[
	{"name":"-511-event-extents-6f436","title":"_511_Event_Extents","notes":"511 provides information about weather-related road conditions, road work, commercial vehicle restrictions, road closures and other events that impact traffic.  This dataset provides the line extents associated with current 511 events.  Events can be found on the 511 Website (www.511ia.org).","metadata_modified":"2024-11-15T15:40:31.657151","organization_title":"State of Iowa","publisher":"data.iowa.gov","bureau_name":null},
	{"name":"0-2-second-spectral-response-acceleration-5-of-critical-damping-with-a-1-probability-of-ex","title":"0.2-second spectral response acceleration (5% of critical damping) with a 1% probability of exceedance in 1 year","notes":"A one-year seismic hazard forecast for the Central and Eastern United States, based on induced and natural  earthquakes, has been produced by the U.S. Geological Survey.  The model assumes that earthquake rates calculated from several different time windows will remain relatively stationary and can be used to forecast …","metadata_modified":"2024-07-06T06:26:02.490013","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"0-2-second-spectral-response-acceleration-5-of-critical-damping-with-a-1-probability-of-ex-0397e","title":"0.2-second spectral response acceleration (5% of critical damping) with a 1% probability of exceedance in 1 year","notes":"A one-year seismic hazard forecast for the Central and Eastern United States, based on induced and natural  earthquakes, has been produced by the U.S. Geological Survey.  The model assumes that earthquake rates calculated from several different time windows will remain relatively stationary and can be used to forecast …","metadata_modified":"2024-07-06T06:57:29.624395","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"0-2-second-spectral-response-acceleration-5-of-critical-damping-with-a-1-probability-of-ex-54c47","title":"0.2-second spectral response acceleration (5% of critical damping) with a 1% probability of exceedance in 1 year","notes":"A one-year seismic hazard forecast for the Central and Eastern United States, based on induced and natural  earthquakes, has been produced by the U.S. Geological Survey.  The model assumes that earthquake rates calculated from several different time windows will remain relatively stationary and can be used to forecast …","metadata_modified":"2024-07-06T14:13:19.309720","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"0-2-second-spectral-response-acceleration-5-of-critical-damping-with-a-1-probability-of-ex-aa506","title":"0.2-second spectral response acceleration (5% of critical damping) with a 1% probability of exceedance in 1 year","notes":"A one-year seismic hazard forecast for the Central and Eastern United States, based on induced and natural  earthquakes, has been produced by the U.S. Geological Survey.  The model assumes that earthquake rates calculated from several different time windows will remain relatively stationary and can be used to forecast …","metadata_modified":"2024-07-06T13:19:30.401342","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"0-2-second-spectral-response-acceleration-5-of-critical-damping-with-a-10-probability-of-e","title":"0.2-second spectral response acceleration (5% of critical damping) with a 10% probability of exceedance in 50 years","notes":"A seismic hazard model for South America, based on a smoothed (gridded) seismicity model, a subduction model, a crustal fault model, and a ground motion model, has been produced by the U.S. Geological Survey.  These models are combined to account for ground shaking from earthquakes on known faults as well as …","metadata_modified":"2024-07-06T13:41:11.907409","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"0-2-second-spectral-response-acceleration-5-of-critical-damping-with-a-2-probability-of-ex","title":"0.2-second spectral response acceleration (5% of critical damping) with a 2% probability of exceedance in 50 years","notes":"A seismic hazard model for South America, based on a smoothed (gridded) seismicity model, a subduction model, a crustal fault model, and a ground motion model, has been produced by the U.S. Geological Survey.  These models are combined to account for ground shaking from earthquakes on known faults as well as …","metadata_modified":"2024-07-06T04:15:24.053198","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"0-2-second-spectral-response-acceleration-5-of-critical-damping-with-a-50-probability-of-e","title":"0.2-second spectral response acceleration (5% of critical damping) with a 50% probability of exceedance in 50 years","notes":"A seismic hazard model for South America, based on a smoothed (gridded) seismicity model, a subduction model, a crustal fault model, and a ground motion model, has been produced by the U.S. Geological Survey.  These models are combined to account for ground shaking from earthquakes on known faults as well as …","metadata_modified":"2024-07-06T07:15:04.649654","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"0-25-meter-backscatter-jpeg-image-with-world-file-of-the-nearshore-seafloor-off-of-kill-de","title":"0.25 meter backscatter JPEG image (with world file) of the nearshore seafloor off of Kill Devil Hills, NC (mosaic5.jpg, UTM Zone 18N, WGS 84)","notes":"The northeastern North Carolina coastal system, from False Cape, Virginia, to Cape Lookout, North Carolina, has been studied by a cooperative research program that mapped the Quaternary geologic framework of the estuaries, barrier islands, and inner continental shelf. This information provides a basis to understand …","metadata_modified":"2024-07-06T09:42:34.574473","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"0-3-meter-backscatter-jpeg-image-with-world-file-of-the-nearshore-seafloor-off-of-avalon-b","title":"0.3 meter backscatter JPEG image (with world file) of the nearshore seafloor off of Avalon Beach, NC (mosaic4.jpg, UTM Zone 18N, WGS84)","notes":"The northeastern North Carolina coastal system, from False Cape, Virginia, to Cape Lookout, North Carolina, has been studied by a cooperative research program that mapped the Quaternary geologic framework of the estuaries, barrier islands, and inner continental shelf. This information provides a basis to understand …","metadata_modified":"2024-07-06T12:40:05.134026","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"0-3-meter-backscatter-jpeg-image-with-world-file-of-the-nearshore-seafloor-off-of-duck-nc-","title":"0.3 meter backscatter JPEG image (with world file) of the nearshore seafloor off of Duck, NC (mosaic2.jpg UTM, Zone 18N, WGS84)","notes":"The northeastern North Carolina coastal system, from False Cape, Virginia, to Cape Lookout, North Carolina, has been studied by a cooperative research program that mapped the Quaternary geologic framework of the estuaries, barrier islands, and inner continental shelf. This information provides a basis to understand …","metadata_modified":"2024-07-06T16:41:33.912591","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"0-5-m-bathymetric-grid-of-national-oceanic-and-atmospheric-administration-noaa-survey-h110","title":"0.5-m