Resource Base List
API endpoint that allows base resources to be viewed or edited.
GET /api/v2/resources?page=5
{ "links": { "next": "http://ihp-wins.unesco.org/api/v2/resources?page=6", "previous": "http://ihp-wins.unesco.org/api/v2/resources?page=4" }, "total": 284, "page": 5, "page_size": 10, "resources": [ { "pk": "1064", "uuid": "b8dfd82a-26db-11e8-a93b-005056062634", "resource_type": "layer", "polymorphic_ctype_id": "51", "owner": { "pk": 1022, "username": "gabin.archambault", "first_name": "Gabin", "last_name": "Archambault", "avatar": "https://www.gravatar.com/avatar/6b6c0feef3d040bc9f22ae6766ce83d8/?s=240&d=http%3A%2F%2Fihp-wins.unesco.org%2Fstatic%2Favatar%2Fimg%2Fdefault.jpg" }, "poc": { "pk": 1022, "username": "gabin.archambault", "first_name": "Gabin", "last_name": "Archambault", "avatar": "https://www.gravatar.com/avatar/6b6c0feef3d040bc9f22ae6766ce83d8/?s=240&d=http%3A%2F%2Fihp-wins.unesco.org%2Fstatic%2Favatar%2Fimg%2Fdefault.jpg" }, "metadata_author": { "pk": 1022, "username": "gabin.archambault", "first_name": "Gabin", "last_name": "Archambault", "avatar": "https://www.gravatar.com/avatar/6b6c0feef3d040bc9f22ae6766ce83d8/?s=240&d=http%3A%2F%2Fihp-wins.unesco.org%2Fstatic%2Favatar%2Fimg%2Fdefault.jpg" }, "keywords": [ { "name": "Abstraction", "slug": "abstraction" }, { "name": "Groundwater", "slug": "groundwater" }, { "name": "Stress", "slug": "Stress" } ], "regions": [ { "code": "ASI", "name": "Asia" }, { "code": "SAS", "name": "South Asia" }, { "code": "BGD", "name": "Bangladesh" }, { "code": "BTN", "name": "Bhutan" }, { "code": "IND", "name": "India" }, { "code": "NPL", "name": "Nepal" }, { "code": "PAK", "name": "Pakistan" } ], "category": { "identifier": "Groundwater" }, "title": "Groundwater abstraction across the Indo-Gangetic basin (2010)", "abstract": "This 1 km resolution grid shows the estimated mean annual groundwater abstraction in millimeters across the Indo-Gangetic basin based on data from 2010.\r\n\r\nMethodology and a full list of data sources used can be found in the peer-reviewed paper: https://www.nature.com/articles/ngeo2791.epdf?author_access_token=_2Z_fJZxRkSVmgVJ7xHTVdRgN0jAjWel9jnR3ZoTv0O07GfIlzqIVm44UgFPb1r62_FUJLao4zkJSzYpv-4gIWJorRXEpgh4iarB8vlRNY_tGV_18CAf2j-_GnADYbdp\r\n\r\nThe raster and a high resolution PDF file are available for download on the website of British Geological Survey (BGS): http://www.bgs.ac.uk/research/groundwater/international/SEAsiaGroundwater/mapsDownload.html", "attribution": null, "doi": null, "alternate": "geonode:igb_abstraction_processed", "bbox_polygon": { "type": "Polygon", "coordinates": [ [ [ 67.17354965, 21.30041801 ], [ 67.17354965, 33.06041801 ], [ 95.97354965, 33.06041801 ], [ 95.97354965, 21.30041801 ], [ 67.17354965, 21.30041801 ] ] ] }, "ll_bbox_polygon": null, "srid": "EPSG:4326", "date": "2017-08-24T13:23:00Z", "date_type": "publication", "edition": "MacDonald, A M, et al. 2016. Groundwater quality and depletion in the Indo-Gangetic Basin mapped from in situ observations. Nature Geoscience, doi:10.1038/ngeo2791", "purpose": "", "maintenance_frequency": null, "restriction_code_type": null, "constraints_other": "UNESCO-IHP was given the authorization to display on IHP-WINS some materials produced by the British Geological Survey. Permit Number CP17/019 British Geological Survey © NERC 2017. All rights reserved.", "license": { "identifier": "not_specified" }, "language": "eng", "spatial_representation_type": null, "temporal_extent_start": "2009-12-31T23:00:00Z", "temporal_extent_end": "2010-12-30T23:00:00Z", "supplemental_information": "The maps produced by the BGS provide new, higher-resolution information of the Indo-Gangetic alluvial aquifer, at transboundary scale. They are based on a major systemic review of the best available in situ observations and studies across the aquifer, and are designed to show information at basin or regional scale.", "data_quality_statement": "", "group": { "pk": 