Featured
API endpoint that allows base resources to be viewed or edited.
GET /api/v2/resources/featured?format=api&page=2
{ "links": { "next": "http://ihp-wins.unesco.org/api/v2/resources/featured?format=api&page=3", "previous": "http://ihp-wins.unesco.org/api/v2/resources/featured?format=api" }, "total": 28, "page": 2, "page_size": 10, "resources": [ { "pk": "1229", "uuid": "cc097e26-836d-11e8-b4de-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": "Creative cities", "slug": "creativecities" }, { "name": "Inclusive cities", "slug": "inclusivecities" }, { "name": "Learning cities", "slug": "learningcities" }, { "name": "Megacities", "slug": "megacities" } ], "regions": [ { "code": "GLO", "name": "Global" } ], "category": { "identifier": "Water for human settlements" }, "title": "Types of UNESCO City Networks in the Megacities", "abstract": "A city with a population in excess of 10 million is defined by the UN as a Megacity. The International Hydrological Programme of UNESCO has established the Megacities Alliance for Water and Climate Change to support the exchange of knowledge and best practices in delivering sustainable water and sanitation services in view of Climate Change. Creative Cities, intend to foster international cooperation with and between cities committed to investing in creativity as a driver for sustainable urban development, social inclusion and cultural vibrancy. Inclusive and Sustainable Cities are interested in sharing experiences in order to improve their policies to fight racism, discrimination, xenophobia and exclusion; and Learning cities provide inspiration, know-how and best practices in matter of international policy. The map presents the Cities UNESCO’s Sectors are supporting in their efforts to enhance knowledge exchange and achieve the SDGs of the 2030 Sustainable Agenda.", "attribution": null, "doi": null, "alternate": "geonode:City_UNESCO_Category", "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": null, "srid": "EPSG:None", "date": "2018-07-09T11:47:00Z", "date_type": "publication", "edition": "UNESCO (2017) UNESCO Creative City Network. UNESCO Inclusive and Sustainable Cities. UNESCO Global Network of Learning Cities", "purpose": "", "maintenance_frequency": "unknown", "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": "2018-07-09T12:31:00Z", "temporal_extent_end": "2018-07-31T11:47:00Z", "supplemental_information": "Megacities are shown in this map. That does not mean that there is no more cities in that category, but not other Megacities.", "data_quality_statement": "Updated results are not reflected in the three network websites. Anyone considering using this information for analysis or decision-making should contact the nearest UNESCO Office to obtain the most current estimates.", "group": { "pk": 72, "name": "IHP-Theme4-Water-for-settlements" }, "popular_count": "2", "share_count": "0", "rating": "0", "featured": true, "is_published": false, "is_approved": false, "detail_url": "/layers/:geonode:City_UNESCO_Category", "embed_url": "/layers/geonode:City_UNESCO_Category/embed", "created": "2020-02-11T11:06:45.204622Z", "last_updated": "2021-02-19T14:30:12.334907Z", "raw_abstract": "A city with a population in excess of 10 million is defined by the UN as a Megacity. The International Hydrological Programme of UNESCO has established the Megacities Alliance for Water and Climate Change to support the exchange of knowledge and best practices in delivering sustainable water and sanitation services in view of Climate Change. Creative Cities, intend to foster international cooperation with and between cities committed to investing in creativity as a driver for sustainable urban development, social inclusion and cultural vibrancy. Inclusive and Sustainable Cities are interested in sharing experiences in order to improve their policies to fight racism, discrimination, xenophobia and exclusion; and Learning cities provide inspiration, know-how and best practices in matter of international policy. The map presents the Cities UNESCO’s Sectors are supporting in their efforts to enhance knowledge exchange and achieve the SDGs of the 2030 Sustainable Agenda.", "raw_purpose": "", "raw_constraints_other": "Unless otherwise specified, no restriction applies.", "raw_supplemental_information": "Megacities are shown in this map. That does not mean that there is no more cities in that category, but not other Megacities.", "raw_data_quality_statement": "Updated results are not reflected in the three network websites. Anyone considering using this information for analysis or decision-making should contact the nearest UNESCO Office to obtain the most current estimates.", "metadata_only": false, "thumbnail_url": "http://ihp-wins.unesco.org/uploaded/thumbs/layer-cc097e26-836d-11e8-b4de-005056062634-thumb.png?v=95273f34" }, { "pk": "1149", "uuid": "7915e8f8-4e11-11e8-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": "Surface water", "slug": "Surfacewater" } ], "regions": [ { "code": "GLO", "name": "Global" } ], "category": { "identifier": "Water for human settlements" }, "title": "Urban Source Watersheds", "abstract": "This map shows the source watersheds of 534 cities.