Bathymetric Grid of National Oceanic and Atmospheric Administration (NOAA) Survey H11077 in the Vicinity of Woods Hole, Massachusetts (H11077_05UTM, UTM Zone 19)","notes":"The U.S. Geological Survey (USGS), in cooperation with the National Oceanic and Atmospheric Administration (NOAA) and the Massachusetts Office of Coastal Zone Management (MA CZM), is producing detailed geologic maps of the coastal sea floor. Imagery, originally collected by NOAA for charting purposes, provides a …","metadata_modified":"2024-07-06T03:51:53.865358","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"0-5-m-bathymetric-grid-of-national-oceanic-and-atmospheric-administration-noaa-survey-h110-077cd","title":"0.5-m Bathymetric Grid of National Oceanic and Atmospheric Administration (NOAA) Survey H11077 in the Vicinity of Woods Hole, Massachusetts (H11077_05GEO, Geographic)","notes":"The U.S. Geological Survey (USGS), in cooperation with the National Oceanic and Atmospheric Administration (NOAA) and the Massachusetts Office of Coastal Zone Management (MA CZM), is producing detailed geologic maps of the coastal sea floor. Imagery, originally collected by NOAA for charting purposes, provides a …","metadata_modified":"2024-07-06T20:52:21.431790","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"0-5-m-bathymetry-from-national-oceanic-and-atmospheric-administration-noaa-survey-h11077-o","title":"0.5-m Bathymetry from National Oceanic and Atmospheric Administration (NOAA) Survey H11077 of the Sea Floor in the Vicinity of Woods Hole, Massachusetts (H11077_0.5MUTM19_XYZ.TXT, UTM Zone 19)","notes":"The U.S. Geological Survey (USGS), in cooperation with the National Oceanic and Atmospheric Administration (NOAA) and the Massachusetts Office of Coastal Zone Management (MA CZM), is producing detailed geologic maps of the coastal sea floor. Imagery, originally collected by NOAA for charting purposes, provides a …","metadata_modified":"2024-11-01T08:35:25.471946","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"0-5-m-stretched-grayscale-image-of-the-sidescan-sonar-data-from-national-oceanic-and-atmos","title":"0.5-m Stretched Grayscale Image of the Sidescan-Sonar Data From National Oceanic and Atmospheric Administration (NOAA) Survey H11077 of the Sea Floor in the Vicinity of Woods Hole, Massachusetts (H11077_SSS100_GEO.TIF, Geographic)","notes":"The U.S. Geological Survey (USGS), in cooperation with the National Oceanic and Atmospheric Administration (NOAA) and the Massachusetts Office of Coastal Zone Management (MA CZM), is producing detailed geologic maps of the coastal sea floor. Imagery, originally collected by NOAA for charting purposes, provides a …","metadata_modified":"2024-07-06T13:31:25.871197","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"0-5-m-stretched-grayscale-image-of-the-sidescan-sonar-data-from-national-oceanic-and-atmos-26d20","title":"0.5-m Stretched Grayscale Image of the Sidescan-Sonar Data From National Oceanic and Atmospheric Administration (NOAA) Survey H11077 of the Sea Floor in the Vicinity of Woods Hole, Massachusetts (H11077_SSS100_UTM19.TIF, UTM Zone 19)","notes":"The U.S. Geological Survey (USGS), in cooperation with the National Oceanic and Atmospheric Administration (NOAA) and the Massachusetts Office of Coastal Zone Management (MA CZM), is producing detailed geologic maps of the coastal sea floor. Imagery, originally collected by NOAA for charting purposes, provides a …","metadata_modified":"2024-07-06T06:08:37.509343","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"0-5-meter-backscatter-jpeg-image-with-world-file-of-the-nearshore-seafloor-off-of-northern","title":"0.5 meter backscatter JPEG image (with world file) of the nearshore seafloor off of northern Cape Hatteras National Seashore, NC (mosaic8.jpg, UTM Zone 18N, WGS84)","notes":"The northeastern North Carolina coastal system, from False Cape, Virginia, to Cape Lookout, North Carolina, has been studied by a cooperative research program that mapped the Quaternary geologic framework of the estuaries, barrier islands, and inner continental shelf. This information provides a basis to understand …","metadata_modified":"2024-07-06T03:08:20.433792","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"0-6-meter-backscatter-jpeg-image-with-world-file-of-the-nearshore-seafloor-north-of-duck-n","title":"0.6 meter backscatter JPEG image (with world file) of the nearshore seafloor north of Duck, NC (mosaic1.jpg UTM, Zone 18N, WGS84)","notes":"The northeastern North Carolina coastal system, from False Cape, Virginia, to Cape Lookout, North Carolina, has been studied by a cooperative research program that mapped the Quaternary geologic framework of the estuaries, barrier islands, and inner continental shelf. This information provides a basis to understand …","metadata_modified":"2024-07-06T10:01:06.677967","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"0-8-meter-backscatter-jpeg-image-with-world-file-of-the-nearshore-seafloor-off-of-kitty-ha","title":"0.8 meter backscatter JPEG image (with world file) of the nearshore seafloor off of Kitty Hawk, NC (mosaic3.jpg, UTM Zone 18N, WGS84)","notes":"The northeastern North Carolina coastal system, from False Cape, Virginia, to Cape Lookout, North Carolina, has been studied by a cooperative research program that mapped the Quaternary geologic framework of the estuaries, barrier islands, and inner continental shelf. This information provides a basis to understand …","metadata_modified":"2024-07-06T12:47:33.671960","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"0-8-meter-backscatter-jpeg-image-with-world-file-of-the-nearshore-seafloor-off-of-nags-hea","title":"0.8 meter backscatter JPEG image (with world file) of the nearshore seafloor off of Nags Head, NC (mosaic6.jpg, UTM Zone 18N, WGS84)","notes":"The northeastern North Carolina coastal system, from False Cape, Virginia, to Cape Lookout, North Carolina, has been studied by a cooperative research program that mapped the Quaternary geologic framework of the estuaries, barrier islands, and inner continental shelf. This information provides a basis to understand …","metadata_modified":"2024-07-06T16:07:33.626149","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"0-8-meter-backscatter-jpeg-image-with-world-file-of-the-nearshore-seafloor-off-of-whalebon","title":"0.8 meter backscatter JPEG image (with world file) of the nearshore seafloor off of Whalebone, NC (mosaic7.jpg, UTM Zone 18N, WGS84)","notes":"The northeastern North Carolina coastal system, from False Cape, Virginia, to Cape Lookout, North Carolina, has been studied by a cooperative research program that mapped the Quaternary geologic framework of the estuaries, barrier islands, and inner continental shelf. This information provides a basis to understand …","metadata_modified":"2024-07-06T10:07:48.824771","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"006-santa-cruz-harbor-ca","title":"006 - Santa Cruz Harbor, CA","notes":"Timeseries data from '006 - Santa Cruz Harbor, CA' (edu_ucsd_cdip_006)","metadata_modified":"2024-08-27T06:54:47.930082","organization_title":"National Oceanic and Atmospheric Administration, Department of Commerce","publisher":null,"bureau_name":null},
