gmt-doc 4.5.12-1 / usr / share / doc / gmt / html / man / originator.html

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<title>ORIGINATOR</title>

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<h1 align="center">ORIGINATOR</h1>

<a href="#NAME">NAME</a><br>
<a href="#SYNOPSIS">SYNOPSIS</a><br>
<a href="#DESCRIPTION">DESCRIPTION</a><br>
<a href="#OPTIONS">OPTIONS</a><br>
<a href="#EXAMPLES">EXAMPLES</a><br>
<a href="#COORDINATES">COORDINATES</a><br>
<a href="#SEE ALSO">SEE ALSO</a><br>
<a href="#REFERENCES">REFERENCES</a><br>

<hr>


<h2>NAME
<a name="NAME"></a>
</h2>


<p style="margin-left:11%; margin-top: 1em">originator
&minus; Associate seamounts with hotspot point sources</p>

<h2>SYNOPSIS
<a name="SYNOPSIS"></a>
</h2>



<p style="margin-left:11%; margin-top: 1em"><b>originator</b>
[<i>infile(s)</i>] <b>&minus;E</b><i>stage_file</i>
<b>&minus;F</b><i>hs_file</i> [ <b>&minus;C</b> ] [
<b>&minus;D</b><i>d_km</i> ] [
<b>&minus;H</b>[<b>i</b>][<i>nrec</i>] ] [
<b>&minus;L</b>[<i>flag</i>] ] [
<b>&minus;N</b><i>upper_age</i> ] [
<b>&minus;Q</b><i>r/t</i> ] [ <b>&minus;S</b>[<i>n_hs</i>] ]
[ <b>&minus;T</b> ] [ <b>&minus;V</b> ]
<b>&minus;W</b><i>maxdist</i> ] [ <b>&minus;Z</b> ] [
<b>&minus;:</b>[<b>i</b>|<b>o</b>] ] [
<b>&minus;bi</b>[<b>s</b>|<b>S</b>|<b>d</b>|<b>D</b>[<i>ncol</i>]|<b>c</b>[<i>var1</i><b>/</b><i>...</i>]]
]</p>

<h2>DESCRIPTION
<a name="DESCRIPTION"></a>
</h2>



<p style="margin-left:11%; margin-top: 1em"><b>originator</b>
reads (longitude, latitude, height, radius, crustal_age)
records from <i>infiles</i> [or standard input] and uses the
given Absolute Plate Motion (APM) stage poles and the list
of hotspot locations to determine the most likely origin
(hotspot) for each seamount. It does so by calculating
flowlines back in time and determining the closest approach
to all hotspots. The output consists of the input records
with four additional fields added for each of the
<i>n_hs</i> closest hotspots. The four fields are the
hotspot id (e.g., HWI), the stage id of the flowline segment
that came closest, the pseudo-age of the seamount, and the
closest distance to the hotspot (in km). See option
<b>&minus;:</b> on how to read (latitude, longitude,height,
radius, crustal_age) files.</p>

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<p>No space between the option flag and the associated
arguments. Use upper case for the option flags and lower
case for modifiers.</p></td></tr>
</table>

<p style="margin-left:11%;"><i>infile(s)</i></p>

<p style="margin-left:22%;">Seamount data file(s) to be
analyzed. If not given, standard input is read.</p>

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<p><b>&minus;E</b></p></td>
<td width="8%"></td>
<td width="78%">


<p>Give file with rotation parameters. This file must
contain one record for each rotation; each record must be of
the following format:</p></td></tr>
</table>

<p style="margin-left:22%; margin-top: 1em"><i>lon lat
tstart [tstop] angle</i> [ <i>khat a b c d e f g df</i>
]</p>

<p style="margin-left:22%; margin-top: 1em">where
<i>tstart</i> and <i>tstop</i> are in Myr and <i>lon lat
angle</i> are in degrees. <i>tstart</i> and <i>tstop</i> are
the ages of the old and young ends of a stage. If
<b>&minus;C</b> is set then a total reconstruction rotation
is expected and <i>tstop</i> is implicitly set to 0 and
should not be specified in the file. If a covariance matrix
<b>C</b> for the rotation is available it must be specified
in a format using the nine optional terms listed in
brackets. Here, <b>C</b> = (<i>g</i>/<i>khat</i>)*[ <i>a b
d; b c e; d e f</i> ] which shows <b>C</b> made up of three
row vectors. If the degrees of freedom (<i>df</i>) in
fitting the rotation is 0 or not given it is set to 10000.
Blank lines and records whose first column contains # will
be ignored.</p>

