| scholarly article | Q13442814 |
| P819 | ADS bibcode | 1995Natur.374..154V |
| P6179 | Dimensions Publication ID | 1017623419 |
| P356 | DOI | 10.1038/374154A0 |
| P2888 | exact match | https://scigraph.springernature.com/pub.10.1038/374154a0 |
| P2093 | author name string | Ron van der Hilst | |
| P2860 | cites work | Ridges and basins of the Tonga-Kermadec Island Arc System | Q29400052 |
| Seismology and the new global tectonics | Q54110291 | ||
| Relations among subduction parameters | Q54170943 | ||
| Mantle circulation and the lateral migration of subducted slabs | Q56136650 | ||
| The Nature of Deep-Focus Earthquakes | Q56136853 | ||
| The southwest pacific area during the last 90 million years | Q57026042 | ||
| Diffuse back-arc deformation in the southwestern Pacific | Q58981752 | ||
| Nature of the 650–km seismic discontinuity: implications for mantle dynamics and differentiation | Q59055536 | ||
| Controls of the structure of subducted slabs | Q59069584 | ||
| Tomographic imaging of subducted lithosphere below northwest Pacific island arcs | Q59098742 | ||
| An experimental study of subduction and slab migration | Q59409470 | ||
| Role of ridge jumps and ridge propagation in the tectonic evolution of the Lau back-arc basin, southwest Pacific | Q60923405 | ||
| Crustal Extension between the Tonga and Lau Ridges: Petrologic and Geophysical Evidence | Q96108903 | ||
| A rift-drift-delamination model of continental evolution: Palaeozoic tectonic development of eastern Australia | Q97997208 | ||
| Traveltimes for global earthquake location and phase identification | Q98140037 | ||
| S-Pconversion from the transition zone beneath Tonga and the nature of the 670 km discontinuity | Q107112369 | ||
| P433 | issue | 6518 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | lithosphere | Q83296 |
| P304 | page(s) | 154-157 | |
| P577 | publication date | 1995-03-01 | |
| P1433 | published in | Nature | Q180445 |
| P1476 | title | Complex morphology of subducted lithosphere in the mantle beneath the Tonga trench | |
| P478 | volume | 374 |
| Q92081289 | A Comparison between tomographic and geodynamic models of the Earth's mantle |
| Q96473594 | A mantle flow mechanism for the late Paleozoic subsidence of the Paraná Basin |
| Q56136779 | A new global model for P wave speed variations in Earth's mantle |
| Q92081283 | Absolute plate motion, mantle flow, and volcanism at the boundary between the Pacific and Indian Ocean mantle domains since 90 Ma |
| Q59846540 | Anisotropy and Flow in Pacific Subduction Zone Back-arcs |
| Q97448162 | Cenozoic geological and plate tectonic evolution of SE Asia and the SW Pacific: computer-based reconstructions, model and animations |
| Q92081291 | Constraints on Mantle Convection From Seismic Tomography |
| Q107271109 | Detailed structure and sharpness of upper mantle discontinuities in the Tonga subduction zone from regional broadband arrays |
| Q107275360 | Effect of the mid-mantle viscosity and phase-transition structure on 3D mantle convection |
| Q63947358 | Equation of state of Al-bearing perovskite to lower mantle pressure conditions |
| Q59064598 | Evidence for deep mantle circulation from global tomography |
| Q77640240 | Flow and fabric deep down |
| Q59810071 | Geochemical evolution of Monowai volcanic center: New insights into the northern Kermadec arc subduction system, SW Pacific |
| Q107269619 | Geodynamic models of deep subduction |
| Q59857989 | Global mapping of topography on transition zone velocity discontinuities by stackingSSprecursors |
| Q57950423 | Hugoniot equation of state and high-pressure transformation of jadeite |
| Q56638488 | Imaging Cold Rock at the Base of the Mantle: The Sometimes Fate of Slabs? |
| Q107269620 | Implications of slab mineralogy for subduction dynamics |
| Q63975967 | Inferences of Mantle Viscosity Based on Ice Age Data Sets: The Bias in Radial Viscosity Profiles Due to the Neglect of Laterally Heterogeneous Viscosity Structure |
| Q57880998 | Influence of Variable Thermal Expansivity and Conductivity on Deep Subduction |
| Q107297130 | Influence of chemical buoyancy on the dynamics of slabs in the transition zone |
| Q60081817 | Large-scale structure at the core–mantle boundary from diffracted waves |
| Q45338408 | Louisville seamount subduction and its implication on mantle flow beneath the central Tonga-Kermadec arc. |
| Q57580163 | Mantle dynamics, element recycling, and magma genesis beneath the Kermadec Arc-Havre Trough |
| Q107275366 | Mantle plumes and their effect on the Earth's surface: a review and synthesis |
| Q104200334 | Mapping global D″ P velocities from ISC PcP-P differential travel times |
| Q60722502 | Mechanisms and kinetics of the post-spinel transformation in Mg2SiO4 |
| Q52861995 | Mid-mantle deformation inferred from seismic anisotropy. |
| Q92081286 | Models of mantle convection incorporating plate tectonics: The Australian region since the Cretaceous |
| Q56806212 | On the mechanism of seismic decoupling and back arc spreading at subduction zones |
| Q57124783 | Remote triggering of deep earthquakes in the 2002 Tonga sequences |
| Q60012440 | Seismic tomography with P and S data reveals lateral variations in the rigidity of deep slabs |
| Q57761314 | Seismological structure of subduction zones and its implications for arc magmatism and dynamics |
| Q63930525 | Single-crystal elasticity of ringwoodite to high pressures and high temperatures: implications for 520 km seismic discontinuity |
| Q60073630 | Slab burial grounds |
| Q55879438 | Slab pull effects from a flexural analysis of the Tonga and Kermadec trenches (Pacific Plate) |
| Q57824667 | Southwest Pacific Absolute Plate Kinematic Reconstruction Reveals Major Cenozoic Tonga-Kermadec Slab Dragging |
| Q56136683 | Subducted slabs beneath the eastern Indonesia–Tonga region: insights from tomography |
| Q29028190 | Subducted slabs stagnant above, penetrating through, and trapped below the 660 km discontinuity |
| Q97446986 | The Dynamic History of 220 Million Years of Subduction Below Mexico: A Correlation Between Slab Geometry and Overriding Plate Deformation Based on Geology, Paleomagnetism, and Seismic Tomography |
| Q59737993 | The growth of continental crust |
| Q107275323 | The influence of olivine metastability on deep subduction of oceanic lithosphere |
| Q57853666 | The pressure-induced ringwoodite to Mg-perovskite and periclase post-spinel phase transition: a Bader’s topological analysis of the ab initio electron densities |
| Q103845671 | The survival of mantle geochemical heterogeneities |
| Q57890550 | The three-dimensional shear velocity structure of the mantle from the inversion of body, surface and higher-mode waveforms |
| Q59857997 | Topography on the 410-km seismic velocity discontinuity near subduction zones from stacking ofsS,sP, andpPprecursors |
| Q63946275 | Toward quantifying uncertainty in travel time tomography using the null-space shuttle |
Search more.