Resource Base List
API endpoint that allows base resources to be viewed or edited.
GET /api/v2/resources?format=api&page=4
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For more information visit: unstats.un.org/sdgs/indicators/database/", "raw_data_quality_statement": "/", "metadata_only": false, "thumbnail_url": "http://ihp-wins.unesco.org/uploaded/thumbs/layer-981539de-e6f2-11e6-8719-005056bf7531-thumb.png?v=768bb7e1" }, { "pk": "1143", "uuid": "2ef33ea4-4e09-11e8-a93b-005056062634", "resource_type": "layer", "polymorphic_ctype_id": "51", "owner": { "pk": 1275, "username": "adrian.barranco-fabre", "first_name": "Adrian", "last_name": "Barranco-Fabre", "avatar": "/static/avatars/adrian.barranco-fabre/resized/240/20180224_163631.d97d0775e6c3.jpg" }, "poc": { "pk": 1275, "username": "adrian.barranco-fabre", "first_name": "Adrian", "last_name": "Barranco-Fabre", "avatar": "/static/avatars/adrian.barranco-fabre/resized/240/20180224_163631.d97d0775e6c3.jpg" }, "metadata_author": { "pk": 1275, "username": "adrian.barranco-fabre", "first_name": "Adrian", "last_name": "Barranco-Fabre", "avatar": "/static/avatars/adrian.barranco-fabre/resized/240/20180224_163631.d97d0775e6c3.jpg" }, "keywords": [ { "name": "Basin", "slug": "basin" }, { "name": "Drinking water", "slug": "Drinking_water" }, { "name": "Human settlements", "slug": "Humansettlements" }, { "name": "Pollution", "slug": "pollution" }, { "name": "Supply", "slug": "Supply" }, { "name": "Surface water", "slug": "Surfacewater" } ], "regions": [ { "code": "GLO", "name": "Global" } ], "category": { "identifier": "Water for human settlements" }, "title": "Phosphorus Yield (kg/km2/year)", "abstract": "In cases were the watersheds are exploited for intensive agricultural purposes, as consequence the fertilizer concentration increase. Thus, the fertilizer filters into the water and rise the accumulation of common nutrients, phosphorus and nitrogen, affecting their proper cycle. Around 384 million urbanities receive their drinking water from watersheds with high nutrient pollution. \r\nFor more information, access the Urban Water Blueprint report here: http://www.iwa-network.org/wp-content/uploads/2016/06/Urban-Water-Blueprint-Report.pdf\r\nYou can also visit the Urban Water Blueprint website here: http://water.nature.org/waterblueprint/#/intro=true", "attribution": null, "doi": null, "alternate": "geonode:PYieldCalibrated_NC6", "bbox_polygon": { "type": "Polygon", "coordinates": [ [ [ -149.8921253, -43.52765168 ], [ -149.8921253, 61.21766954 ], [ 174.7646444, 61.21766954 ], [ 174.7646444, -43.52765168 ], [ -149.8921253, -43.52765168 ] ] ] }, "ll_bbox_polygon": null, "srid": "EPSG:4326", "date": "2018-11-30T14:24:00Z", "date_type": "publication", "edition": "McDonald, R.I. & D. Shemie (2014). Urban Water Blueprint: Mapping conservation solutions to the global water challenge. The Nature Conservancy: Washington, D.C.", "purpose": "", "maintenance_frequency": null, "restriction_code_type": null, "constraints_other": "Unless otherwise specified, no restriction applies.", "license": { "identifier": "not_specified" }, "language": "eng", "spatial_representation_type": { "identifier": "vector" }, "temporal_extent_start": "2015-01-01T14:03:00Z", "temporal_extent_end": "2015-12-31T14:03:00Z", "supplemental_information": "The Urban Water Blueprint analyzes the state of water in more than 2000 watersheds and 530 cities worldwide to provide science-based recommendations for natural solutions that can be integrated alongside traditional infrastructure to improve water quality. \r\nThe Urban Water Blueprint has continued to improve its scientific analysis over time, correcting reported errors and improving its methodology.", "data_quality_statement": "Updated results are not reflected in the report or website. Anyone