	{"name":"01-revised-groundwater-level-contours-for-smith-valley-and-mason-valley-nevada-1970","title":"01) Revised groundwater-level contours for Smith Valley and Mason Valley, Nevada, 1970","notes":"These contours represent static groundwater levels based on depth-to-water measurements in Smith Valley and Mason Valley, Nevada. Groundwater-level contours for Smith Valley were first published by Rush and Schroer (1976) and subsequently published electronically by Welborn and Medina (2022). The Smith Valley …","metadata_modified":"2024-07-06T04:51:50.304062","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"01-seismicity-catalogs-for-the-2023-update-of-the-national-seismic-hazard-model-for-the-st","title":"01. Seismicity catalogs for the 2023 update of the National Seismic Hazard Model for the state of Alaska","notes":"This dataset contains earthquake catalogs compiled for Alaska from U.S. Geolgical Survey (USGS) Advanced National Seismic System (ANSS) Comprehensive Earthquake Catalog (ComCat) (USGS, 2017) and Natural Resources Canada (NRCan) Canadian National Earthquake Database (NRCan, 1985) catalog searches and processed …","metadata_modified":"2024-09-30T03:45:30.997886","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"01-watersheds-shapefile-for-the-15-study-watersheds-in-gwinnett-county-georgia","title":"01: Watersheds shapefile for the 15 study watersheds in Gwinnett County, Georgia","notes":"This Geographic Information System dataset contains a shapefile of the watershed drainage area boundaries for the 15 watersheds which were used in the study in Gwinnett County, Georgia. The watersheds were delineated with StreamStats.","metadata_modified":"2024-07-06T15:18:05.021356","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"010-office-of-intelligence-and-analysis-open-source-enterprice-open-source-intelligence-co","title":"010 Office of Intelligence and Analysis Open Source Enterprice Open Source Intelligence Collection and Reporting","notes":"The Department of Homeland Security (DHS) Intelligence and Analysis (I&A) Open Source Enterprise (OSE) is an intelligence collection program within DHS I&A that collects information, through publicly available sources, and reports that information in support of Departmental missions. The collection and reporting by …","metadata_modified":"2024-09-22T08:55:56.893826","organization_title":"Department of Homeland Security","publisher":"DHS","bureau_name":null},
	{"name":"02-groundwater-level-contours-for-smith-valley-and-mason-valley-nevada-1995","title":"02) Groundwater-level contours for Smith Valley and Mason Valley, Nevada, 1995","notes":"These contours represent static groundwater levels based on depth-to-water measurements made at 96 monitoring wells during water years 1991-1995 in Smith Valley and Mason Valley, Nevada. For each monitoring well, the median groundwater-level altitude during the five-year period (1991-1995) was used for developing the …","metadata_modified":"2024-07-06T11:24:18.022427","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"02-hazard-curves-and-uniform-hazard-ground-motion-data-for-alaska","title":"02. Hazard curves and uniform-hazard ground motion data for Alaska","notes":"This dataset represents probabilistic seismic hazard curves and uniform-hazard ground motion values calculated for a grid of points with a spacing of 0.2 degrees in latitude and longitude for the state of Alaska using the 2023 National Seismic Hazard Model (NSHM) for the state of Alaska. The dataset includes (1) …","metadata_modified":"2024-09-30T03:45:58.594413","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"02-stormwater-drainage-areas-shapefile-for-the-15-study-watersheds-in-gwinnett-county-geor","title":"02: Stormwater drainage areas shapefile for the 15 study watersheds in Gwinnett County, Georgia, August 2021","notes":"This Geographic Information System dataset contains a shapefile of the stormwater drainage area boundaries for the 15 study watersheds in Gwinnett County, Georgia. Stormwater drainage areas were delineated using a high-resolution digital elevation model (DEM) and the stormwater pipe network within Gwinnett County as …","metadata_modified":"2024-07-06T19:38:38.463429","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"02031-geophysical-surveys-of-bear-lake-utah-idaho-september-2002-bathymetry-tracklines-bat","title":"02031 - Geophysical Surveys of Bear Lake, Utah-Idaho, September, 2002 - Bathymetry Tracklines (BATHY_TRK)","notes":"Bear Lake is a tectonic lake that has existed for at least several hundred thousand years. The lake basin is a relatively simple half graben, a spoon-shaped depression tilted toward the main fault on the east side of the lake. The U.S. Geological Survey, in cooperation with researchers from several universities, has …","metadata_modified":"2024-07-06T12:34:24.377845","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"02031-geophysical-surveys-of-bear-lake-utah-idaho-september-2002-chirp-seismic-tracklines-","title":"02031 - Geophysical Surveys of Bear Lake, Utah-Idaho, September 2002 - Chirp Seismic Tracklines (CHRPTRK)","notes":"Bear Lake is a tectonic lake that has existed for at least several hundred thousand years. The lake basin is a relatively simple half graben, a spoon-shaped depression tilted toward the main fault on the east side of the lake. The U.S. Geological Survey, in cooperation with researchers from several universities, has …","metadata_modified":"2024-07-06T10:04:40.615491","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"02031-geophysical-surveys-of-bear-lake-utah-idaho-september-2002-seismic-navigation-start-","title":"02031 : Geophysical Surveys of Bear Lake, Utah-Idaho, September 2002 - Seismic Navigation:  Start of Line (CHRP_SOL)","notes":"Bear Lake is a tectonic lake that has existed for at least several hundred thousand years. The lake basin is a relatively simple half graben, a spoon-shaped depression tilted toward the main fault on the east side of the lake. The U.S. Geological Survey, in cooperation with researchers from several universities, has …","metadata_modified":"2024-07-06T13:46:14.582554","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"02031-geophysical-surveys-of-bear-lake-utah-idaho-september-2002-shot-point-navigation-500","title":"02031 - Geophysical Surveys of Bear Lake, Utah-Idaho, September 2002 - Shot Point Navigation 500 shot interval (CHRP_500)","notes":"Bear Lake is a tectonic lake that has existed for at least several hundred thousand years. The lake basin is a relatively simple half graben, a spoon-shaped depression tilted toward the main fault on the east side of the lake. The U.S. Geological Survey, in cooperation with researchers from several universities, has …","metadata_modified":"2024-07-06T06:13:31.456237","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"02031-geophysical-surveys-of-bear-lake-utah-idaho-september-2002-shot-point-navigation-chr","title":"02031 - Geophysical Surveys of Bear Lake, Utah-Idaho, September 2002 - Shot Point Navigation (CHRPSHT)","notes":"Bear Lake is a tectonic lake that has existed for at least several hundred thousand years. The lake basin is a relatively simple half graben, a spoon-shaped depression tilted toward the main fault on the east side of the lake. The U.S. Geological Survey, in cooperation with researchers from several universities, has …","metadata_modified":"2024-07-06T16:13:52.553063","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"02031-geophysical-surveys-of-bear-lake-utah-idaho-september-2002-sidescan-sonar-tracklines","title":"02031 - Geophysical Surveys of Bear Lake, Utah-Idaho, September 2002 - Sidescan-sonar Tracklines (SSS_TRK)","notes":"Bear Lake is a tectonic lake that has existed for at least several hundred thousand years. The lake basin is a relatively simple half graben, a spoon-shaped depression tilted toward the main fault on the east side of the lake. The U.S. Geological Survey, in cooperation with researchers from several universities, has …","metadata_modified":"2024-07-06T12:43:27.138666","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"02031-geophysical-surveys-of-bear-lake-utah-idaho-september-2002-sound-velocity-profiles-s","title":"02031 - Geophysical Surveys of Bear Lake, Utah-Idaho, September 2002 - Sound Velocity Profiles (SVP)","notes":"Bear Lake is a tectonic lake that has existed for at least several hundred thousand years. The lake basin is a relatively simple half graben, a spoon-shaped depression tilted toward the main fault on the east side of the lake. The U.S. Geological Survey, in cooperation with researchers from several universities, has …","metadata_modified":"2024-07-06T20:15:33.976432","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"028-santa-monica-bay-ca-462211","title":"028 - Santa Monica Bay, CA (46221)","notes":"Timeseries data from '028 - Santa Monica Bay, CA (46221)' (edu_ucsd_cdip_028)","metadata_modified":"2024-08-27T02:29:18.633037","organization_title":"National Oceanic and Atmospheric Administration, Department of Commerce","publisher":null,"bureau_name":null},
	{"name":"029-point-reyes-ca-462141","title":"029 - Point Reyes, CA (46214)","notes":"Timeseries data from '029 - Point Reyes, CA (46214)' (edu_ucsd_cdip_029)","metadata_modified":"2024-08-26T22:37:51.355826","organization_title":"National Oceanic and Atmospheric Administration, Department of Commerce","publisher":null,"bureau_name":null},
	{"name":"03-200-foot-stream-buffers-shapefile-for-15-watersheds-in-gwinnett-county-georgia","title":"03: 200-foot stream buffers shapefile for 15 watersheds in Gwinnett County, Georgia","notes":"This Geographic Information System dataset contains shapefiles of 200-foot stream buffers for the 15 study watersheds in Gwinnett County, Georgia. The stream buffers are based on flowlines from the high resolution, 1:24,000-scale National Hydrography Dataset.","metadata_modified":"2024-07-06T11:32:44.150676","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"03-multi-period-response-spectra-for-alaska-test-sites","title":"03. Multi-period response spectra for Alaska test sites","notes":"This data set represents multi-period response spectra (MPRS) results for 36 Alaska test sites using the 2023 National Seismic Hazard Model for the state of Alaska. The data sets includes (1) probabilistic seismic hazard curves (full and truncated) for peak ground velocity (PGV), peak ground acceleration (PGA), and …","metadata_modified":"2024-09-30T03:45:13.694722","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"03-revised-groundwater-level-contours-for-smith-valley-and-mason-valley-nevada-2006","title":"03) Revised groundwater-level contours for Smith Valley and Mason Valley, Nevada, 2006","notes":"These contours represent static groundwater levels based on depth-to-water measurements in Smith Valley and Mason Valley, Nevada, for fall 2006. Groundwater-level contours were first published by Lopes and Allander (2009) and subsequently published electronically by Medina and others (2022). Since the time of the …","metadata_modified":"2024-07-06T15:08:51.808106","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"04-groundwater-level-contours-for-smith-valley-and-mason-valley-nevada-2020","title":"04) Groundwater-level contours for Smith Valley and Mason Valley, Nevada, 2020","notes":"These contours represent static groundwater levels based on depth-to-water measurements made at 165 monitoring wells during water years 2016-2020 in Smith Valley and Mason Valley, Nevada. For each monitoring well, the median groundwater-level altitude during the five-year period (2016-2020) was used for developing the …","metadata_modified":"2024-07-06T07:40:17.939082","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"04-national-land-cover-database-land-cover-at-15-watersheds-in-gwinnett-county-georgia-fro","title":"04: National Land Cover Database land cover at 15 watersheds in Gwinnett County, Georgia from 2001 to 2019","notes":"This dataset contains the percentage of 14 National Land Cover Database (NLCD) land cover classes within the drainage areas of 15 watersheds in Gwinnett County, Georgia from 2001 to 2019. The dataset includes scenes from eight years, 2001, 2004, 2006, 2008, 2011, 2013, 2016, and 2019, which were analyzed using a …","metadata_modified":"2024-07-06T05:09:50.927165","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"04087088-underwood-creek-at-wauwatosa-wi-2018-09-14-gps-survey","title":"04087088 - Underwood Creek at Wauwatosa, WI - 2018/09/14 GPS Survey","notes":"The dataset contains GPS survey data from the first of two surveys conducted after a high flow event on August 20, 2018, at the USGS streamgage 04087088 - Underwood Creek at Wauwatosa, WI. This survey, on September 14, 2018, documents high-water marks. The survey was performed using Topcon GR-5 GPS unit (SN: …","metadata_modified":"2024-07-06T19:22:38.097545","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"04087088-underwood-creek-at-wauwatosa-wi-2019-07-17-gps-survey","title":"04087088 - Underwood Creek at Wauwatosa, WI - 2019/07/17 GPS Survey","notes":"The dataset contains GPS survey data from the second of two surveys conducted after a high flow event on August 20, 2018, at the USGS streamgage 04087088 - Underwood Creek at Wauwatosa, WI. This survey, on July 17, 2019, documents cross section geometry. The survey was performed using Trimble R10 RTK GPS unit (SN: …","metadata_modified":"2024-07-06T10:45:45.700131","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"043-camp-pendleton-nearshore-ca-462422","title":"043 - Camp Pendleton Nearshore, CA (46242)","notes":"Timeseries data from '043 - Camp Pendleton Nearshore, CA (46242)' (edu_ucsd_cdip_043)","metadata_modified":"2024-12-26T20:07:27.323338","organization_title":"National Oceanic and Atmospheric Administration, Department of Commerce","publisher":null,"bureau_name":null},
	{"name":"045-oceanside-offshore-ca-46224","title":"045 - Oceanside Offshore, CA (46224)","notes":"Timeseries data from '045 - Oceanside Offshore, CA (46224)' (edu_ucsd_cdip_045)","metadata_modified":"2024-08-27T07:27:28.784733","organization_title":"National Oceanic and Atmospheric Administration, Department of Commerce","publisher":null,"bureau_name":null},
