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(2024). Plate bending earthquakes and the strength + distribution of the lithosphere [Data set]. AuScope, National Computational Infrastructure. + https://doi.org/t13d-0r63 +software: + name: ASPECT v2.4.0 + doi: https://doi.org/10.5281/zenodo.6903424 + url_source: https://github.com/geodynamics/aspect +licence: + licence_url: https://creativecommons.org/licenses/by/4.0/legalcode + licence_image: ../../../img/licence/by.png + description: Creative Commons Attribution 4.0 International + licence_file: license.txt +submitter: + name: Dan + family_name: Sandiford + ORCID: https://orcid.org/0000-0002-2207-6837 +creators: + - name: Dan + family_name: Sandiford + ORCID: 0000-0002-2207-6837 + - name: Timothy J + family_name: Craig + ORCID: 0000-0003-2198-9172 +associated_publication: + title: The Role of Lithospheric‐Deep Mantle Interactions on the Style and Stress Evolution of Arc‐Continent Collision + doi: 10.1029/2022gc010386 + url: http://dx.doi.org/10.1029/2022gc010386 + journal: Geochemistry, Geophysics, Geosystems + publisher: American Geophysical Union (AGU) +compute_info: + name: Gadi Supercomputer + organisation: National Computational Infrastructure + url: https://pid.nci.org.au/doi/f5966_0057_9267_4579 + doi: https://doi.org/10.25914/608bfd1838db2 +research_tags: + - Dynamics of lithosphere + - Lithospheric flexure + - Subduction + - Earthquakes +compute_tags: + - C++ + - finite-element + - adaptive-mesh-refinement + - particles +funder: + - name: Australian Research Council + doi: https://ror.org/05mmh0f86 + - name: Royal Society + doi: https://ror.org/03wnrjx87 + - name: Natural Environment Research Council + doi: https://ror.org/02b5d8509 +funding: + - name: Australian Research Council + doi: https://ror.org/05mmh0f86 + number_id: DP150102887 + - name: Royal Society + doi: https://ror.org/03wnrjx87 + number_id: URF\R1\180088 +abstract: 'This study investigates the dynamics and constitutive behaviour of the + oceanic lithosphere as it bends and yields during subduction. Two main observational + constraints are considered: the maximum bending moment that can be supported by + the lithosphere, and the inferred neutral plane depth in bending. We particularly + focus on regions of old lithosphere where the ‘apparent’ neutral plane depth is + about 30 km. We use subduction modelling approaches to investigate these flexural + characteristics. We reassess bending moment estimates from a range of previous studies, + and show a significant convergence towards what we call the ‘intermediate’ range + of lithosphere strength: weaker than some classical models predict, but stronger + than recent inferences at seamounts. We consider the non-uniqueness that arises + due to the trade-offs in strength as well background (tectonic) stress state. We + outline this problem with several end-member models, which differ in regard to relative + strength in the brittle and ductile regimes. We evaluate the consistency of these + models in terms of a range of constraints, primarily the seismic expression of the + outer rise. We show that a 30 km neutral plane depth implies that net slab pull + is not greater than about 2 TN m−1. In contrast, models with low brittle strength + imply that regions with a 30 km neutral plane depth are under moderate net axial + compression. Under these conditions, reverse faulting is predicted beneath the neutral + plane at depths >30 km. We show that moderate variations in background stress + have a large impact on the predicted anelastic dissipation. We suggest brittle reverse + faulting is a marginal phenomenon which may be inhibited by moderate changes in + background stress.' +description: Tectonic plates are recycled into the mantle through subduction, where + they bend and deform in various ways, such as brittle failure. This process creates + deep sea trenches and results in characteristic earthquake patterns and gravity + anomalies. In this study, we used a numerical model to investigate plate bending + dynamics, complementing simpler approaches like flexural yield strength envelopes. + We focused on the competition between bending stress and sources of net in-plane + stress, such as slab pull, which influences the plate's neutral plane depth. It + is difficult to reconcile the 'apparent' neutral plane