considering using the results for analysis or decision-making should contact the Urban Water Blueprint at water@tnc.org to obtain the most current estimates.", "group": { "pk": 72, "name": "IHP-Theme4-Water-for-settlements" }, "popular_count": "233", "share_count": "0", "rating": "0", "featured": true, "is_published": true, "is_approved": true, "detail_url": "/layers/datastore:geonode:PYieldCalibrated_NC6", "embed_url": "/layers/geonode:PYieldCalibrated_NC6/embed", "created": "2020-02-11T11:06:45.204622Z", "last_updated": "2021-02-19T14:30:12.894695Z", "raw_abstract": "In cases were the watersheds are exploited for intensive agricultural purposes, as consequence the fertilizer concentration increase. Thus, the fertilizer filters into the water and rise the accumulation of common nutrients, phosphorus and nitrogen, affecting their proper cycle. Around 384 million urbanities receive their drinking water from watersheds with high nutrient pollution. 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Anyone considering using the results for analysis or decision-making should contact the Urban Water Blueprint at water@tnc.org to obtain the most current estimates.", "metadata_only": false, "thumbnail_url": "http://ihp-wins.unesco.org/uploaded/thumbs/layer-2ef33ea4-4e09-11e8-a93b-005056062634-thumb.png?v=7e9d08de" }, { "pk": "355", "uuid": "83dee974-ebc0-11e6-8719-005056bf7531", "resource_type": "document", "polymorphic_ctype_id": "59", "owner": { "pk": 24, "username": "Marina.Rubio", "first_name": "Marina", "last_name": "Rubio", "avatar": "/static/avatars/Marina.Rubio/resized/240/foto Marina.59bee6915e54.jpg" }, "poc": { "pk": 24, "username": "Marina.Rubio", "first_name": "Marina", "last_name": "Rubio", "avatar": "/static/avatars/Marina.Rubio/resized/240/foto Marina.59bee6915e54.jpg" }, "metadata_author": { "pk": 24, "username": "Marina.Rubio", "first_name": "Marina", "last_name": "Rubio", "avatar": "/static/avatars/Marina.Rubio/resized/240/foto Marina.59bee6915e54.jpg" }, "keywords": [ { "name": "Climate change", "slug": "climatechange" }, { "name": "Groundwater", "slug": "groundwater" }, { "name": "SIDS", "slug": "sids" } ], "regions": [ { "code": "GLO", "name": "Global" } ], "category": { "identifier": "Groundwater" }, "title": "GRAPHIC - Eaux souterraines et changement climatique - Petits États insulaires en développement (PEID)", "abstract": "Le présent document a pour but de résumer (i) l’état actuel des eaux souterraines des PEID, \r\n(ii) les impacts que le changement climatique peut avoir sur ces eaux souterraines, et (iii) l’importance que revêtent les eaux souterraines dans l’atténuation des effets des changements climatiques et l’adaptation à ses effets dans ces pays. Des études menées par GRAPHIC sur les PEID y sont présentées, notamment dans le Pacifique, dans les Caraïbes et dans d’autres régions du globe. Ce document fait partie d’une série de publications GRAPHIC qui font suite au document de synthèse GRAPHIC publié en 2015.", "attribution": null, "doi": "10.29104/WINS.D.0211.2018", "alternate": null, "bbox_polygon": { "type": "Polygon", "coordinates": [ [ [ -180.0, -90.0 ], [ -180.0, 90.0 ], [ 180.0, 90.0 ], [ 180.0, -90.0 ], [ -180.0, -90.0 ] ] ] }, "ll_bbox_polygon": { "type": "Polygon", "coordinates": [ [ [ -180.0, -90.0 ], [ -180.0, 90.0 ], [ 180.0, 90.0 ], [ 180.0, -90.0 ], [ -180.0, -90.0 ] ] ] }, "srid": "4326", "date": "2017-02-05T16:31:00Z", "date_type": "publication", "edition": "UNESCO-IHP (2015). GRAPHIC - Eaux souterraines et changement climatique - Petits États insulaires en développement (PEID). 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Data were collected in the framework of the DIKTAS project.