Skip to Main Content
Skip Nav Destination

Detachment faulting, mantle serpentinization, and serpentinite- mud volcanism beneath the Porcupine Basin, southwest of Ireland

Geology (2001) 29 (7): 587–590.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
Magma-poor continent–ocean transition zones of the southern North Atlantic: a wide-angle seismic synthesis of a new frontier
Solid Earth (2024) 15 (6): 683.
Tithonian mafic intrusions in north-central Newfoundland: link to Atlantic rifting?
Canadian Journal of Earth Sciences (2024) 61 (1): 102.
Towards a process-based understanding of rifted continental margins
Nature Reviews Earth & Environment (2023) 4 (3): 166.
Seismically Imaged Crustal Breakup in the Southwest Taiwan Basin of the Northeastern South China Sea Margin
Geochemistry, Geophysics, Geosystems (2023) 24 (8)
Punctuated propagation of a corrugated extensional detachment offshore Ireland
Basin Research (2023) 35 (3): 1037.
New insights on the origin of Barra volcanic ridge system, offshore Ireland: A long-distance influence of the Iceland mantle plume
Marine and Petroleum Geology (2023) 152: 106237.
Mapping Ireland's coastal, shelf and deep-water environments using illustrative case studies to highlight the impact of seabed mapping on the generation of blue knowledge
Geological Society, London, Special Publications (2022) 505 (1): 71.
Crustal and uppermost mantle structure of the Porcupine Basin west of Ireland from seismic and gravity methods
Marine and Petroleum Geology (2022) 140: 105652.
From rifting to hyperextension: Upper Jurassic–Lower Cretaceous tectono‐stratigraphy of the Porcupine Basin, Irish Atlantic Margin
Basin Research (2021) 33 (2): 1662.
Crack geometry of serpentinized peridotites inferred from onboard ultrasonic data from the Oman Drilling Project
Tectonophysics (2021) 814: 228978.
Distribution and intensity of High-Temperature Low-Pressure metamorphism across the Pyrenean-Cantabrian belt: constraints on the thermal record of the pre-orogenic hyperextension rifting
BSGF - Earth Sciences Bulletin (2021) 192: 43.
Multiphase deformation history of the Porcupine Basin, offshore west Ireland
Basin Research (2021) 33 (3): 1776.
Impact of crust–mantle mechanical coupling on the topographic and thermal evolutions during the necking phase of ‘magma-poor’ and ‘sediment-starved’ rift systems: A numerical modeling study
Tectonophysics (2020) 786: 228472.
The Iceland Microcontinent and a continental Greenland-Iceland-Faroe Ridge
Earth-Science Reviews (2020) 206: 102926.
Implications of Microbial Thiosulfate Utilization in Red Clay Sediments of the Central Indian Basin: The Martian Analogy
Geochemistry, Geophysics, Geosystems (2019) 20 (2): 708.
Deformable plate tectonic models of the southern North Atlantic
Journal of Geodynamics (2019) 128: 11.
The Identity of Petrophysical Properties of Oceanic Serpentinites and Continental Granitoids: Implications for the Recognition of Buried Hydrocarbon-bearing Serpentinite Geobodies
Geotectonics (2019) 53 (2): 239.
Determining continuous basins across conjugate margins: The East Orphan, Porcupine, and Galicia Interior basins of the southern North Atlantic Ocean
Marine and Petroleum Geology (2019) 110: 138.
Origin of Serpentinization Patterns Beneath the S‐Reflector Detachment Fault in the Galicia Margin, Offshore Spain
Geochemistry, Geophysics, Geosystems (2019) 20 (8): 3971.
Deep structure of the Porcupine Basin from wide-angle seismic data
Geological Society, London, Petroleum Geology Conference Series (2018) 8 (1): 199.
From Continental Hyperextension to Seafloor Spreading: New Insights on the Porcupine Basin From Wide‐Angle Seismic Data
Journal of Geophysical Research: Solid Earth (2018) 123 (10): 8312.
Geological and geophysical evidence for a mafic igneous origin of the Porcupine Arch, offshore Ireland
Journal of the Geological Society (2018) 175 (2): 210.
From orogenic collapse to rifting: A case study of the northern Porcupine Basin, offshore Ireland
Journal of Structural Geology (2018) 114: 139.
Crustal‐Scale Fault Interaction at Rifted Margins and the Formation of Domain‐Bounding Breakaway Complexes: Insights From Offshore Norway
Tectonics (2018) 37 (3): 935.
Chapter 4 Cenozoic rifting, passive margin development and strike-slip faulting in the Andaman Sea: a discussion of established v. new tectonic models
Geological Society, London, Memoirs (2017) 47 (1): 27.
