usgs / earthquake-global_vs30

Global Vs30
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earthquake-global_vs30

Global Vs30 model based on topographic slope, with custom embedded maps.

Authors: C. Bruce Worden and David C. Heath

Copyright © 2019 United States Geological Survey

See LICENSE file for terms and conditions.

GLOBAL VS30 MAP

The software in this repository creates a global topographic-slope based Vs30 model, and then inserts regional maps into the global map where they are available.

It starts running in the Slope directory, where it makes a file that contains a global topographic slope-based Vs30 map. It then runs in each of the regional sub-directories (currently Australia, California, Greece, Iran, Italy, Japan, New Zealand, PNW, Taiwan, Texas, and Utah) each of which creates its regional map for insertion into the global map.

Each stage of the process is captured in the regional subdirectories, while the final product, "global_vs30.grd" lives in the top-level directory. This approach should make it easy to add new regions.

PREREQUISITES AND CONFIGURATION

You will need to have certain software installed and within your current search path. The required software is:

USER-DEFINED CONSTANTS.MK

Before starting, you should notice the hidden directory ".vs30" included in the repository. Please move this directory and its contents to your home directory (~). Review the user-specific constants in ~/.vs30/Constants.mk. In particular, make sure CDFLIB, CDFINC, GMTLIB, and GMTINC variables are set correctly for your system. You'll also want to set the resolution of the maps to one of the supported values; 30 arc-seconds is the default. Note that the 7.5 second resolution makes very large files and the GMT commands require system memory in excess of what most machines can currently support. See Slope/75_commands.bash for a list of commands that will make the 7.5 second map in two pieces, and then join them at the end.

MAKING THE MAPS

Once all of the proper software is installed, and the variables in Constants.mk are set, in the top-level directory of the repository you should just be able to do:

    % make

and the process should proceed to make a global grid file with inset maps for Australia, California, Greece, Iran, Italy, Japan, NZ, PNW, Taiwan, Utah, etc. To remove (or add) one or more regions, see the top-level Makefile and look at the instructions near the top.

The same command can be used in each regional subdirectory to only create the local map and not immediately insert it into the global slope-based map.

Plots are useful for visualizing both the intermediate steps and final product of regional maps. They are also available for the global mosaic and slope-based maps, as well as apmlification maps and ratio maps. The plots are all set up in their respective Makefiles. Go into a regional directory and do:

    % make plots

to generate a complete set. These plots are sometimes limited (and vary from region to region), and as such may not show the step you are curious about. It is straightforward to add a new plot by copying the framework already there. To get rid of the plots, do:

    % make clean_plots

To get rid of a lot of intermediate products (and all the plots), do:

    % make clean

To get rid of everything except the stuff that can't be regenerated or automatically downloaded, do:

    % make veryclean

You can do "make clean" and "make veryclean" from the top-level directory, in which case it runs those commands recursively in all the subdirectories. In the top-level you can also run:

    % make spotless

which will run "make veryclean" in all the subdirectories and also remove the top level Vs30 file "global_vs30.grd".

ADDING A REGION

To add a region, make a directory for it and add the directory and filename to the two lists near the top of the top-level Makefile. Then copy the Makefile from one of the other regions (ideally one geographically similar. i.e., if it is a landlocked region, Utah might be ideal. For an island -- Australia or Taiwan. Regions with coastline [most common] -- Greece or Italy) and modify as necessary. In particular, you can make your map in any way you want, so many of the steps in creating the the grids may be different or unnecessary. There are many "branching points" in making the maps, and many small adjustments that can be made to correct for inconsistencies in the way different maps are created. You may also insert your grid into the global grid however you want, but the program src/insert_grd is provided for that purpose. It takes as input a base grid file into which you want to insert your map (in our case the topographic slope grid is the "base"), your new (regional) grid, and a weighted clipping mask (usually weights.grd). The clipping mask should be identically sized and co-registered with your grid. Both the new grid and the weighted clipping mask must have the same resolution and co-register with the background grid, and must fit entirely within it. The clipping mask should be 1 (one) where your grid will completely replace the background grid, and 0 (zero) where the background grid is left untouched. Values between 1 and 0 will produce and output that is the weighted average of the two grids:

    output = w * insert_grd + (1 - w) * background_grd

where w is the weight.

See the file src/README and the source .c files for more information on insert_grd and the other programs available. In addition, the regional Makefiles (for California, PNW, and Utah) have examples of their use.

