OGC:WMS
Pacific Islands Ocean Observing System (PacIOOS) WMS
Data from the Pacific Islands Ocean Observing System (PacIOOS) of the School of Ocean and Earth Science and Technology (SOEST) at the University of Hawaii. PacIOOS is one of eleven regional observing programs in the U.S. supporting the Integrated Ocean Observing System (IOOS). The PacIOOS region includes the U.S. Pacific Region (Hawaii, Guam, American Samoa, Commonwealth of the Northern Mariana Islands), the Pacific nations in Free Association with the U.S. (Republic of the Marshall Islands, Federated States of Micronesia, Republic of Palau), and the U.S. Minor Outlying Islands (Howland, Baker, Johnston, Jarvis, Kingman, Palmyra, Midway, Wake). These data are served using GeoServer in a variety of interoperable data services and output formats: http://geo.pacioos.hawaii.edu/geoserver/. See http://geoserver.org for further documentation; and GeoServer's WFS documentation at: http://docs.geoserver.org/latest/en/user/services/wms/. Please note that cached versions of many of these map layers exist in our GeoServer via GeoWebCache using WMS-C. This would be the preferred method of accessing some of the larger data layers for improved access speeds: http://geo.pacioos.hawaii.edu/geoserver/gwc/service/wms?request=GetCapabilities&version=1.1.1&tiled=true. Use of WMS-C is similar to traditional WMS but with the addition of the "tiled=true" parameter, which triggers GeoServer to pull map tiles from GeoWebCache if they have been previously generated. Lastly, GeoExplorer can be used to view these layers online at http://geo.pacioos.hawaii.edu/geoexplorer/.
WMS
PacIOOS
IOOS
ocean observing
Pacific
US Affiliated Territories
GeoServer
GeoWebCache
Pacific Islands Ocean Observing System (PacIOOS)
Pacific Islands Ocean Observing System (PacIOOS)
Work
University of Hawaii at Manoa, POST Building, Room 815
Honolulu
HI
96822
USA
+18089566556
+18089565308
info@pacioos.org
NONE
NONE
application/vnd.ogc.wms_xml
image/png
application/atom xml
application/atom+xml
application/openlayers
application/pdf
application/rss xml
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application/vnd.google-earth.kml
application/vnd.google-earth.kml xml
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atom
image/geotiff
image/geotiff8
image/gif
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image/svg xml
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image/tiff8
kml
kmz
openlayers
rss
text/plain
application/vnd.ogc.gml
application/vnd.ogc.gml/3.1.1
text/html
text/javascript
application/json
application/vnd.ogc.wms_xml
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image/jpeg
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application/vnd.ogc.sld+xml
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Pacific Islands Ocean Observing System (PacIOOS) WMS
Data from the Pacific Islands Ocean Observing System (PacIOOS) of the School of Ocean and Earth Science and Technology (SOEST) at the University of Hawaii. PacIOOS is one of eleven regional observing programs in the U.S. supporting the Integrated Ocean Observing System (IOOS). The PacIOOS region includes the U.S. Pacific Region (Hawaii, Guam, American Samoa, Commonwealth of the Northern Mariana Islands), the Pacific nations in Free Association with the U.S. (Republic of the Marshall Islands, Federated States of Micronesia, Republic of Palau), and the U.S. Minor Outlying Islands (Howland, Baker, Johnston, Jarvis, Kingman, Palmyra, Midway, Wake). These data are served using GeoServer in a variety of interoperable data services and output formats: http://geo.pacioos.hawaii.edu/geoserver/. See http://geoserver.org for further documentation; and GeoServer's WFS documentation at: http://docs.geoserver.org/latest/en/user/services/wms/. Please note that cached versions of many of these map layers exist in our GeoServer via GeoWebCache using WMS-C. This would be the preferred method of accessing some of the larger data layers for improved access speeds: http://geo.pacioos.hawaii.edu/geoserver/gwc/service/wms?request=GetCapabilities&version=1.1.1&tiled=true. Use of WMS-C is similar to traditional WMS but with the addition of the "tiled=true" parameter, which triggers GeoServer to pull map tiles from GeoWebCache if they have been previously generated. Lastly, GeoExplorer can be used to view these layers online at http://geo.pacioos.hawaii.edu/geoexplorer/.