Seismic interpretation and hydrocarbon accumulations implication of the Miocene Meishan Formation reefs in southern Qiongdongnan Basin, northern South China Sea
Journal of Palaeogeography (2017) 6 (3): 206.
Alternating crustal architecture in West Iberia: a review of its significance in the context of NE Atlantic rifting
Journal of the Geological Society (2017) 174 (3): 522.
Unravelling the along-strike variability of the Angola–Gabon rifted margin: a mapping approach
Geological Society, London, Special Publications (2017) 438 (1): 49.
Chromite, platinum group elements and nickel mineralisation in relation to the tectonic evolution of the Dun Mountain Ophiolite Belt, east Nelson, New Zealand
New Zealand Journal of Geology and Geophysics (2017) 60 (3): 255.
Crustal strain-dependent serpentinisation in the Porcupine Basin, offshore Ireland
Earth and Planetary Science Letters (2017) 474: 148.
The Canada Basin compared to the southwest South China Sea: Two marginal ocean basins with hyper-extended continent-ocean transitions
Tectonophysics (2016) 691: 171.
Architecture of the distal and outer domains of the Mid-Norwegian rifted margin: Insights from the Rån-Gjallar ridges system
Marine and Petroleum Geology (2016) 77: 280.
Serpentinization and Deserpentinization Reactions in the Upper Mantle beneath Fuerteventura Revealed by Peridotite Xenoliths with Fibrous Orthopyroxene and Mottled Olivine
Journal of Petrology (2015) 56 (1): 3.
Dynamics of intraoceanic subduction initiation: 2. Suprasubduction zone ophiolite formation and metamorphic sole exhumation in context of absolute plate motions
Geochemistry, Geophysics, Geosystems (2015) 16 (6): 1771.
Future accreted terranes: a compilation of island arcs, oceanic plateaus, submarine ridges, seamounts, and continental fragments
Solid Earth (2014) 5 (2): 1243.
Crustal thinning in the northern Tyrrhenian Rift: Insights from multichannel and wide‐angle seismic data across the basin
Journal of Geophysical Research: Solid Earth (2014) 119 (3): 1655.
The geodynamic province of transitional lithosphere adjacent to magma-poor continental margins
Geological Society, London, Special Publications (2013) 369 (1): 429.
A tectonic model for hyperextension at magma-poor rifted margins: an example from the West Iberia–Newfoundland conjugate margins
Geological Society, London, Special Publications (2013) 369 (1): 403.
Structural comparison of archetypal Atlantic rifted margins: A review of observations and concepts
Marine and Petroleum Geology (2013) 43: 21.
Cu–(Ni–Co–Au)-bearing massive sulfide deposits associated with mafic–ultramafic rocks of the Main Urals Fault, South Urals: Geological structures, ore textural and mineralogical features, comparison with modern analogs
Ore Geology Reviews (2013) 52: 18.
Comparison of lithosphere structure across the Orphan Basin–Flemish Cap and Irish Atlantic conjugate continental margins from constrained 3D gravity inversions
Journal of the Geological Society (2012) 169 (4): 405.
A new hypothesis for the deep subsurface structures near the Bhuj 2001 earthquake (Mw 7.6) hypocentre zone and its tectonic implications
Geophysical Journal International (2012) 190 (2): 761.
Hyperextension, serpentinization, and weakening: A new paradigm for rifted margin compressional deformation
Geology (2011) 39 (4): 347.
Successive detachment faults and mantle unroofing at magma-poor rifted margins
Geology (2011) 39 (11): 1071.
Lithospheric density variations and Moho structure of the Irish Atlantic continental margin from constrained 3-D gravity inversion
Geophysical Journal International (2010) 183 (1): 79.
Three-dimensional gravity and magnetic modelling of the Irish sector of the NE Atlantic margin
Tectonophysics (2010) 486 (1-4): 36.
The structure, evolution and symmetry of the magma-poor rifted margins of the North and Central Atlantic: A synthesis
Tectonophysics (2009) 468 (1-4): 6.
Structure and composition of the ocean–continent transition at an obliquely divergent transform margin, Gulf of Guinea, West Africa
Petroleum Geoscience (2009) 15 (4): 305.
The evolution of the Porcupine and Rockall basins, offshore Ireland: the geological template for carbonate mound development
International Journal of Earth Sciences (2007) 96 (1): 21.
Observations from the Alpine Tethys and Iberia–Newfoundland margins pertinent to the interpretation of continental breakup
Geological Society, London, Special Publications (2007) 282 (1): 291.
Close Modal

or Create an Account

Close Modal
Close Modal