AMPLIFICATION MAP

This is a new addition to the Vs30 repository. The Amplification map is created separately from all other regional / global Vs30 maps. It only requires that the "global_vs30.grd" file exists in the top-level directory. The amplification map is created by first utilizing two methodologies for calculating amplification values -- Stewart et al. (2017) for stable cratonic regions, and Seyhan and Stewart (2014) for active crustal regions. The two maps are calculated and then merged together according to a simple polylgon grid file of their respective regions (modified from the ShakeMap repository). However, to avoid a sharp discontinuity at the interface, the two regions are blended using a similar methodology to inserting regional maps into the global topographic-slope Vs30 map. In this case, however, the "background" or "base" map is the active crustal amplification map. Then, the two are averaged (using the weight scheme described just above this section) so that it blends the two together at the interface. Presently, the values for a requested period must be hard-coded from supplementary tables included in the publications listed in this section.

RATIO MAPS

Ratio maps are built in two places, ./Amplification/Amp_Ratio_Map and ./Vs30_Ratio_Map. In each location, there is a simple Makefile which takes two grids and calculates a ratio between the hybrid values (for either Amplification or Vs30) and the slope-based values of the same type of map. In order for the Makefiles to work, two grids must exist. In the case of the Amplification ratio map, those are amplification_blend.grd and slope_amplification_blend.grd (created in the Slope and Hybrid subdirectories inside the ./Amplification directory). For the Vs30 ratio map, the "global_vs30.grd" file must exist in the top level directory (this is the hybrid map for the globe) and the grid by the same name in the ./Slope directory (this is the slope-based Vs30 map for the globe). Once the prerequisite grids are created, simply refer to the READMEs in the respective directories for instructions on creating the final ratio maps.

UNCERTAINTIES

Certain regions include calculated uncertainties associated with assigned Vs30 values. These uncertainties are presented in terms of the natural log standard deviation of Vs30. Currently, the region for which an uncertainty map was provided includes only California. Using the suggested site-specific criteria from Stewart et al. (2014), additional uncertainty maps were computed for Greece and Taiwan. Where region-specific uncertainty values are unavailable, a slope-based uncertainty value is calculated according to the relationship described in Seyhan et al. (2014). Uncertainty maps can be generated in ~/Vs30/earthquake-global_vs30/Uncertainties. The only dependency is that the Slope-based global Vs30 map must already exist, which can be done by going into the Slope directory and typing % make, or by creating the global hybrid Vs30 map (typing % make in the top-level directory). The uncertainty map is generated as a stand-alone product (i.e., it is not created in the process of making the global hybrid Vs30 map). For more information, please read the README in the Uncertainties directory.

ACKNOWLEGEMENTS

The California map was provided by Eric Thompson and based on the map developed in Thompson et al. (2014) "A Vs30 Map for California with Geologic and Topographic Constraints." BSSA, 2014.

The Utah map was provided by Kris Pankow of UUSS.

The Washington/Oregon map was provided by Renate Hartog of UW.

The map of Japan is downloaded from http://www.j-shis.bosai.go.jp/ (see the Japan Makefile for specifics of downloading). References are available at the web site.

The Taiwan maps were provided by Eric Thompson based upon maps developed in Thompson & Wald (2012) "Developing Vs30 Site-Condition Maps by Combining Observations with Geologic and Topographic Constraints." Presented at 15WCEE, Lisbon, Portugal. An additional Taiwan map is provided by Kwok et al. (2018).

The Australia map is provided by A. A. McPherson and Trevor Allen of Geoscience Australia under the Creative Commons Attribution 4.0 International Licence.

The Italy map is provided by Alberto Michelini of the Istituto Nazionale di Geofisica e Vulcanologia (INGV), and is developed in Michelini et al. (2008).

The Iran map is provided by Sadra Karimzadeh of the Tokyo Institute of Technology, and is developed in Karimzadeh et al. (2017).

The Greece map is provided by Kiriaki Konstantinidou of the Earthquake Planning and Protection Organization (EPPO), and can be referenced at Stewart et al. (2014).

The New Zealand map is provided by Destegul et al. (2009).

The Texas map is provided by Ellen Rathje and Meibai Li at the University of Texas (2019).

The global stable vs. active map file is modified from Schulte and Mooney (2005) with further modification in the continental United States per Petersen et al. (2019).

The getpar library was created by Robert W. Clayton of the California Institute of Technology, and later amended by several others (see source files for history). It is included by permission.