depth with a net slab pull + force greater than about 2 TN/m. Deviatoric compression in subducting plates more + easily explains reverse earthquakes at depths of 20-50 km in the bending plate. +images: + landing_image: + src: ./graphics/res_fig_final_ann.png + caption: Downdip component of strain rate tensor and resolved stress difference + from the numerical model, focusing on features within the plate/slab. The resolved + stress difference is defined as ($\sigma_{s} - \sigma_{z}$), where $\hat{s}$, + and $\hat{z}$ are unit vectors in the downdip and slab normal directions. The + fields show, for example, shortening/extension in the downdip direction. Stress + profiles at four locations are shown. The blue line ($x_0$) is the first zero + crossing based on analysis of the flexural component of the topography. The + black line is the location of maximum bending moment. + graphic_abstract: + src: ./graphics/gpe_fm26.png + caption: 'The main panel shows the variation in terms that arise in a 2D "vertically + integrated" form of the force balance (or stress equilibrium) equations. Assuming + a traction-free surface, the force balance states that across a horizontal section + of the lithosphere, the following terms must sum to zero: 1) integrated basal + shear traction, 2) the difference in the vertically-integrated deviatoric stress + and 3), the difference in the vertically-integrated vertical normal stress (often + called the GPE). In the figure, the overbar symbols represent vertical integration + across the lithosphere. Specifically, integration from a reference height, (taken + here as the mean ridge height) down to a reference depth (taken here as 150 + km beneath the reference height). In the main panel, the black line shows the + horizontal variation in the vertically integrated deviatoric stress difference + ($\tau_{xx} - \tau_{yy}$). Positive values indicate a state of deviatoric tension. + The dashed blue line shows the horizontal variation in the vertically integrated + vertical normal stress ($\sigma_{yy}$) (or the GPE). Strictly speaking, this + quantity is only equal to the GPE when the vertical normal stress is lithostatic, + but the term is retained in this study due to convention. The upper panel shows + the subducting plate topography at 2 different scales.' + model_setup: + src: ./graphics/s1a.png + caption: The main panel shows the full model domain and initial temperature field. + The texture is generated with a line integral convolution of the velocity field. + Contours show evolution of the slab during the 10 Myr simulation. Velocity arrows + show convergence rates at 5 Myr into the simulation. Inset panels show details + of the adaptive mesh refinement during the simulation. +animation: + src: ./graphics/animation.ogv + caption: 'Animation shows the model domain at 2x vertical exaggeration. The scalar + field is the effective strain rate, i.e. $\dot\epsilon_{II} = \sqrt{J2} = \sqrt{0.5(\dot\epsilon_{i,j}: + \epsilon_{i,j})}$. Upper panel shows the evolution of the model topography (a + true free surface). The topographic profile reveals the long-wavelength isostatic + thermal subsidence, as well as the flexural topography associated with the subduction + zone. The model exhibits a very short-wavelength instability in the free surface + of the over-riding plate, which begins approximately 3 Ma after the start of the + simulation.' +model_setup_info: + url: + summary: The subduction model comprises a rectangular domain with a depth of 2900 + km, and an aspect ratio of 4. The initial conditions comprise an adiabatic mantle + with a potential temperature of 1350 C and two plates, whose age and thermal structure + follows the cooling 1d cooling profile for a half-space (infinite in the depth + direction). One of these plates is attached to a slab that extends to 660 km depth, + and has an age of 100 Myr at the trench. The upper plate is modelled with a younger + thermal age, 25 Myr at the trench. Imposing an initial slab that reaches the transition + zone was found to be a more stable initial configuration in terms of instabilities + of the free surface. 