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<p style="margin-top: 1em"><b>&minus;F</b></p></td>
<td width="8%"></td>
<td width="78%">


<p style="margin-top: 1em">Give file with hotspot
locations. This file must contain one record for each
hotspot to be considered; each record must be of the
following format:</p></td></tr>
</table>

<p style="margin-left:22%; margin-top: 1em">lon lat
hs_abbrev hs_id r t_off t_on create fit plot name</p>

<p style="margin-left:22%; margin-top: 1em">E.g., for
Hawaii this may look like</p>

<p style="margin-left:22%; margin-top: 1em">205 20 HWI 1 25
0 90 Y Y Y Hawaii</p>

<p style="margin-left:22%; margin-top: 1em">Most
applications only need the first 4 columns which thus
represents the minimal hotspot information record type. The
abbreviation may be maximum 3 characters long. The id must
be an integer from 1-32. The positional uncertainty of the
hotspot is given by r (in km). The t_off and t_on variables
are used to indicate the active time-span of the hotspot.
The create, fit, and plot indicators are either Y or N and
are used by some programs to indicate if the hotspot is
included in the ID-grids used to determine rotations, if the
hotspot chain will be used to determine rotations, and if
the hotspot should be included in various plots. The name is
a 32-character maximum text string with the full hotspot
name. Blank lines and records whose first column contains #
will be ignored.</p>

<h2>OPTIONS
<a name="OPTIONS"></a>
</h2>


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<p style="margin-top: 1em"><b>&minus;C</b></p></td>
<td width="8%"></td>
<td width="78%">


<p style="margin-top: 1em">Expect Total Reconstruction
Rotations rather than Forward Stage Rotations [Default].
File format is similar to the stage pole format except that
the <i>tstart</i> column is not present (assumed to be 0
Ma).</p> </td></tr>
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<td width="11%"></td>
<td width="3%">


<p><b>&minus;D</b></p></td>
<td width="8%"></td>
<td width="78%">


<p>Sets the flowline sampling interval in km. [Default is
5].</p> </td></tr>
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<td width="11%"></td>
<td width="3%">


<p><b>&minus;H</b></p></td>
<td width="8%"></td>
<td width="78%">


<p>Input file(s) has header record(s). If used, the default
number of header records is <b><A HREF="gmtdefaults.html#N_HEADER_RECS">N_HEADER_RECS</A></b>. Use
<b>&minus;Hi</b> if only input data should have header
records [Default will write out header records if the input
data have them]. Blank lines and lines starting with # are
always skipped.</p></td></tr>
<tr valign="top" align="left">
<td width="11%"></td>
<td width="3%">


<p><b>&minus;L</b></p></td>
<td width="8%"></td>
<td width="78%">


<p>Output closest approach for nearest hotspot only
(ignores <b>&minus;S</b>). Choose <b>&minus;Lt</b> for
(<i>time, dist, z</i>) [Default], <b>&minus;Lw</b> for
(<i>omega, dist, z</i>), and <b>&minus;Ll</b> for (lon, lat,
time, dist, z). Normally, <i>dist</i> is in km; use upper
case modifiers <b>TWL</b> to get <i>dist</i> in spherical
degrees.</p> </td></tr>
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<td width="11%"></td>
<td width="3%">


<p><b>&minus;N</b></p></td>
<td width="8%"></td>
<td width="78%">


<p>Set the maximum age to extend the oldest stage back in
time [no extension].</p></td></tr>
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<td width="11%"></td>
<td width="3%">


<p><b>&minus;Q</b></p></td>
<td width="8%"></td>
<td width="78%">
</td></tr>
</table>

<p style="margin-left:11%;">Input files only has
(<i>x,y,z</i>); specify constant values for <i>r,t</i>
that</p>

<p style="margin-left:22%;">will be implied for each
record.</p>

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<td width="11%"></td>
<td width="4%">


<p><b>&minus;S</b></p></td>
<td width="7%"></td>
<td width="78%">


<p>Set the number of closest hotspots to report [Default is
1].</p> </td></tr>
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<td width="11%"></td>
<td width="4%">