	{"name":"05-groundwater-level-change-for-smith-valley-and-mason-valley-nevada-1970-1995-approach-1","title":"05) Groundwater-level change for Smith Valley and Mason Valley, Nevada, 1970-1995, approach 1","notes":"This raster dataset represents groundwater-level change from 1970 to 1995 in Smith Valley and Mason Valley, Nevada, calculated using approach 1. For this approach, groundwater-level contours from 1970 and 1995 were interpolated into rasters and differenced to calculate groundwater-level change.","metadata_modified":"2024-07-06T11:20:35.517632","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"05-impervious-areas-within-15-watersheds-in-gwinnett-county-georgia-from-2000-to-2020","title":"05: Impervious areas within 15 watersheds in Gwinnett County, Georgia from 2000 to 2020","notes":"This dataset contains the percentages of impervious areas within the drainage areas of 15 watersheds in Gwinnett County, Georgia from 2000 to 2020. The dataset includes data from 16 years, 2000, 2005, 2006, and annually from 2008 to 2020. The dataset was derived from impervious area coverages provided from the …","metadata_modified":"2024-07-06T15:18:09.597262","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"06-groundwater-level-change-for-smith-valley-and-mason-valley-nevada-1996-2006-approach-1","title":"06) Groundwater-level change for Smith Valley and Mason Valley, Nevada, 1996-2006, approach 1","notes":"This raster dataset represents groundwater-level change from 1996 to 2006 in Smith Valley and Mason Valley, Nevada, calculated using approach 1. For this approach, groundwater-level contours from 1995 and 2006 were interpolated into rasters and differenced to calculate groundwater-level change.","metadata_modified":"2024-07-06T18:46:18.636343","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"06-property-parcel-building-construction-dates-and-densities-in-15-watersheds-in-gwinnett-","title":"06: Property parcel building construction dates and densities in 15 watersheds in Gwinnett County, Georgia in 2021","notes":"This dataset contains the number of buildings and their construction dates within the 15 study watersheds in Gwinnett County, Georgia. Dataset reflects existing buildings as of October 2021 and construction dates range from 1810 to 2021. The dataset was created by matching parcel boundaries obtained from Gwinnett …","metadata_modified":"2024-07-06T11:32:47.157612","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"067-san-nicolas-island-ca-462193","title":"067 - San Nicolas Island, CA (46219)","notes":"Timeseries data from '067 - San Nicolas Island, CA (46219)' (067-san-nicolas-island-ca-46219)","metadata_modified":"2024-08-26T18:05:35.720699","organization_title":"National Oceanic and Atmospheric Administration, Department of Commerce","publisher":null,"bureau_name":null},
	{"name":"07-groundwater-level-change-for-smith-valley-and-mason-valley-nevada-2007-2020-approach-1","title":"07) Groundwater-level change for Smith Valley and Mason Valley, Nevada, 2007-2020, approach 1","notes":"This raster dataset represents groundwater-level change from 2007 to 2020 in Smith Valley and Mason Valley, Nevada, calculated using approach 1. For this approach, groundwater-level contours from 2006 and 2020 were interpolated into rasters and differenced to calculate groundwater-level change.","metadata_modified":"2024-07-06T08:17:15.042000","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"07-groundwater-level-change-for-smith-valley-and-mason-valley-nevada-2007-2020-approach-1-e2ffe","title":"07) Groundwater-level change for Smith Valley and Mason Valley, Nevada, 2007-2020, approach 1","notes":"This raster dataset represents groundwater-level change from 2007 to 2020 in Smith Valley and Mason Valley, Nevada, calculated using approach 1. For this approach, groundwater-level contours from 2006 and 2020 were interpolated into rasters and differenced to calculate groundwater-level change.","metadata_modified":"2024-07-06T14:37:26.350810","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"07-population-density-in-15-watersheds-in-gwinnett-county-georgia-from-2000-to-2020","title":"07: Population density in 15 watersheds in Gwinnett County, Georgia from 2000 to 2020","notes":"This dataset contains population densities of 15 study watersheds in Gwinnett County, Georgia from 2000 to 2020. Population densities were determined for 2000, 2010, and 2020 from the decadal U.S. Census and for 2012 and 2017 from the American Community Survey 5-year estimates of 2010-14 and 2015¬-19 block group data, …","metadata_modified":"2024-07-06T09:27:18.156802","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"071-harvest-ca-46218","title":"071 - Harvest, CA (46218)","notes":"Timeseries data from '071 - Harvest, CA (46218)' (edu_ucsd_cdip_071)","metadata_modified":"2024-08-27T01:00:29.697409","organization_title":"National Oceanic and Atmospheric Administration, Department of Commerce","publisher":null,"bureau_name":null},
	{"name":"072-huntington-beach-ca","title":"072 - Huntington Beach, CA","notes":"Timeseries data from '072 - Huntington Beach, CA' (edu_ucsd_cdip_072)","metadata_modified":"2024-08-27T07:09:35.562880","organization_title":"National Oceanic and Atmospheric Administration, Department of Commerce","publisher":null,"bureau_name":null},
	{"name":"073-scripps-pier-la-jolla-ca-ljpc1","title":"073 - Scripps Pier, La Jolla, CA (LJPC1)","notes":"Timeseries data from '073 - Scripps Pier, La Jolla, CA (LJPC1)' (edu_ucsd_cdip_073)","metadata_modified":"2024-08-27T07:13:14.886554","organization_title":"National Oceanic and Atmospheric Administration, Department of Commerce","publisher":null,"bureau_name":null},
	{"name":"076-diablo-canyon-ca-462154","title":"076 - Diablo Canyon, CA  (46215)","notes":"Timeseries data from '076 - Diablo Canyon, CA  (46215)' (076-diablo-canyon-ca-46215)","metadata_modified":"2024-12-26T18:06:00.877618","organization_title":"National Oceanic and Atmospheric Administration, Department of Commerce","publisher":null,"bureau_name":null},
	{"name":"08-05-2010-uh60","title":"08-05-2010 UH60","notes":"Data collected on a UH-60 helicopter on nominal (Y) and jam-injected (X) actuators.","metadata_modified":"2023-12-06T18:00:11.538396","organization_title":"National Aeronautics and Space Administration","publisher":"Dashlink","bureau_name":"National Aeronautics and Space Administration"},
	{"name":"08-daily-average-stream-base-flow-at-14-watersheds-in-gwinnett-county-georgia-for-wat-2002","title":"08: Daily average stream base flow at 14 watersheds in Gwinnett County, Georgia for water years 2002-2020","notes":"This dataset contains the daily average base flow, as determined by hydrograph separation, for 14 watersheds in Gwinnett County, Georgia for October 2001 through September 2020. Hydrograph separations were done using the Web-based Hydrograph Analysis Tool (WHAT) using the simple local minimum method on the daily …","metadata_modified":"2024-07-06T09:27:16.259342","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"083-kings-bay-ga2","title":"083 - Kings Bay, GA","notes":"Timeseries data from '083 - Kings Bay, GA' (edu_ucsd_cdip_083)","metadata_modified":"2024-08-27T05:18:37.246255","organization_title":"National Oceanic and Atmospheric Administration, Department of Commerce","publisher":null,"bureau_name":null},
