens, ophiolites, and mantle xenoliths: A review
Journal of Asian Earth Sciences (2014) 96: 386.
Close Modal
This Feature Is Available To Subscribers Only

Sign In or Create an Account

Close Modal
Close Modal