<p><b>&minus;T</b></p></td>
<td width="7%"></td>
<td width="78%">


<p>Truncate seamount ages exceeding the upper age set with
<b>&minus;N</b> [no truncation].</p></td></tr>
<tr valign="top" align="left">
<td width="11%"></td>
<td width="4%">


<p><b>&minus;V</b></p></td>
<td width="7%"></td>
<td width="78%">


<p>Selects verbose mode, which will send progress reports
to stderr [Default runs &quot;silently&quot;].</p></td></tr>
<tr valign="top" align="left">
<td width="11%"></td>
<td width="4%">


<p><b>&minus;W</b></p></td>
<td width="7%"></td>
<td width="78%">


<p>Only report those seamounts whose flowlines came within
<i>maxdist</i> to any hotspot [Default reports all
seamounts].</p> </td></tr>
<tr valign="top" align="left">
<td width="11%"></td>
<td width="4%">


<p><b>&minus;Z</b></p></td>
<td width="7%"></td>
<td width="78%">


<p>Use the hotspot ID number rather than the name tag in
output records.</p></td></tr>
<tr valign="top" align="left">
<td width="11%"></td>
<td width="4%">


<p><b>&minus;:</b></p></td>
<td width="7%"></td>
<td width="78%">


<p>Toggles between (longitude,latitude) and
(latitude,longitude) input and/or output. [Default is
(longitude,latitude)]. Append <b>i</b> to select input only
or <b>o</b> to select output only. [Default affects
both].</p> </td></tr>
<tr valign="top" align="left">
<td width="11%"></td>
<td width="4%">


<p><b>&minus;bi</b></p></td>
<td width="7%"></td>
<td width="78%">


<p>Selects binary input. Append <b>s</b> for single
precision [Default is <b>d</b> (double)]. Uppercase <b>S</b>
or <b>D</b> will force byte-swapping. Optionally, append
<i>ncol</i>, the number of columns in your binary input file
if it exceeds the columns needed by the program. Or append
<b>c</b> if the input file is netCDF. Optionally, append
<i>var1</i><b>/</b><i>var2</i><b>/</b><i>...</i> to specify
the variables to be read. [Default is 5 input columns].</p></td></tr>
</table>

<h2>EXAMPLES
<a name="EXAMPLES"></a>
</h2>


<p style="margin-left:11%; margin-top: 1em">To find the
likely (hotspot) origins of the seamounts represented by the
(x,y,z,r,tc) points in the file seamounts.d, using the
DC85.d Euler poles and the pac_hs.d list of possible
hotspots, and report the 2 most likely hotspot candidates
for each seamount, run</p>


<p style="margin-left:11%; margin-top: 1em"><b>originator</b>
seamounts.d <b>&minus;S</b> 2 <b>&minus;E</b> DC85.d
<b>&minus;F</b> pac_hs.d &gt; origins.d</p>

<h2>COORDINATES
<a name="COORDINATES"></a>
</h2>


<p style="margin-left:11%; margin-top: 1em">Data
coordinates are assumed to be geodetic and will
automatically be converted to geocentric before spherical
rotations are performed. We convert back to geodetic
coordinates for output. Note: If your data already are
geocentric, you can avoid the conversion by using
--ELLIPSOID=sphere.</p>

<h2>SEE ALSO
<a name="SEE ALSO"></a>
</h2>


<p style="margin-left:11%; margin-top: 1em"><i><A HREF="GMT.html">GMT</A></i>(1),
<i><A HREF="project.html">project</A></i>(1), <i><A HREF="grdrotater.html">grdrotater</A></i>(1),
<i><A HREF="grdspotter.html">grdspotter</A></i>(1), <i><A HREF="mapproject.html">mapproject</A></i>(1),
<i><A HREF="backtracker.html">backtracker</A></i>(1), <i><A HREF="hotspotter.html">hotspotter</A></i>(1)</p>

<h2>REFERENCES
<a name="REFERENCES"></a>
</h2>


<p style="margin-left:11%; margin-top: 1em">Wessel, P.,
1999, &quot;Hotspotting&quot; tools released, EOS Trans.
AGU, 80 (29), p. 319.</p>
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