	{"name":"09-groundwater-level-change-for-smith-valley-and-mason-valley-nevada-1970-1995-approach-2","title":"09) Groundwater-level change for Smith Valley and Mason Valley, Nevada, 1970-1995, approach 2","notes":"This raster dataset represents groundwater-level change from 1970 to 1995 in Smith Valley and Mason Valley, Nevada, calculated using approach 2. For this approach, depth-to-water measurements from 53 monitoring wells, represented as point values, were differenced between 1970 and 1995. Point values of change were …","metadata_modified":"2024-07-06T11:21:16.316471","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"09-streamwater-quality-assurance-sample-results-for-19-water-quality-constituents-in-2000-","title":"09: Streamwater quality assurance sample results for 19 water-quality constituents in 15 watersheds in Gwinnett County, Georgia for years 2000-2020","notes":"This dataset contains quality assurance sample concentrations for 19 constituents for the 15 monitored watersheds in Gwinnett County, Georgia, from 2000 to 2020. Samples include 431 replicate pairs and 335 field blanks. Replicate sampling allows for comparison of water quality to assess the combined variability in …","metadata_modified":"2024-07-06T09:27:20.892081","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"091-point-loma-ca-46227","title":"091 - Point Loma, CA (46227)","notes":"Timeseries data from '091 - Point Loma, CA (46227)' (edu_ucsd_cdip_091)","metadata_modified":"2024-08-27T05:10:18.304692","organization_title":"National Oceanic and Atmospheric Administration, Department of Commerce","publisher":null,"bureau_name":null},
	{"name":"092-san-pedro-ca-46222","title":"092 - San Pedro, CA (46222)","notes":"Timeseries data from '092 - San Pedro, CA (46222)' (edu_ucsd_cdip_092)","metadata_modified":"2024-08-27T05:13:01.017230","organization_title":"National Oceanic and Atmospheric Administration, Department of Commerce","publisher":null,"bureau_name":null},
	{"name":"093-mission-bay-offshore-ca-46231","title":"093 - Mission Bay Offshore, CA (46231)","notes":"Timeseries data from '093 - Mission Bay Offshore, CA (46231)' (edu_ucsd_cdip_093)","metadata_modified":"2024-08-27T03:16:05.910648","organization_title":"National Oceanic and Atmospheric Administration, Department of Commerce","publisher":null,"bureau_name":null},
	{"name":"094-cape-mendocino-ca-462131","title":"094 - Cape Mendocino, CA (46213)","notes":"Timeseries data from '094 - Cape Mendocino, CA (46213)' (edu_ucsd_cdip_094)","metadata_modified":"2024-08-27T03:32:09.903657","organization_title":"National Oceanic and Atmospheric Administration, Department of Commerce","publisher":null,"bureau_name":null},
	{"name":"09471143-walnut-gulch-below-ars-flume-6-near-tombstone-az-07-28-2017-continuous-slope-area","title":"09471143 - Walnut Gulch below ARS Flume 6, near Tombstone, AZ - 07/28/2017 Continuous Slope-Area","notes":"Continuous slope-area (CSA) sensors are installed at four cross sections downstream from Flume 6 operated by the Agricultural Research Service (ARS) at the Walnut Gulch Experimental Watershed. A flow event occurred on July 28, 2017. Stage data were recorded by submersible pressure transducers at each of the four cross …","metadata_modified":"2024-07-06T04:00:13.720944","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"09471143-walnut-gulch-below-ars-flume-6-near-tombstone-az-07-28-2017-flow-event-data","title":"09471143 - Walnut Gulch below ARS Flume 6, near Tombstone, AZ - 07/28/2017 Flow Event Data","notes":"The dataset consists of a slope-area computation of peak discharge (published via NWIS), stage data from continuous slope-area (CSA) sensors, CSA computations of discharge data, verified Manning's roughness coefficients (n), channel geometry and reach properties associated with Manning's n computations, and GPS survey …","metadata_modified":"2024-07-06T14:19:00.747676","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"09471143-walnut-gulch-below-ars-flume-6-near-tombstone-az-07-28-2017-mannings-n-verificati","title":"09471143 - Walnut Gulch below ARS Flume 6, near Tombstone, AZ - 07/28/2017 Manning's n Verification","notes":"Continuous slope-area (CSA) sensors are installed at four cross sections downstream from Flume 6 operated by the Agricultural Research Service (ARS) at the Walnut Gulch Experimental Watershed. Stage data were recorded by submersible pressure transducers at each of the four cross sections, which is used to compute …","metadata_modified":"2024-07-06T11:56:01.411978","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"09471143-walnut-gulch-below-ars-flume-6-near-tombstone-az-08-02-2017-gps-survey","title":"09471143 - Walnut Gulch below ARS Flume 6, near Tombstone, AZ - 08/02/2017 GPS Survey","notes":"Continuous slope-area sensors are installed at four cross sections downstream from Flume 6 operated by the Agricultural Research Service (ARS) at the Walnut Gulch Experimental Watershed. The CSA reach was installed to test the CSA method and determine channel roughness using the known discharge measured by Flume 6. A …","metadata_modified":"2024-07-06T06:55:41.570358","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"09471580-san-pedro-river-at-st-david-az-2018-07-10-gps-survey","title":"09471580 - San Pedro River at St David, AZ - 2018/07/10 GPS Survey","notes":"A GPS survey was conducted on July 10, 2018, to document the CSA pin elevations and cross section geometry at the CSA sensor locations at CSA 09471587 - Dragoon Wash above San Pedro River at St David, AZ, and CSA 09471588 - San Pedro River below Dragoon Wash at St David, AZ. Three CSA pin elevations and cross sections …","metadata_modified":"2024-07-06T14:27:36.566702","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"09471580-san-pedro-river-at-st-david-az-2019-06-12-gps-survey","title":"09471580 - San Pedro River at St David, AZ - 2019/06/12 GPS Survey","notes":"A GPS survey was conducted on June 12, 2019, to document the cross section geometry at the streamgage 09471580 - San Pedro River at St David, AZ, and CSA pin elevations and cross section geometry at the CSA sensor locations at CSA 09471588 - San Pedro River below Dragoon Wash at St David, AZ. One cross section was …","metadata_modified":"2024-07-06T10:42:22.331979","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"09471580-san-pedro-river-at-st-david-az-2019-12-05-gps-survey","title":"09471580 - San Pedro River at St David, AZ - 2019/12/05 GPS Survey","notes":"The dataset contains data from a GPS survey conducted after a flow event on November 29, 2019, at the USGS streamgage 09471580 - San Pedro River at St David, AZ. The survey, conducted on December 5, 2019, documents cross section geometry and high-water marks from the flow event in the reach downstream from the