\r\n\"Although the 100 largest cities in the world occupy less than 1 percent of our planet’s land area, their source watersheds — the rivers, forests and other ecosystems from which they get their water— cover over 12 percent. [...] The availability and quality of that water supply, and hence the costs to move and treat it, depend heavily on how land in those source watersheds is used.\" (Nature Conservancy, 2015). \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:World_Watershed_Urban_Water_Blueprint", "bbox_polygon": { "type": "Polygon", "coordinates": [ [ [ -149.81004772124, -39.3083333370132 ], [ -149.81004772124, 64.3124999976799 ], [ 176.541666666667, 64.3124999976799 ], [ 176.541666666667, -39.3083333370132 ], [ -149.81004772124, -39.3083333370132 ] ] ] }, "ll_bbox_polygon": null, "srid": "EPSG:4326", "date": "2018-07-02T14:40:00Z", "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": "2015-01-01T15:05:00Z", "temporal_extent_end": "2015-12-31T15:05:00Z", "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": "198", "share_count": "0", "rating": "0", "featured": true, "is_published": true, "is_approved": true, "detail_url": "/layers/datastore:geonode:World_Watershed_Urban_Water_Blueprint", "embed_url": "/layers/geonode:World_Watershed_Urban_Water_Blueprint/embed", "created": "2020-02-11T11:06:45.204622Z", "last_updated": "2021-02-19T14:30:13.038970Z", "raw_abstract": "This map shows the source watersheds of 534 cities. \"Although the 100 largest cities in the world occupy less than 1 percent of our planet’s land area, their source watersheds — the rivers, forests and other ecosystems from which they get their water— cover over 12 percent. [...] The availability and quality of that water supply, and hence the costs to move and treat it, depend heavily on how land in those source watersheds is used.\" (Nature Conservancy, 2015). For more information, access the Urban Water Blueprint report here: http://www.iwa-network.org/wp-content/uploads/2016/06/Urban-Water-Blueprint-Report.pdf You can also visit the Urban Water Blueprint website here: http://water.nature.org/waterblueprint/#/intro=true", "raw_purpose": "", "raw_constraints_other": "Unless otherwise specified, no restriction applies.", "raw_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. The Urban Water Blueprint has continued to improve its scientific analysis over time, correcting reported errors and improving its methodology.", "raw_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.", "metadata_only": false, "thumbnail_url": "http://ihp-wins.unesco.org/uploaded/thumbs/layer-7915e8f8-4e11-11e8-a93b-005056062634-thumb.png?v=89f271d3" }, { "pk": "1128", "uuid": "e4ee263a-4a1a-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": "Supply", "slug": "Supply" }, { "name": "Surface water", "slug": "Surfacewater" } ], "regions": [ { "code": "GLO", "name": "Global" } ], "category": { "identifier": "Water for human settlements" }, "title": "Percentage of Grassland covering Source Watersheds", "abstract": "The use of the land covering the watersheds have an enormous impact in the cost and treatment of the water, as well as for the availability and quality of the water supply. Globally, a watershed is covered by 40 percent of forestall area, 30 percent of cropland and 20 percent of grassland and pasture; but it will vary from country to country. This footprint analysis involve 534 cities, who draw water from 20 percent of the world’s land surface.\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:Grassland_NC", "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": "2019-10-24T09:30:00Z", "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": "2015-01-01T14:02:00Z", "temporal_extent_end": "2015-12-31T14:02:00Z", "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": "60", "share_count": "0", "rating": "0", "featured": true, "is_published": true, "is_approved": true, "detail_url": "/layers/datastore:geonode:Grassland_NC", "embed_url": "/layers/geonode:Grassland_NC/embed", "created": "2020-02-11T11:06:45.204622Z", "last_updated": "2021-02-19T14:30:13.089136Z", "raw_abstract": "The use of the land covering the watersheds have an enormous impact in the cost and treatment of the water, as well as for the availability and quality of the water supply. Globally, a watershed is covered by 40 percent of forestall area, 30 