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Data and supplementary materials for "What Controls Early Restraining Bend Growth? Structural, Morphometric, and Numerical Modeling Analyses From the Eastern California Shear Zone"

Version 2 2024-05-28, 18:30
Version 1 2023-10-11, 17:59
dataset
posted on 2024-05-28, 18:30 authored by Max GarvueMax Garvue, Michele CookeMichele Cooke, James SpotilaJames Spotila, Elizabeth CurtissElizabeth Curtiss

These are supplementary data and results to support the manuscript "What Controls Early Restraining Bend Growth? Structural, Morphometric, and Numerical Modeling Analyses From the Eastern California Shear Zone" submitted to the AGU journal Tectonics. Additional data and model results are available upon request.

History

Publisher

University Libraries, Virginia Tech

Corresponding Author Name

Max M Garvue

Corresponding Author E-mail Address

maxgarvue@vt.edu

Files/Folders in Dataset and Description

[Mapping and morphometrics KMZs.zip] – folder with all GoogleEarth KMZ files of mapping and morphometric efforts • [Erosion_surface_outlines.kmz] - mapped erosion surfaces used to derive vertical displacements • [Fry_Mtn_Basalt.kmz] - mapped extent of Fry Mountain Basalt used to derive cumulative displacement along the southern Lenwood fault • [Hypsometry_SECSZ.kmz] - Polygons used to obtain hypsometric data in ArcMap using the CalyHypso tool • [Restraining_Bend_Mapping.kmz] - Fault mapping of restraining bends 5,6,9,10,11,13,15,17,18,20,21,22. [SECSZ_morphometrics.kmz] - polygons, pins, polylines used to complete some of the morphometric analyses and fault trend analyses [Restraining bend toy models mesh.zip] – folder with all the ts files of the toy models • [toy_1_03042023.ts] – half-wedge bend • [toy_2_03032023.ts] – full-wedge bend • [toy_3_03032023.ts] – confluence bend • [toy_4_03032023.ts] – single simple bend • [toy_5_03032023.ts] – paired bend (sidewall ripout) • [toy_6_03032023.ts] – corner bend • [toy_7_03032023.ts] – composite bend [Morphometrics data and tables.zip] – folder with all excel and csv files associated with morphometric analyses • [EastWest_bend6_FryMtn_transect.xlsx] – transect profiles used to determine the vertical displacement of the Fry Mountain basalt by the Lenwood fault • [FaultTrend_Morphometrics_table.csv] – csv file of table S5 in supplementary pdf file. Shows the fault bifurcation measurements as well as the morphometric data for each bend • [Hypsometric_curves_SECSZ.xlsx] – all the hypsometric curves for restraining bends and inselbergs. Data was obtained using the [Hyposmetry_SECSZ.kmz] polygons and the CalHypso tool in ArcMap • [SwathProfiles_SECSZ.xlsx] – All longitudinal and transverse swath profiles for all 20 doubly bound restraining bends. Data was obtained using the ArcSwath Toolbar in ArcMap (https://github.com/HUGG/ArcSwath) [Restraining bend toy model results.zip] – folder of restraining bend toy model results with SECSZ loading and loading that induces pure strike-slip strain, maximum horizontal compression 45° clockwise from the primary fault trend and maximum horizontal extension 45° counterclockwise from the fault trend • [toy_1_max0005_min0005.disp] – pure strike-slip strain results for half-wedge bend • [toy_2_max0005_min0005.disp] – pure strike-slip strain results for full-wedge bend • [toy_3_max0005_min0005.disp] – pure strike-slip strain results for confluence bend • [toy_4_max0005_min0005.disp] – pure strike-slip strain results for single simple bend • [toy_5_max0005_min0005.disp] – pure strike-slip strain results for paired bend • [toy_6_max0005_min0005.disp] – pure strike-slip strain results for corner bend • [toy_7_max0005_min0005.disp] – pure strike-slip strain results for composite bend • [toy_1_SECZ.disp] – regional SECSZ strain results for half-wedge bend • [toy_2_SECZ.disp] – regional SECSZ strain results for full-wedge bend • [toy_3_SECZ.disp] – regional SECSZ strain results for confluence bend • [toy_4_SECZ.disp] – regional SECSZ strain results for single simple bend • [toy_5_SECZ.disp] – regional SECSZ strain results for paired bend • [toy_6_SECZ.disp] – regional SECSZ strain results for corner bend • [toy_7_SECZ.disp] – regional SECSZ strain results for composite bend • [toy_1_SECZ.avSlip] – average regional SECSZ slip results for half-wedge bend • [toy_2_SECZ.avgSlip] – average regional SECSZ slip results for full-wedge bend • [toy_3_SECZ.avgSlip] – average regional SECSZ slip results for confluence bend • [toy_4_SECZ.avgSlip] – average regional SECSZ slip results for single simple bend • [toy_5_SECZ.avgSlip] – average regional SECSZ slip results for paired bend • [toy_6_SECZ.avgSlip] – average regional SECSZ slip results for corner bend • [toy_7_SECZ.avgSlip] – average regional SECSZ slip results for composite bend [Regional model results.zip] – results for the regional SECSZ model including matlab code used to do isostatic correction • [disp_07232023.disp] – unmodified regional SECSZ model results • [Michele_isostatic_2022.mat] – matlab code to do isostatic corrections • [SECSZ_adjusted_upliftmmyr.txt] – isostatically corrected regional SECSZ model results