EPSG:32655
EPSG:32702
EPSG:3857
EPSG:4326
EPSG:900913
hi_csp_hono_allflood_slr1m
Multi-Hazard Inundation With 1-m Sea Level Rise: Honolulu, Hawaii
Multi-hazard inundation around Honolulu, Hawaii resulting from future sea level rise. The study area includes the urban corridor stretching from Honolulu International Airport to Waikiki and Diamond Head along the south shore of Oahu. Shows inundation from the following three hazards:
1) Sea Level Rise Inundation: 1-m Scenario
Coastal flooding due to 1 meter of sea level rise. This scenario was derived using a National Geospatial Agency (NGA)-provided digital elevation model (DEM) based on LiDAR data of the Honolulu area collected in 2009. This "bare earth" DEM (vegetation and structures removed) was used to represent the current topography of the study area. The accuracy of the DEM was validated using a selection of 16 Tidal Benchmarks located within the study area. The single value tidal water surface of mean higher high water (MHHW) modeled at the Honolulu tide gauge was used to represent sea level for the purposes of this study. Water levels are shown as they would appear during the highest high tides (excluding wind-driven tides).
2) Tsunami Run-Up Inundation With 1-m Sea Level Rise
Computer model simulation of tsunami run-up inundation including one meter of sea level rise at mean higher high water (MHHW) as its baseline water level. The model simulates maximum inundation based on five major historical tsunamis that have impacted Hawaii: 1) The 1946 Aleutian earthquake (8.2 Mw), 2) 1952 Kamchatka earthquake (9.0 Mw), 3) 1957 Aleutian earthquake (8.6 Mw), 4) 1960 Chile earthquake (9.5 Mw), and 5) the 1964 Alaska earthquake (9.2 Mw).
3) Hurricane Storm Surge Inundation With 1-m Sea Level Rise
Computer model simulation of hurricane storm surge inundation including one meter of sea level rise at mean higher high water (MHHW) as its baseline water level. The model simulates a Category 4 hurricane, similar to Hurricane Iniki which devastated the island of Kauai in 1992, with a central pressure ranging from 910 to 970 mbar and maximum sustained winds ranging from 90 to 150 mph as it tracked from open ocean to land to open ocean again. The model result shows the Maximum of the Maximum Envelope of High Water (MEOW), or MOM, providing a worst-case snapshot for a particular storm category under "perfect" storm conditions.
Data produced in 2014 by Dr. Charles "Chip" Fletcher of the department of Geology & Geophysics (G&G) (1) and Dr. Kwok Fai Cheung of the department of Ocean and Resources Engineering (ORE) (2 & 3) in the School of Ocean and Earth Science and Technology (SOEST) of the University of Hawaii at Manoa. Supported in part by the NOAA Coastal Storms Program (CSP) and the University of Hawaii Sea Grant College Program. These data do not consider future changes in coastal geomorphology and natural processes such as erosion, subsidence, or future construction. These data do not specify timing of inundation depths and are not appropriate for conducting detailed spatial analysis. The entire risk associated with the results and performance of these data is assumed by the user. These data should be used strictly as a planning reference and not for navigation, permitting, or other legal purposes.
Earth Science > Atmosphere > Atmospheric Phenomena > Hurricanes
Earth Science > Climate Indicators > Atmospheric/Ocean Indicators > Sea Level Rise > Inundation
Earth Science > Human Dimensions > Natural Hazards > Tropical Cyclones > Hurricanes
Earth Science > Human Dimensions > Natural Hazards > Tsunamis
Earth Science > Oceans > Coastal Processes > Storm Surge
Earth Science > Oceans > Ocean Waves > Tsunamis
Earth Science Services > Models > Ocean General Circulation Models (OGCM)/Regional Ocean Models
Earth Science Services > Models > Weather Research/Forecast Models
Earth Science > Oceans > Coastal Processes > Sea Level Rise
Continent > North America > United States Of America > Hawaii
Ocean > Pacific Ocean > Central Pacific Ocean > Hawaiian Islands > Oahu > Honolulu
climatologyMeteorologyAtmosphere
oceans
inlandWaters
geoscientificInformation
EPSG:4326
University of Hawaii Sea Grant College Program