percent of cropland and 20 percent of grassland and pasture; but it will vary from country to country. This footprint analysis involve 534 cities, who draw water from 20 percent of the world’s land surface. For more information, access the Urban Water Blueprint report here: http://www.iwa-network.org/wp-content/uploads/2016/06/Urban-Water-Blueprint-Report.pdf You can also visit the Urban Water Blueprint website here: http://water.nature.org/waterblueprint/#/intro=true", "raw_purpose": "", "raw_constraints_other": "Unless otherwise specified, no restriction applies.", "raw_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. The Urban Water Blueprint has continued to improve its scientific analysis over time, correcting reported errors and improving its methodology.", "raw_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.", "metadata_only": false, "thumbnail_url": "http://ihp-wins.unesco.org/uploaded/thumbs/layer-e4ee263a-4a1a-11e8-a93b-005056062634-thumb.png?v=7d546849" }, { "pk": "1123", "uuid": "c5e21e16-46ed-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": "Supply", "slug": "Supply" } ], "regions": [ { "code": "GLO", "name": "Global" } ], "category": { "identifier": "Water for human settlements" }, "title": "Agricultural Best Managing Practices (BMPs) concerning Phosphorous", "abstract": "To help determine where watershed conservation can help secure water for cities, we estimated the effectiveness of five common conservation strategies: land protection, reforestation, riparian restoration, agricultural best management practices, and forest fuel reduction. For each strategy, we evaluated how effectively it reduces sedimentation and nutrient pollution in more than 2,000 source watersheds that serve over 500 cities. This map shows the potential of cities to do so in four categories: <10km2 is “High”, 10-100km2 is “Medium”, > 100km2 is “Low”. Note that cities that predominately (>0.5) use something other than surface water, or cities that get the significant majority of their water (>0.66) from sources that this strategy cannot help, are classified as “Insufficient scope”.\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:AgBMP_P_category_NC", "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": "2018-07-13T15:48:00Z", "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": "2015-01-01T12:59:00Z", "temporal_extent_end": "2015-12-31T12:59:00Z", "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": "442", "share_count": "0", "rating": "0", "featured": true, "is_published": true, "is_approved": true, "detail_url": "/layers/datastore:geonode:AgBMP_P_category_NC", "embed_url": "/layers/geonode:AgBMP_P_category_NC/embed", "created": "2020-02-11T11:06:45.204622Z", "last_updated": "2021-02-19T14:30:13.164504Z", "raw_abstract": "To help determine where watershed conservation can help secure water for cities, we estimated the effectiveness of five common conservation strategies: land protection, reforestation, riparian restoration, agricultural best management practices, and forest fuel reduction. For each strategy, we evaluated how effectively it reduces sedimentation and nutrient pollution in more than 2,000 source watersheds that serve over 500 cities. This map shows the potential of cities to do so in four categories: 100km2 is “Low”. Note that cities that predominately (>0.5) use something other than surface water, or cities that get the significant majority of their water (>0.66) from sources that this strategy cannot help, are classified as “Insufficient scope”. For more information, access the Urban Water Blueprint report here: http://www.iwa-network.org/wp-content/uploads/2016/06/Urban-Water-Blueprint-Report.pdf You can also visit the Urban Water Blueprint website here: http://water.nature.org/waterblueprint/#/intro=true", "raw_purpose": "", "raw_constraints_other": "Unless otherwise specified, no restriction applies.", "raw_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. The Urban Water Blueprint has continued to improve its scientific analysis over time, correcting reported errors and improving its methodology", "raw_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.", "metadata_only": false, "thumbnail_url": "http://ihp-wins.unesco.org/uploaded/thumbs/layer-c5e21e16-46ed-11e8-a93b-005056062634-thumb.png?v=d91adfcc" }, { "pk": "1129", "uuid": "76699e96-4a20-11e8-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": "Supply", "slug": "Supply" }, { "name": "Surface water", "slug": "Surfacewater" } ], "regions": [ { "code": "GLO", "name": "Global" } ], "category": { "identifier": "Water for human settlements" }, "title": "Percentage of Forest covering Source Watersheds", "abstract": "The use of the land covering the watersheds have an enormous impact in the cost and treatment of the water, as well as for the availability and quality of the water supply. Globally, a watershed is covered by 40 percent of forestall area, 30 percent of cropland and 20 percent of grassland and pasture; but it will vary from country to country. This footprint analysis involve 534 cities, who draw water from 20 percent of the world’s land surface.