scholarly article | Q13442814 |
P819 | ADS bibcode | 2010JGRB..115.5402S |
P356 | DOI | 10.1029/2009JB006612 |
P50 | author | Sonja Spasojevic | Q117269518 |
Rupert Sutherland | Q57840710 | ||
Michael Gurnis | Q59669412 | ||
P2860 | cites work | Mantle plumes and Antarctica-New Zealand rifting: evidence from mid-Cretaceous mafic dykes | Q64447177 |
Basement geology and tectonic development of the greater New Zealand region: an interpretation from regional magnetic data | Q91994020 | ||
The Break-up of a Long-term Relationship: the Cretaceous Separation of New Zealand from Gondwana | Q91994021 | ||
The Australia-Pacific boundary and Cenozoic plate motions in the SW Pacific: Some constraints from Geosat data | Q91994029 | ||
Hikurangi Plateau: Crustal structure, rifted formation, and Gondwana subduction history | Q92079154 | ||
Seismic evidence for deep low-velocity anomalies in the transition zone beneath West Antarctica | Q97308141 | ||
Tectonic evolution of the Pacific margin of Antarctica 1. Late Cretaceous tectonic reconstructions | Q97308162 | ||
Crustal and upper mantle structure beneath Antarctica and surrounding oceans | Q97308167 | ||
Cenozoic magmatism in the western Ross Embayment: Role of mantle plume versus plate dynamics in the development of the West Antarctic Rift System | Q97308168 | ||
West Antarctica: Problem child of Gondwanaland | Q97308250 | ||
Cretaceous geotectonic patterns in the New Zealand Region | Q97308252 | ||
Marie Byrd Land, West Antarctica: Evolution of Gondwana's Pacific margin constrained by zircon U-Pb geochronology and feldspar common-Pb isotopic compositions | Q97308268 | ||
Dynamically supported geoid highs over hotspots: Observation and theory | Q97999095 | ||
Cenozoic bending of New Zealand basement terranes and Alpine Fault displacement: A brief review | Q104783282 | ||
Models of large-scale viscous flow in the Earth's mantle with constraints from mineral physics and surface observations | Q107270858 | ||
Determination and analysis of long-wavelength transition zone structure using SS precursors | Q107270863 | ||
In situ X-ray observation of decomposition of superhydrous phase B at high pressure and temperature | Q107271084 | ||
Deep-mantle high-viscosity flow and thermochemical structure inferred from seismic and geodynamic data | Q30650754 | ||
Mantle shear-wave tomography and the fate of subducted slabs | Q42038195 | ||
Cretaceous vertical motion of australia and the australian- antarctic discordance | Q43526292 | ||
The role of mantle plumes in continental breakup: case histories from Gondwanaland | Q54111638 | ||
Geophysics of the Pitman Fracture Zone and Pacific-Antarctic Plate Motions During the Cenozoic | Q54305919 | ||
Three distinct types of hotspots in the Earth’s mantle | Q55881495 | ||
Role of strike-slip faulting in the tectonic evolution of the Antarctic Peninsula | Q56563919 | ||
Late Cretaceous to early Tertiary subduction history of the Antarctic Peninsula | Q56564045 | ||
Phase transition Clapeyron slopes and transition zone seismic discontinuity topography | Q56680247 | ||
Lower mantle heterogeneity, dynamic topography and the geoid | Q56772297 | ||
WATER, MELTING, AND THE DEEP EARTH H2O CYCLE | Q57857313 | ||
Geochronology and geochemistry of a Mesozoic magmatic arc system, Fiordland, New Zealand | Q57874438 | ||
The South Patagonian batholith: 150 my of granite magmatism on a plate margin | Q57890196 | ||
Mantle upwelling after Gondwana subduction death explains anomalous topography and subsidence histories of eastern New Zealand and West Antarctica | Q58079451 | ||
Revised history of early Tertiary plate motion in the south-west Pacific | Q58967792 | ||
The tectonic history of the Tasman Sea: A puzzle with 13 pieces | Q59705650 | ||
Role of temperature-dependent viscosity and surface plates in spherical shell models of mantle convection | Q59712977 | ||
A Cenozoic diffuse alkaline magmatic province (DAMP) in the southwest Pacific without rift or plume origin | Q59849803 | ||
Global mapping of topography on transition zone velocity discontinuities by stackingSSprecursors | Q59857989 | ||
Plate reconstructions and tomography reveal a fossil lower mantle slab below the Tasman Sea | Q60010999 | ||
Geophysical studies of the West Antarctic Rift System | Q60015467 | ||
Overview of the Median Batholith, New Zealand: a new interpretation of the geology of the Median Tectonic Zone and adjacent rocks | Q60243500 | ||
Basement geology from Three Kings Ridge to West Norfolk Ridge, southwest Pacific Ocean: evidence from petrology, geochemistry and isotopic dating of dredge samples | Q60243502 | ||
Continuous GPS measurements of postglacial adjustment in Fennoscandia: 2. Modeling results | Q60710993 | ||
An inversion for radial viscosity structure using seismic tomography | Q60714427 | ||
Water transport into the deep mantle and formation of a hydrous transition zone | Q60722490 | ||
Antarctica-New Zealand rifting and Marie Byrd Land lithospheric magmatism linked to ridge subduction and mantle plume activity | Q61662541 | ||
Reconstructing Farallon Plate Subduction Beneath North America Back to the Late Cretaceous | Q62072824 | ||
Mantle tomography and its relation to temperature and composition | Q63946614 | ||
P433 | issue | B5 | |
P577 | publication date | 2010-05-14 | |
P1433 | published in | Journal of Geophysical Research | Q2738009 |
P1476 | title | Inferring mantle properties with an evolving dynamic model of the Antarctica-New Zealand region from the Late Cretaceous | |
P478 | volume | 115 |
Q97308052 | Continent size revisited: Geophysical evidence for West Antarctica as a back-arc system |
Q56772866 | Mantle upwellings above slab graveyards linked to the global geoid lows |
Q64191232 | The links between large igneous provinces, continental break-up and environmental change: evidence reviewed from Antarctica |
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