gage. …","metadata_modified":"2024-07-06T19:16:08.043587","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"09471580-san-pedro-river-at-st-david-az-2020-10-14-and-2020-12-08-gps-surveys","title":"09471580 - San Pedro River at St David, AZ - 2020/10/14 and 2020/12/08 GPS Surveys","notes":"The dataset contains data from two GPS surveys conducted after a flow event on September 8, 2020, at the USGS streamgage 09471580 - San Pedro River at St David, AZ. The first survey, conducted on October 14, 2020, documents CSA cross section geometry, CSA pin elevations, and high-water marks at CSA cross sections from …","metadata_modified":"2024-07-06T08:12:11.268823","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"09471580-san-pedro-river-at-st-david-az-2020-10-14-terrestrial-lidar-data","title":"09471580 - San Pedro River at St David, AZ - 2020/10/14 Terrestrial Lidar Data","notes":"This is a terrestrial LiDAR laser scanner dataset collected on October 14, 2020, in response to a flow event that occurred on September 8, 2020, at the USGS streamgage 09471580 - San Pedro River at St David, AZ. The reach scanned for this study is located at the bridge where State Route 80 crosses the waterway. A …","metadata_modified":"2024-07-06T18:29:43.569223","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"09484201-bear-creek-above-bear-canyon-road-near-tucson-az-2019-02-15-gps-survey","title":"09484201 - Bear Creek above Bear Canyon Road, near Tucson, AZ - 2019/02/15 GPS Survey","notes":"The dataset contains GPS survey data from two surveys conducted after a flow event on February 15, 2019, at the USGS continuous slope-area (CSA) gage 09484201 - Bear Creek above Bear Canyon Road, near Tucson, AZ. The CSA gage is located downstream from Pima County Regional Flood Control District ALERT gage 2184 - Bear …","metadata_modified":"2024-07-06T10:42:55.105045","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"09487000-brawley-wash-near-three-points-az-2018-09-19-gps-survey","title":"09487000 - Brawley Wash near Three Points, AZ - 2018/09/19 GPS Survey","notes":"The dataset contains GPS survey data from two surveys conducted after a flow event on September 19, 2018, at the USGS streamgage 09487000 - Brawley Wash near Three Points, AZ. The first survey, on October 1, 2018, documents cross section geometry and high-water marks from the flow event in the reach downstream from …","metadata_modified":"2024-07-06T14:20:04.006108","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"095-point-la-jolla-ca-462261","title":"095 - Point La Jolla, CA (46226)","notes":"Timeseries data from '095 - Point La Jolla, CA (46226)' (edu_ucsd_cdip_095)","metadata_modified":"2024-08-26T21:45:23.279031","organization_title":"National Oceanic and Atmospheric Administration, Department of Commerce","publisher":null,"bureau_name":null},
	{"name":"096-dana-point-ca-46223","title":"096 - Dana Point, CA (46223)","notes":"Timeseries data from '096 - Dana Point, CA (46223)' (edu_ucsd_cdip_096)","metadata_modified":"2024-08-27T06:48:08.727079","organization_title":"National Oceanic and Atmospheric Administration, Department of Commerce","publisher":null,"bureau_name":null},
	{"name":"1-0-second-spectral-response-acceleration-5-of-critical-damping-with-a-1-probability-of-ex","title":"1.0-second spectral response acceleration (5% of critical damping) with a 1% probability of exceedance in 1 year","notes":"A one-year seismic hazard forecast for the Central and Eastern United States, based on induced and natural  earthquakes, has been produced by the U.S. Geological Survey.  The model assumes that earthquake rates calculated from several different time windows will remain relatively stationary and can be used to forecast …","metadata_modified":"2024-07-06T11:45:22.051766","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"1-0-second-spectral-response-acceleration-5-of-critical-damping-with-a-1-probability-of-ex-59470","title":"1.0-second spectral response acceleration (5% of critical damping) with a 1% probability of exceedance in 1 year","notes":"A one-year seismic hazard forecast for the Central and Eastern United States, based on induced and natural  earthquakes, has been produced by the U.S. Geological Survey.  The model assumes that earthquake rates calculated from several different time windows will remain relatively stationary and can be used to forecast …","metadata_modified":"2024-07-06T03:57:07.512611","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"1-0-second-spectral-response-acceleration-5-of-critical-damping-with-a-1-probability-of-ex-7e6b4","title":"1.0-second spectral response acceleration (5% of critical damping) with a 1% probability of exceedance in 1 year","notes":"A one-year seismic hazard forecast for the Central and Eastern United States, based on induced and natural  earthquakes, has been produced by the U.S. Geological Survey.  The model assumes that earthquake rates calculated from several different time windows will remain relatively stationary and can be used to forecast …","metadata_modified":"2024-07-06T14:13:21.617723","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"1-0-second-spectral-response-acceleration-5-of-critical-damping-with-a-1-probability-of-ex-a0d54","title":"1.0-second spectral response acceleration (5% of critical damping) with a 1% probability of exceedance in 1 year","notes":"A one-year seismic hazard forecast for the Central and Eastern United States, based on induced and natural  earthquakes, has been produced by the U.S. Geological Survey.  The model assumes that earthquake rates calculated from several different time windows will remain relatively stationary and can be used to forecast …","metadata_modified":"2024-07-06T13:19:29.584468","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"1-0-second-spectral-response-acceleration-5-of-critical-damping-with-a-10-probability-of-e","title":"1.0-second spectral response acceleration (5% of critical damping) with a 10% probability of exceedance in 50 years","notes":"A seismic hazard model for South America, based on a smoothed (gridded) seismicity model, a subduction model, a crustal fault model, and a ground motion model, has been produced by the U.S. Geological Survey.  These models are combined to account for ground shaking from earthquakes on known faults as well as …","metadata_modified":"2024-07-06T13:41:13.129070","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"1-0-second-spectral-response-acceleration-5-of-critical-damping-with-a-2-probability-of-ex","title":"1.0-second spectral response acceleration (5% of critical damping) with a 2% probability of exceedance in 50 years","notes":"A seismic hazard model for South America, based on a smoothed (gridded) seismicity model, a subduction model, a crustal fault model, and a ground motion model, has been produced by the U.S. Geological Survey.  These models are combined to account for ground shaking from earthquakes on known faults as well as …","metadata_modified":"2024-07-06T11:53:08.822840","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"1-0-second-spectral-response-acceleration-5-of-critical-damping-with-a-50-probability-of-e","title":"1.0-second spectral response acceleration (5% of critical damping) with a 50% probability of exceedance in 50 years","notes":"A seismic hazard model for South America, based on a smoothed (gridded) seismicity model, a subduction model, a crustal fault model, and a ground motion model, has been produced by the U.S. Geological Survey.  These models are combined to account for ground shaking from earthquakes on known faults as well as …","metadata_modified":"2024-07-06T07:15:02.901260","organization_title":"Department of the Interior","publisher":"U.S. Geological Survey","bureau_name":"United States Geological Survey"},