\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:Forest_NC", "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": "2019-10-24T09:29:00Z", "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": "2015-01-01T14:43:00Z", "temporal_extent_end": "2015-12-31T14:43:00Z", "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": "56", "share_count": "0", "rating": "0", "featured": true, "is_published": true, "is_approved": true, "detail_url": "/layers/datastore:geonode:Forest_NC", "embed_url": "/layers/geonode:Forest_NC/embed", "created": "2020-02-11T11:06:45.204622Z", "last_updated": "2021-02-19T14:30:12.524787Z", "raw_abstract": "The use of the land covering the watersheds have an enormous impact in the cost and treatment of the water, as well as for the availability and quality of the water supply. Globally, a watershed is covered by 40 percent of forestall area, 30 percent of cropland and 20 percent of grassland and pasture; but it will vary from country to country. This footprint analysis involve 534 cities, who draw water from 20 percent of the world’s land surface. For more information, access the Urban Water Blueprint report here: http://www.iwa-network.org/wp-content/uploads/2016/06/Urban-Water-Blueprint-Report.pdf You can also visit the Urban Water Blueprint website here: http://water.nature.org/waterblueprint/#/intro=true", "raw_purpose": "", "raw_constraints_other": "Unless otherwise specified, no restriction applies.", "raw_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. The Urban Water Blueprint has continued to improve its scientific analysis over time, correcting reported errors and improving its methodology.", "raw_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.", "metadata_only": false, "thumbnail_url": "http://ihp-wins.unesco.org/uploaded/thumbs/layer-76699e96-4a20-11e8-a93b-005056062634-thumb.png?v=f65a6992" }, { "pk": "1082", "uuid": "5789c516-3d8a-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": "Drinking water", "slug": "Drinking_water" }, { "name": "Groundwater", "slug": "groundwater" }, { "name": "Human settlements", "slug": "Humansettlements" }, { "name": "Supply", "slug": "Supply" } ], "regions": [ { "code": "GLO", "name": "Global" } ], "category": { "identifier": "Water for human settlements" }, "title": "Proportion of Municipal Water coming from Groundwater", "abstract": "Today, cities are looking farther beyond their limits for clean water. Many cities rely partially or totally on non-surface water like groundwater. The study of the Natural Conservancy focus on the analysis of surface water quality, while accounting for the groundwater importance in urban supply but without evaluation of the sustainability of the source. \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:groundwater_nc", "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": "2018-06-20T15:05:00Z", "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": "2015-01-01T14:16:00Z", "temporal_extent_end": "2015-12-31T14:16:00Z", "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": "166", "share_count": "0", "rating": "0", "featured": true, "is_published": true, "is_approved": true, "detail_url": "/layers/geonode_ihp_data:geonode:groundwater_nc", "embed_url": "/layers/geonode:groundwater_nc/embed", "created": "2020-02-11T11:06:45.204622Z", "last_updated": "2021-02-19T14:30:12.848970Z", "raw_abstract": "Today, cities are looking farther beyond their limits for clean water. Many cities rely partially or totally on non-surface water like groundwater. The study of the Natural Conservancy focus on the analysis of surface water quality, while accounting for the groundwater importance in urban supply but without evaluation of the sustainability of the source. For more information, access the Urban Water Blueprint report here: http://www.iwa-network.org/wp-content/uploads/2016/06/Urban-Water-Blueprint-Report.pdf You can also visit the Urban Water Blueprint website here: http://water.nature.org/waterblueprint/#/intro=true", "raw_purpose": "", "raw_constraints_other": "Unless otherwise specified, no restriction applies.", "raw_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. The Urban Water Blueprint has continued to improve its scientific analysis over time, correcting reported errors and improving its