7 levels of mesh refinement were used, with the largest (Q2) + elements having an edge length of 45 km, and the smallest elements have an edge + length of ∼ 700 m. The interface is modelled through an entrained weak layer approach. + A thin layer (here 2 km thick) represented by a separate composition is imposed + on the top of the subducting plate, as well as between the subducting slab and + upper plate. This composition has a low coefficient of friction, providing a shear + stress that varies between between about 10 - 20 MPa throughout the plate interface + domain. See the included model input file (.prm) for further details. +model_files: + url: + notes: Model setup is provided by an ASPECT input file and a WorldBuilder file (https://github.com/GeodynamicWorldBuilder/WorldBuilder). + Minor modifications to the ASPECT source code were implemented and are discussed + in the associated publication as well as the `model_code_inputs/README.md` directory. + file_tree: + existing_identifier: https://github.com/dansand/subduction_GJI2022 + nci_file_path: + https://thredds.nci.org.au/thredds/catalog/nm08/MATE/sandifordcraig-2023-subduction/catalog.html + include: true +dataset: + url: + notes: "Computations were done using the ASPECT code version 2.4.0. ASPECT output + data from 2 simulations are included with this model. The reference model is the + same model setup/data described in Sandiford and Craig, (2023). An alternative + model is included in which the over-riding plate is welded to the left sidewall + at the start of the simulation (whereas the initial temperature field in the reference + model has a ridge). Note that both simulations develop a short-wavelength instability + in the free surface of the over-riding plate, which begins approximately 3 Ma + after the start of the simulation. The top level directories contains typical + ASPECT output files, including log.txt and restart files. The primary output data + consists of:\r\n\r\n- plain text files representing model topography (e.g. topography.00000)\r + \n- a range of \"field\" data, in .vtu format in the `./solution` sub-directory + (e.g. solution-00000.0000.vtu). At each output step, there are 48 vtu files written. + These can be opened with Paraview using the solution.pvd file in the top level. + Quantities generally have SI units. Velocities are output as meters/year. \r\n\ + - particle information stored as .vtu files (16 per timestep). Particles were + used to track the 2-km-thick weak entrained layer that facilitates the plate interface + decoupling zone." + existing_identifier: + nci_file_path: + https://thredds.nci.org.au/thredds/catalog/nm08/MATE/sandifordcraig-2023-subduction/catalog.html + include: true +metadataFile: ro-crate-metadata.json +--- diff --git a/src/pages/models/sandifordcraig-2023-subduction/license.txt b/src/pages/models/sandifordcraig-2023-subduction/license.txt new file mode 100644 index 0000000..da6ab6c --- /dev/null +++ b/src/pages/models/sandifordcraig-2023-subduction/license.txt @@ -0,0 +1,396 @@ +Attribution 4.0 International + +======================================================================= + +Creative Commons Corporation ("Creative Commons") is not a law firm and +does not provide legal services or legal advice. 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For +the avoidance of doubt, this paragraph does not form part of the +public licenses. + +Creative Commons may be contacted at creativecommons.org. + diff --git a/src/pages/models/sandifordcraig-2023-subduction/ro-crate-metadata.json b/src/pages/models/sandifordcraig-2023-subduction/ro-crate-metadata.json new file mode 100644 index 0000000..ad491db --- /dev/null +++ b/src/pages/models/sandifordcraig-2023-subduction/ro-crate-metadata.json @@ -0,0 +1,459 @@ +{ + "@context": [ + "https://www.researchobject.org/ro-crate/1.1/context.jsonld", + "https://raw.githubusercontent.com/codemeta/codemeta/master/codemeta.jsonld" + ], + "@graph": [ + { + "@id": "#datasetCreation", + "@type": "CreateAction", + "agent": [ + { + "@id": "http://orcid.org/0000-0002-2207-6837" + }, + { + "@id": "http://orcid.org/0000-0003-2198-9172" + } + ], + "description": "Running the computational model", + "endTime": "", + "instrument": [ + { + "@id": "https://doi.org/10.5281/zenodo.6903424" + }, + { + "@id": "https://doi.org/10.25914/608bfd1838db2" + } + ], + "object": { + "@id": "model_inputs" + }, + "result": { + "@id": "model_outputs" + }, + "startTime": "" + }, + { + "@id": "./", + "@type": "Dataset", + "about": { + "@id": "https://linked.data.gov.au/def/anzsrc-for/2020/370401" + }, + "abstract": "This