{ "culture": "pt-PT", "name": "", "guid": "", "catalogPath": "", "snippet": "the plate boundary curves in the most compact form, and should be used to add plate boundaries to maps. It contains 6,048 points grouped into 229 segments. The title record for each segment has 5 bytes, in which the first two bytes give the identifier of the plate on the left (as one travels along the segment, looking down from outside the Earth) and bytes 4-5 give the identifier of the plate on the right. In byte 3, the symbol \"/\" indicates that the right-hand plate subducts under the left-hand plate, while symbol \"\\\" indicates the opposite polarity of subduction. All non-subducting plate boundary segments have a hyphen \"-\" in byte 3. The number of segments exceeds the number of plate boundaries for several reasons: (i) because a single plate boundary may include both subduction and non-subduction segments, which require different titles; (ii) because different parts of a single plate boundary may be credited to different sources; (iii) for convenience in digitizing long plate boundaries which did not fit onto a single map.", "description": "

the plate boundary curves in the most compact form, and should be used to add plate boundaries to maps. It contains 6,048 points grouped into 229 segments. The title record for each segment has 5 bytes, in which the first two bytes give the identifier of the plate on the left (as one travels along the segment, looking down from outside the Earth) and bytes 4-5 give the identifier of the plate on the right. In byte 3, the symbol \"/\" indicates that the right-hand plate subducts under the left-hand plate, while symbol \"\\\" indicates the opposite polarity of subduction. All non-subducting plate boundary segments have a hyphen \"-\" in byte 3. The number of segments exceeds the number of plate boundaries for several reasons: (i) because a single plate boundary may include both subduction and non-subduction segments, which require different titles; (ii) because different parts of a single plate boundary may be credited to different sources; (iii) for convenience in digitizing long plate boundaries which did not fit onto a single map.<\/SPAN><\/P><\/DIV><\/DIV><\/DIV>", "summary": "the plate boundary curves in the most compact form, and should be used to add plate boundaries to maps. It contains 6,048 points grouped into 229 segments. The title record for each segment has 5 bytes, in which the first two bytes give the identifier of the plate on the left (as one travels along the segment, looking down from outside the Earth) and bytes 4-5 give the identifier of the plate on the right. In byte 3, the symbol \"/\" indicates that the right-hand plate subducts under the left-hand plate, while symbol \"\\\" indicates the opposite polarity of subduction. All non-subducting plate boundary segments have a hyphen \"-\" in byte 3. The number of segments exceeds the number of plate boundaries for several reasons: (i) because a single plate boundary may include both subduction and non-subduction segments, which require different titles; (ii) because different parts of a single plate boundary may be credited to different sources; (iii) for convenience in digitizing long plate boundaries which did not fit onto a single map.", "title": "Plate Boundaries", "tags": [ "reference", "basemap", "seismology", "natural earth", "plate tectonics", "plate boundaries" ], "type": "", "typeKeywords": [], "thumbnail": "", "url": "", "minScale": 0, "maxScale": 0, "spatialReference": "", "accessInformation": "Hugo Ahlenius, Nordpil. 2014 Peter Bird, Department of Earth and Space Sciences, University of California, Los Angeles, CA 90095-1567 Geochemistry Geophysics Geosystems, 4(3), 1027, doi:10.1029/2001GC000252, 2003", "licenseInfo": "

This dataset is made available under the Open Data Commons Attribution License: http://opendatacommons.org/licenses/by/1.0/<\/SPAN><\/P><\/DIV><\/DIV><\/DIV>" }