methodology", "raw_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.", "metadata_only": false, "thumbnail_url": "http://ihp-wins.unesco.org/uploaded/thumbs/layer-5789c516-3d8a-11e8-a93b-005056062634-thumb.png?v=fb5b8a96" }, { "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. For more information, access the Urban Water Blueprint report here: http://www.iwa-network.org/wp-content/uploads/2016/06/Urban-Water-Blueprint-Report.pdf You can also visit the Urban Water Blueprint website here: http://water.nature.org/waterblueprint/#/intro=true", "raw_purpose": "", "raw_constraints_other": "Unless otherwise specified, no restriction applies.", "raw_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. The Urban Water Blueprint has continued to improve its scientific analysis over time, correcting reported errors and improving its methodology.", "raw_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.", "metadata_only": false, "thumbnail_url": "http://ihp-wins.unesco.org/uploaded/thumbs/layer-2ef33ea4-4e09-11e8-a93b-005056062634-thumb.png?v=7e9d08de" }, { "pk": "1126", "uuid": "d9c0ebda-46f5-11e8-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": "Quality", "slug": "Quality" }, { "name": "Supply", "slug": "Supply" }, { "name": "Surface water", "slug": "Surfacewater" } ], "regions": [ { "code": "GLO", "name": "Global" } ], "category": { "identifier": "Water for human settlements" }, "title": "Grassland Reforestation Practices concerning Phosphorous", "abstract": "To help determine where watershed conservation can help secure water for cities, we estimated the effectiveness of five common conservation strategies: land protection, reforestation, riparian restoration, agricultural best management practices, and forest fuel reduction. For each strategy, we evaluated how effectively it reduces sedimentation and nutrient pollution in more than 2,000 source watersheds that serve over 500 cities. This map shows the potential of cities to do so in four categories: <10km2 is “High”, 10-100km2 is “Medium”, > 100km2 is “Low”. Note that cities that predominately (>0.5) use something other than surface water, or cities that get the significant majority of their water (>0.66) from sources that this strategy cannot help, are classified as “Insufficient scope”.\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:Refor_P_category_NC", "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": "2019-10-24T09:30:00Z", "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": "2014-12-31T23:00:00Z", "temporal_extent_end": "2015-12-30T23:00:00Z", "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": "55", "share_count": "0", "rating": "0", "featured": true, "is_published": true, "is_approved": true, "detail_url": "/layers/datastore:geonode:Refor_P_category_NC", "embed_url": "/layers/geonode:Refor_P_category_NC/embed", "created": "2020-02-11T11:06:45.204622Z", "last_updated": "2021-02-19T14:30:13.301045Z", "raw_abstract": "To help determine where watershed conservation can help secure water for cities, we estimated the effectiveness of five common conservation strategies: land protection, reforestation, riparian restoration, agricultural best management practices, and forest fuel reduction. For each strategy, we evaluated how effectively it reduces sedimentation and nutrient pollution in more than 2,000 source watersheds that serve over 500 cities. This map shows the potential of cities to do so in four categories: 100km2 is “Low”. Note that cities that predominately (>0.5) use something other than surface water, or cities that get the significant majority of their water (>0.66) from sources that this strategy cannot help, are classified as “Insufficient scope”. For more information, access the Urban Water Blueprint report here: http://www.iwa-network.org/wp-content/uploads/2016/06/Urban-Water-Blueprint-Report.pdf You can also visit the Urban Water Blueprint website here: http://water.nature.org/waterblueprint/#/intro=true", "raw_purpose": "", "raw_constraints_other": "Unless otherwise specified, no restriction applies.", "raw_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. The Urban Water Blueprint has continued to improve its scientific analysis over time, correcting reported errors and improving its methodology", "raw_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.", "metadata_only": false, "thumbnail_url": "http://ihp-wins.unesco.org/uploaded/thumbs/layer-d9c0ebda-46f5-11e8-a93b-005056062634-thumb.png?v=fd2f4974" }, { "pk": "1132", "uuid": "310afa5a-4a2c-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": "Supply", "slug": "Supply" }, { "name": "Surface water", "slug": "Surfacewater" } ], "regions": [ { "code": "GLO", "name": "Global" } ], "category": { "identifier": "Water for human settlements" }, "title": "Percentage of Other Lands covering Source Watersheds", "abstract": "The use of the land covering the watersheds have an enormous impact in the cost and treatment of the water, as well as for the availability and quality of the water supply. Globally, a watershed is covered by 40 percent of forestall area, 30 percent of cropland and 20 percent of grassland and pasture; but it will vary from country to country. This footprint analysis involve 534 cities, who draw water from 20 percent of the world’s land surface.