study investigates the dynamics and constitutive behaviour of the oceanic lithosphere as it bends and yields during subduction. Two main observational constraints are considered: the maximum bending moment that can be supported by the lithosphere, and the inferred neutral plane depth in bending. We particularly focus on regions of old lithosphere where the \u2018apparent\u2019 neutral plane depth is about 30\u00a0km. We use subduction modelling approaches to investigate these flexural characteristics. We reassess bending moment estimates from a range of previous studies, and show a significant convergence towards what we call the \u2018intermediate\u2019 range of lithosphere strength: weaker than some classical models predict, but stronger than recent inferences at seamounts. We consider the non-uniqueness that arises due to the trade-offs in strength as well background (tectonic) stress state. We outline this problem with several end-member models, which differ in regard to relative strength in the brittle and ductile regimes. We evaluate the consistency of these models in terms of a range of constraints, primarily the seismic expression of the outer rise. We show that a 30\u00a0km neutral plane depth implies that net slab pull is not greater than about 2 TN\u2009m\u22121. In contrast, models with low brittle strength imply that regions with a 30\u00a0km neutral plane depth are under moderate net axial compression. Under these conditions, reverse faulting is predicted beneath the neutral plane at depths >30\u00a0km. We show that moderate variations in background stress have a large impact on the predicted anelastic dissipation. We suggest brittle reverse faulting is a marginal phenomenon which may be inhibited by moderate changes in background stress.", + "alternateName": "sandifordcraig-2023-subduction", + "citation": { + "@id": "http://dx.doi.org/10.1093/gji/ggad230" + }, + "contributor": "", + "creativeWorkStatus": "None", + "creator": [ + { + "@id": "http://orcid.org/0000-0002-2207-6837" + }, + { + "@id": "http://orcid.org/0000-0003-2198-9172" + } + ], + "datePublished": "2024-05-28T00:11:12.000Z", + "description": "Tectonic plates are recycled into the mantle through subduction, where they bend and deform in various ways, such as brittle failure. This process creates deep sea trenches and results in characteristic earthquake patterns and gravity anomalies. In this study, we used a numerical model to investigate plate bending dynamics, complementing simpler approaches like flexural yield strength envelopes. We focused on the competition between bending stress and sources of net in-plane stress, such as slab pull, which influences the plate's neutral plane depth. It is difficult to reconcile the 'apparent' neutral plane depth with a net slab pull force greater than about 2 TN/m. Deviatoric compression in subducting plates more easily explains reverse earthquakes at depths of 20-50 km in the bending plate.", + "funder": [ + { + "@id": "https://ror.org/05mmh0f86" + }, + { + "@id": "https://ror.org/03wnrjx87" + }, + { + "@id": "https://ror.org/02b5d8509" + } + ], + "hasPart": [ + { + "@id": "model_inputs" + }, + { + "@id": "model_outputs" + }, + { + "@id": "website_material" + }, + { + "@id": "metadata_trail" + }, + { + "@id": "#datasetCreation" + } + ], + "identifier": [ + "https://doi.org/10.25914/t13d-0r63" + ], + "isBasedOn": [], + "isPartOf": "http://dx.doi.org/10.25914/yrzp-g882", + "keywords": [ + "Dynamics of lithosphere", + "Lithospheric flexure", + "Subduction", + "Earthquakes" + ], + "license": "https://creativecommons.org/licenses/by/4.0/legalcode", + "name": "Plate bending earthquakes and the strength distribution of the lithosphere", + "publisher": [ + { + "@id": "https://ror.org/04s1m4564" + }, + { + "@id": "https://ror.org/04yx6dh41" + } + ], + "spatialCoverage": "", + "temporalCoverage": "", + "url": [ + "https://mate.science/models/sandifordcraig-2023-subduction/", + "https://github.com/ModelAtlasofTheEarth/sandifordcraig-2023-subduction/" + ], + "version": "", + "funding": [ + { + "@id": "_:b0" + }, + { + "@id": "_:b1" + } + ], + "creditText": [ + "Sandiford, D., & Craig, T. 