	{"name":"1-01-als-response-time-2012-945de","title":"1.01 ALS Response Time (2012)","notes":"<p>The Tempe Fire Medical Rescue Department (TFMR) is an “all hazards” department that responds to all types of calls for service. Advanced Life Support (ALS) is an advanced set of life supporting procedures that go further than Basic Life Support (BLS) to assist the ill or injured with breathing, blood circulation, …","metadata_modified":"2024-09-20T18:49:46.872136","organization_title":"City of Tempe","publisher":"City of Tempe","bureau_name":null},
	{"name":"1-01-als-response-time-2013-83155","title":"1.01 ALS Response Time (2013)","notes":"<p>The Tempe Fire Medical Rescue Department (TFMR) is an “all hazards” department that responds to all types of calls for service. Advanced Life Support (ALS) is an advanced set of life supporting procedures that go further than Basic Life Support (BLS) to assist the ill or injured with breathing, blood circulation, …","metadata_modified":"2024-09-20T18:49:46.943332","organization_title":"City of Tempe","publisher":"City of Tempe","bureau_name":null},
	{"name":"1-01-als-response-time-2014-11d05","title":"1.01 ALS Response Time (2014)","notes":"<p>The Tempe Fire Medical Rescue Department (TFMR) is an “all hazards” department that responds to all types of calls for service. Advanced Life Support (ALS) is an advanced set of life supporting procedures that go further than Basic Life Support (BLS) to assist the ill or injured with breathing, blood circulation, …","metadata_modified":"2024-09-20T18:49:50.218434","organization_title":"City of Tempe","publisher":"City of Tempe","bureau_name":null},
	{"name":"1-01-als-response-time-2015-3d51c","title":"1.01 ALS Response Time (2015)","notes":"<p>The Tempe Fire Medical Rescue Department (TFMR) is an “all hazards” department that responds to all types of calls for service. Advanced Life Support (ALS) is an advanced set of life supporting procedures that go further than Basic Life Support (BLS) to assist the ill or injured with breathing, blood circulation, …","metadata_modified":"2024-09-20T18:49:55.081459","organization_title":"City of Tempe","publisher":"City of Tempe","bureau_name":null},
	{"name":"1-01-als-response-time-2016-8dde6","title":"1.01 ALS Response Time (2016)","notes":"<p>The Tempe Fire Medical Rescue Department (TFMR) is an “all hazards” department that responds to all types of calls for service. Advanced Life Support (ALS) is an advanced set of life supporting procedures that go further than Basic Life Support (BLS) to assist the ill or injured with breathing, blood circulation, …","metadata_modified":"2024-09-20T18:49:55.140458","organization_title":"City of Tempe","publisher":"City of Tempe","bureau_name":null},
	{"name":"1-01-als-response-time-2017-98cfc","title":"1.01 ALS Response Time (2017)","notes":"<p>The Tempe Fire Medical Rescue Department (TFMR) is an “all hazards” department that responds to all types of calls for service. Advanced Life Support (ALS) is an advanced set of life supporting procedures that go further than Basic Life Support (BLS) to assist the ill or injured with breathing, blood circulation, …","metadata_modified":"2024-09-20T18:49:55.170324","organization_title":"City of Tempe","publisher":"City of Tempe","bureau_name":null},
	{"name":"1-01-als-response-time-2018-a00c4","title":"1.01 ALS Response Time (2018)","notes":"<div>The Tempe Fire Medical Rescue Department (TFMR) is an “all hazards” department that responds to all types of calls for service. Advanced Life Support (ALS) is an advanced set of life supporting procedures that go further than Basic Life Support (BLS) to assist the ill or injured with breathing, blood circulation, …","metadata_modified":"2024-09-20T18:49:15.182526","organization_title":"City of Tempe","publisher":"City of Tempe","bureau_name":null},
	{"name":"1-01-als-response-time-2020","title":"1.01 ALS Response Time (2020)","notes":"<div>The Tempe Fire Medical Rescue Department (TFMR) is an “all hazards” department that responds to all types of calls for service. Advanced Life Support (ALS) is an advanced set of life supporting procedures that go further than Basic Life Support (BLS) to assist the ill or injured with breathing, blood circulation, …","metadata_modified":"2024-09-20T18:49:10.654321","organization_title":"City of Tempe","publisher":"City of Tempe","bureau_name":null},
	{"name":"1-01-als-response-time-2021","title":"1.01 ALS Response Time (2021)","notes":"<div>The Tempe Fire Medical Rescue Department (TFMR) is an “all hazards” department that responds to all types of calls for service. Advanced Life Support (ALS) is an advanced set of life supporting procedures that go further than Basic Life Support (BLS) to assist the ill or injured with breathing, blood circulation, …","metadata_modified":"2024-09-20T18:49:10.668052","organization_title":"City of Tempe","publisher":"City of Tempe","bureau_name":null},
	{"name":"1-01-als-response-time-2022","title":"1.01 ALS Response Time (2022)","notes":"<div>The Tempe Fire Medical Rescue Department (TFMR) is an “all hazards” department that responds to all types of calls for service. Advanced Life Support (ALS) is an advanced set of life supporting procedures that go further than Basic Life Support (BLS) to assist the ill or injured with breathing, blood circulation, …","metadata_modified":"2024-09-20T18:48:24.186352","organization_title":"City of Tempe","publisher":"City of Tempe","bureau_name":null},
	{"name":"1-01-als-response-time-2023","title":"1.01 ALS Response Time (2023)","notes":"<div>Data is based on calls received by the Phoenix 911 system and given an Advanced Life Support (ALS) response code, indicating the nature of the call. </div><div><br /></div><div>Alarm Processing Time is calculated from the time Phoenix 911 answers the call to the time Phoenix 911 notifies a Fire department Unit. …","metadata_modified":"2024-09-20T18:46:48.199684","organization_title":"City of Tempe","publisher":"City of Tempe","bureau_name":null},
	{"name":"1-01-als-response-time-summary","title":"1.01 ALS Response Time (summary)","notes":"This table provides summary data representing annual averages for Advanced Life Support (ASL) response time. The data shows the average performance across the entire calendar year for response time less than or equal to 7 minutes.<br /><br />Data is based on calls received by the Phoenix 911 system and given an …","metadata_modified":"2024-11-15T19:41:12.893933","organization_title":"City of Tempe","publisher":"City of Tempe","bureau_name":null}
]
