@prefix dcat: <http://www.w3.org/ns/dcat#> .
@prefix dct: <http://purl.org/dc/terms/> .
@prefix foaf: <http://xmlns.com/foaf/0.1/> .
@prefix gsp: <http://www.opengis.net/ont/geosparql#> .
@prefix locn: <http://www.w3.org/ns/locn#> .
@prefix vcard: <http://www.w3.org/2006/vcard/ns#> .
@prefix xsd: <http://www.w3.org/2001/XMLSchema#> .

<https://data.amerigeoss.org/dataset/61ac3e39-415d-45d9-baa7-585a9856ae58> a dcat:Dataset ;
    dct:description " Goals & Objectives   The objective of this project is to identify programs and   research and development projects that improve the ability   of responders to deal with accidental oil spills in fresh or   salt-water marine environments where there is ice. This   includes spills that occur on top of or underneath solid,   stable ice extending out from shore (land-fast), into an   area of drifting ice floes (pack ice), or onto an ice-covered   shoreline.   Oil spills in ice are a subject of great concern to corporations,   local residents, and government agencies participating   in oil exploration, production, and transportation.   Currently, areas that are of special concern are Cook Inlet,   the Beaufort Sea (including the North Slope of Alaska),   Sakhalin Island offshore, and the Norwegian Barents,   Baltic, and Caspian seas. As reserves are depleted in more   accessible areas, cold frontier regions will increasingly   receive attention in the areas of exploration and production.   In most areas of the world, the greatest need is to   develop a credible and effective response to oil that has   been spilled in moving, broken pack ice in the ocean,   lakes or rivers. Practical response strategies are, in most   cases, already available to deal with spills in a stable,   fast-ice environment. A notable exception involves the   lack of operational tools to detect or map oil in any ice type.  " ;
    dct:identifier "61ac3e39-415d-45d9-baa7-585a9856ae58" ;
    dct:issued "2025-11-25T21:48:44.300256"^^xsd:dateTime ;
    dct:modified "2025-11-25T21:48:44.300260"^^xsd:dateTime ;
    dct:publisher <https://data.amerigeoss.org/organization/b9d8e33f-c3b6-404c-b260-b928137f5a39> ;
    dct:spatial [ a dct:Location ;
            locn:geometry "MULTIPOLYGON (((-176.9411 51.5830, -177.9103 51.5905, -178.1034 51.6633, -178.2176 51.8752, -171.7392 63.7888, -166.8308 68.3501, -166.2350 68.8743, -161.9558 70.3030, -159.6715 70.7975, -156.4857 71.4062, -143.2834 70.1182, -142.5955 70.0040, -141.0057 69.6422, -130.0903 56.1178, -130.0168 55.9089, -129.9922 55.2814, -130.3614 54.9077, -130.5886 54.7935, -130.6878 54.7616, -176.9411 51.5830)))"^^gsp:wktLiteral ] ;
    dct:title "Advancing Oil Spill Response in Ice Covered Waters" ;
    dcat:contactPoint [ a vcard:Organization ;
            vcard:fn "Chad Rowan" ] ;
    dcat:distribution <https://data.amerigeoss.org/dataset/61ac3e39-415d-45d9-baa7-585a9856ae58/resource/4e443734-6fe8-4070-af04-46560092480e> ;
    dcat:keyword "accidental-spills",
        "amerigeo",
        "amerigeoss",
        "arctic",
        "ckan",
        "edx",
        "energy",
        "energy-data-exchange",
        "geo",
        "geoss",
        "global",
        "ice-covered-waters",
        "marine",
        "neba",
        "net-environmental-benefit-analysis",
        "oil",
        "oil-in-ice",
        "resource",
        "response",
        "salt-water-marine-environments",
        "soil-drops",
        "spill",
        "white-paper" .

<https://data.amerigeoss.org/dataset/61ac3e39-415d-45d9-baa7-585a9856ae58/resource/4e443734-6fe8-4070-af04-46560092480e> a dcat:Distribution ;
    dct:description " Goals & Objectives   The objective of this project is to identify programs and   research and development projects that improve the ability   of responders to deal with accidental oil spills in fresh or   salt-water marine environments where there is ice. This   includes spills that occur on top of or underneath solid,   stable ice extending out from shore (land-fast), into an   area of drifting ice floes (pack ice), or onto an ice-covered   shoreline.   Oil spills in ice are a subject of great concern to corporations,   local residents, and government agencies participating   in oil exploration, production, and transportation.   Currently, areas that are of special concern are Cook Inlet,   the Beaufort Sea (including the North Slope of Alaska),   Sakhalin Island offshore, and the Norwegian Barents,   Baltic, and Caspian seas. As reserves are depleted in more   accessible areas, cold frontier regions will increasingly   receive attention in the areas of exploration and production.   In most areas of the world, the greatest need is to   develop a credible and effective response to oil that has   been spilled in moving, broken pack ice in the ocean,   lakes or rivers. Practical response strategies are, in most   cases, already available to deal with spills in a stable,   fast-ice environment. A notable exception involves the   lack of operational tools to detect or map oil in any ice type.  " ;
    dct:format "HTML" ;
    dct:issued "2013-01-10T10:56:14"^^xsd:dateTime ;
    dct:modified "2025-11-25T21:48:44.286191"^^xsd:dateTime ;
    dcat:accessURL <http://www.arctic.gov/publications/other/oil_in_ice.html> .

<https://data.amerigeoss.org/organization/b9d8e33f-c3b6-404c-b260-b928137f5a39> a foaf:Agent ;
    foaf:name "Energy Data Exchange" .