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Two main observational constraints are considered: the maximum bending moment that can be supported by the lithosphere, and the inferred neutral plane depth in bending. We particularly focus on regions of old lithosphere where the \u2018apparent\u2019 neutral plane depth is about 30\u00a0km. We use subduction modelling approaches to investigate these flexural characteristics. We reassess bending moment estimates from a range of previous studies, and show a significant convergence towards what we call the \u2018intermediate\u2019 range of lithosphere strength: weaker than some classical models predict, but stronger than recent inferences at seamounts. We consider the non-uniqueness that arises due to the trade-offs in strength as well background (tectonic) stress state. We outline this problem with several end-member models, which differ in regard to relative strength in the brittle and ductile regimes. We evaluate the consistency of these models in terms of a range of constraints, primarily the seismic expression of the outer rise. We show that a 30\u00a0km neutral plane depth implies that net slab pull is not greater than about 2 TN\u2009m\u22121. In contrast, models with low brittle strength imply that regions with a 30\u00a0km neutral plane depth are under moderate net axial compression. Under these conditions, reverse faulting is predicted beneath the neutral plane at depths >30\u00a0km. We show that moderate variations in background stress have a large impact on the predicted anelastic dissipation. We suggest brittle reverse faulting is a marginal phenomenon which may be inhibited by moderate changes in background stress.", + "author": [ + { + "@id": "http://orcid.org/0000-0002-2207-6837" + }, + { + "@id": "http://orcid.org/0000-0003-2198-9172" + } + ], + "name": "Plate bending earthquakes and the strength distribution of the lithosphere" + }, + { + "@id": "http://orcid.org/0000-0002-2207-6837", + "@type": "Person", + "familyName": "Sandiford", + "givenName": "Dan" + }, + { + "@id": "http://orcid.org/0000-0003-2198-9172", + "@type": "Person", + "familyName": "Craig", + "givenName": "Timothy J" + }, + { + "@id": "https://creativecommons.org/licenses/by/4.0/legalcode", + "@type": "CreativeWork", + "description": "Creative Commons Attribution 4.0 International", + "name": "CC-BY-4.0", + "url": " https://creativecommons.org/licenses/by/4.0/legalcode.txt" + }, + { + "@id": "https://doi.org/10.25914/608bfd1838db2", + "@type": "Service", + "author": [ + { + "@id": 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ASPECT output data from 2 simulations are included with this model. The reference model is the same model setup/data described in Sandiford and Craig, (2023). An alternative model is included in which the over-riding plate is welded to the left sidewall at the start of the simulation (whereas the initial temperature field in the reference model has a ridge). Note that both simulations develop a short-wavelength instability in the free surface of the over-riding plate, which begins approximately 3 Ma after the start of the simulation. The top level directories contains typical ASPECT output files, including log.txt and restart files. The primary output data consists of:\r\n\r\n- plain text files representing model topography (e.g. topography.00000)\r\n- a range of \"field\" data, in .vtu format in the `./solution` sub-directory (e.g. solution-00000.0000.vtu). At each output step, there are 48 vtu files written. 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Particles were used to track the 2-km-thick weak entrained layer that facilitates the plate interface decoupling zone.", + "fileFormat": "./", + "identifier": [ + "https://doi.org/10.25914/t13d-0r63" + ], + "url": "https://thredds.nci.org.au/thredds/catalog/nm08/MATE/sandifordcraig-2023-subduction/catalog.html" + }, + { + "@id": "ro-crate-metadata.json", + "@type": "CreativeWork", + "conformsTo": { + "@id": "https://w3id.org/ro/crate/1.1" + }, + "about": { + "@id": "./" + }, + "description": "RO-Crate Metadata File Descriptor (this file)" + }, + { + "@id": "website_material", + "@type": [ + "Dataset", + "CreativeWork" + ], + "creator": [ + { + "@id": "http://orcid.org/0000-0002-2207-6837" + }, + { + "@id": "http://orcid.org/0000-0003-2198-9172" + } + ], + "description": "material for m@te website", + "fileFormat": "./" + } + ] +} \ No newline at end of file