\r\n\r\nFor more information, visit the DIKTAS project website: http://diktas.iwlearn.org/resources/projectdocuments/transboundart-diagniostics-analysis/transboundary-diagnostic-analysis-tda/view", "attribution": null, "doi": null, "alternate": "geonode:rivers_and_streams_polylines_all_ese1", "bbox_polygon": { "type": "Polygon", "coordinates": [ [ [ 13.528042810000045, 39.93926352600005 ], [ 13.528042810000045, 45.64717245500009 ], [ 20.916330815000038, 45.64717245500009 ], [ 20.916330815000038, 39.93926352600005 ], [ 13.528042810000045, 39.93926352600005 ] ] ] }, "ll_bbox_polygon": null, "srid": "EPSG:4326", "date": "2017-03-08T23:00:00Z", "date_type": "publication", "edition": "UNESCO-IHP (2013). DIKTAS Transboundary Diagnostic Analysis. Paris, France: UNESCO", "purpose": "", "maintenance_frequency": null, "restriction_code_type": null, "constraints_other": "Unless otherwise specified, no restriction applies.", "license": { "identifier": "not_specified" }, "language": "eng", "spatial_representation_type": null, "temporal_extent_start": null, "temporal_extent_end": null, "supplemental_information": "This Transboundary Diagnostic Analysis (TDA) was conducted in the framework of a project 'Protection and Sustainable Use of the Dinaric Karst Transboundary Aquifer System (DIKTAS). The DIKTAS project is a regional project that is aimed improving the management of karst groundwaters contained in the Dinaric Karst and shared by several countries in South-Eastern Europe.", "data_quality_statement": "", "group": { "pk": 74, "name": "IHP-Theme6-Water-education" }, "popular_count": "737", "share_count": "0", "rating": "0", "featured": false, "is_published": true, "is_approved": true, "detail_url": "/layers/rivers_and_streams_polylines_all_ese1:geonode:rivers_and_streams_polylines_all_ese1", "embed_url": "/layers/geonode:rivers_and_streams_polylines_all_ese1/embed", "created": "2020-02-11T11:06:45.204622Z", "last_updated": "2021-02-19T14:30:12.364206Z", "raw_abstract": "This layer shows rivers and streams in the Dinaric Alps region. Data were collected in the framework of the DIKTAS project. 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Governance of Groundwater Resources in Transboundary Aquifers (GGRETA) - Phase 1", "abstract": "This report presents the activities and results of the assessment activities of the Stampriet Transboundary Aquifer System (Botswana, Namibia, South Africa) undertaken during the Phase 1 (2013-2015) of the GGRETA project.", "attribution": null, "doi": "10.29104/WINS.D.0040.2018", "alternate": "", "bbox_polygon": { "type": "Polygon", "coordinates": [ [ [ -180.0, -90.0 ], [ -180.0, 90.0 ], [ 180.0, 90.0 ], [ 180.0, -90.0 ], [ -180.0, -90.0 ] ] ] }, "ll_bbox_polygon": { "type": "Polygon", "coordinates": [ [ [ -180.0, -90.0 ], [ -180.0, 90.0 ], [ 180.0, 90.0 ], [ 180.0, -90.0 ], [ -180.0, -90.0 ] ] ] }, "srid": "4326", "date": "2017-01-30T14:23:00Z", "date_type": "publication", "edition": "UNESCO-IHP (2015). Stampriet Transboundary Aquifer System Assessment -Technical Report. Governance of Groundwater Resources in Transboundary Aquifers (GGRETA) - Phase 1. 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This paper advocates for the importance of considering an indicator on transboundary water cooperation (SDG 6.5.2).", "attribution": null, "doi": "10.29104/WINS.D.0047.2018", "alternate": "", "bbox_polygon": { "type": "Polygon", "coordinates": [ [ [ -180.0, -90.0 ], [ -180.0, 90.0 ], [ 180.0, 90.0 ], [ 180.0, -90.0 ], [ -180.0, -90.0 ] ] ] }, "ll_bbox_polygon": { "type": "Polygon", "coordinates": [ [ [ -180.0, -90.0 ], [ -180.0, 90.0 ], [ 180.0, 90.0 ], [ 180.0, -90.0 ], [ -180.0, -90.0 ] ] ] }, "srid": "4326", "date": "2017-01-30T20:11:00Z", "date_type": "publication", "edition": "Sindico F., 2016. Transboundary Water Cooperation and the Sustainable Development Goals. UNESCO-IHP Advocacy Paper. 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