\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:Other_NC", "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": "2018-11-30T14:22:00Z", "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": "2015-01-01T16:04:00Z", "temporal_extent_end": "2015-12-31T16:04:00Z", "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": "129", "share_count": "0", "rating": "0", "featured": true, "is_published": true, "is_approved": true, "detail_url": "/layers/datastore:geonode:Other_NC", "embed_url": "/layers/geonode:Other_NC/embed", "created": "2020-02-11T11:06:45.204622Z", "last_updated": "2021-02-19T14:30:13.160974Z", "raw_abstract": "The use of the land covering the watersheds have an enormous impact in the cost and treatment of the water, as well as for the availability and quality of the water supply. Globally, a watershed is covered by 40 percent of forestall area, 30 percent of cropland and 20 percent of grassland and pasture; but it will vary from country to country. This footprint analysis involve 534 cities, who draw water from 20 percent of the world’s land surface. For more information, access the Urban Water Blueprint report here: http://www.iwa-network.org/wp-content/uploads/2016/06/Urban-Water-Blueprint-Report.pdf You can also visit the Urban Water Blueprint website here: http://water.nature.org/waterblueprint/#/intro=true", "raw_purpose": "", "raw_constraints_other": "Unless otherwise specified, no restriction applies.", "raw_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. The Urban Water Blueprint has continued to improve its scientific analysis over time, correcting reported errors and improving its methodology.", "raw_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.", "metadata_only": false, "thumbnail_url": "http://ihp-wins.unesco.org/uploaded/thumbs/layer-310afa5a-4a2c-11e8-a93b-005056062634-thumb.png?v=6229b8e6" }, { "pk": "1142", "uuid": "23f5cf18-4e08-11e8-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": "Groundwater", "slug": "groundwater" }, { "name": "Human settlements", "slug": "Humansettlements" }, { "name": "Supply", "slug": "Supply" }, { "name": "Surface water", "slug": "Surfacewater" } ], "regions": [ { "code": "GLO", "name": "Global" } ], "category": { "identifier": "Water for human settlements" }, "title": "Phosphorus Yield Category", "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. This map shows the total quantity of phosphorous moving out of a watershed in a given time interval, being expressed as units of tonnes/km2/year, organized into four categories: “Low” if < 8kg/km2; “Medium” if 8-20 kg/km2; “High” if > 20 kg/km2 and “No Information”.\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:PYieldCategory_NC", "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": "2018-05-31T12:55:00Z", "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": "2015-01-01T13:56:00Z", "temporal_extent_end": "2015-12-31T13:56:00Z", "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": "135", "share_count": "0", "rating": "0", "featured": true, "is_published": true, "is_approved": true, "detail_url": "/layers/datastore:geonode:PYieldCategory_NC", "embed_url": "/layers/geonode:PYieldCategory_NC/embed", "created": "2020-02-11T11:06:45.204622Z", "last_updated": "2021-02-19T14:30:13.106139Z", "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. This map shows the total quantity of phosphorous moving out of a watershed in a given time interval, being expressed as units of tonnes/km2/year, organized into four categories: “Low” if 20 kg/km2 and “No Information”. For more information, access the Urban Water Blueprint report here: http://www.iwa-network.org/wp-content/uploads/2016/06/Urban-Water-Blueprint-Report.pdf You can also visit the Urban Water Blueprint website here: http://water.nature.org/waterblueprint/#/intro=true", "raw_purpose": "", "raw_constraints_other": "Unless otherwise specified, no restriction applies.", "raw_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. The Urban Water Blueprint has continued to improve its scientific analysis over time, correcting reported errors and improving its methodology.", "raw_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.", "metadata_only": false, "thumbnail_url": "http://ihp-wins.unesco.org/uploaded/thumbs/layer-23f5cf18-4e08-11e8-a93b-005056062634-thumb.png?v=26aecf16" } ] }