70, "name": "IHP-Theme2-Groundwater" }, "popular_count": "373", "share_count": "0", "rating": "0", "featured": false, "is_published": true, "is_approved": true, "detail_url": "/layers/igb_abstraction_processed:geonode:igb_abstraction_processed", "embed_url": "/layers/geonode:igb_abstraction_processed/embed", "created": "2020-02-11T11:06:45.204622Z", "last_updated": "2021-02-19T14:30:12.388729Z", "raw_abstract": "This 1 km resolution grid shows the estimated mean annual groundwater abstraction in millimeters across the Indo-Gangetic basin based on data from 2010. Methodology and a full list of data sources used can be found in the peer-reviewed paper: https://www.nature.com/articles/ngeo2791.epdf?author_access_token=_2Z_fJZxRkSVmgVJ7xHTVdRgN0jAjWel9jnR3ZoTv0O07GfIlzqIVm44UgFPb1r62_FUJLao4zkJSzYpv-4gIWJorRXEpgh4iarB8vlRNY_tGV_18CAf2j-_GnADYbdp The raster and a high resolution PDF file are available for download on the website of British Geological Survey (BGS): http://www.bgs.ac.uk/research/groundwater/international/SEAsiaGroundwater/mapsDownload.html", "raw_purpose": "", "raw_constraints_other": "UNESCO-IHP was given the authorization to display on IHP-WINS some materials produced by the British Geological Survey. Permit Number CP17/019 British Geological Survey © NERC 2017. All rights reserved.", "raw_supplemental_information": "The maps produced by the BGS provide new, higher-resolution information of the Indo-Gangetic alluvial aquifer, at transboundary scale. They are based on a major systemic review of the best available in situ observations and studies across the aquifer, and are designed to show information at basin or regional scale.", "raw_data_quality_statement": "", "metadata_only": false, "thumbnail_url": "http://ihp-wins.unesco.org/uploaded/thumbs/layer-b8dfd82a-26db-11e8-a93b-005056062634-thumb.png?v=ca8d32d9" }, { "pk": "1244", "uuid": "124cb81e-8f24-11e8-b4de-005056062634", "resource_type": "layer", "polymorphic_ctype_id": "51", "owner": { "pk": 1376, "username": "alberto.hernandez-salinas", "first_name": "Alberto", "last_name": "Hernandez-salinas", "avatar": "https://www.gravatar.com/avatar/481fee966b48de3f529c9645b2070dfa/?s=240&d=http%3A%2F%2Fihp-wins.unesco.org%2Fstatic%2Favatar%2Fimg%2Fdefault.jpg" }, "poc": { "pk": 1376, "username": "alberto.hernandez-salinas", "first_name": "Alberto", "last_name": "Hernandez-salinas", "avatar": "https://www.gravatar.com/avatar/481fee966b48de3f529c9645b2070dfa/?s=240&d=http%3A%2F%2Fihp-wins.unesco.org%2Fstatic%2Favatar%2Fimg%2Fdefault.jpg" }, "metadata_author": { "pk": 1376, "username": "alberto.hernandez-salinas", "first_name": "Alberto", "last_name": "Hernandez-salinas", "avatar": "https://www.gravatar.com/avatar/481fee966b48de3f529c9645b2070dfa/?s=240&d=http%3A%2F%2Fihp-wins.unesco.org%2Fstatic%2Favatar%2Fimg%2Fdefault.jpg" }, "keywords": [ { "name": "Agriculture", "slug": "agriculture" }, { "name": "Groundwater", "slug": "groundwater" } ], "regions": [ { "code": "CAM", "name": "Central America" }, { "code": "SLV", "name": "El Salvador" }, { "code": "GTM", "name": "Guatemala" }, { "code": "HND", "name": "Honduras" } ], "category": { "identifier": "Groundwater" }, "title": "Áreas de producción de café en la región del Trifinio", "abstract": "Áreas de producción de café en la región del Trifinio (Ha) por municipio.\r\n\r\nInformación extraida de la publicación: \r\nCatálogo de Objetos Geográficos, Proyecto Gobernanza de las aguas subterráneas en los acuíferos transfronterizos (GGRETA por sus siglas en ingles). UNESCO-PHI, UICN, Agencia Suiza para el Desarrollo y la Cooperación COSUDE. Publicación: Septiembre 2014\r\n\r\nPara más información visite el Geoportal del Plan Trifinio: http://www.geoportaltrifinio.net/", "attribution": null, "doi": "None", "alternate": "geonode:a__3201_Areas_Cafe1", "bbox_polygon": { "type": "Polygon", "coordinates": [ [ [ -89.85928757308577, 14.113213188985082 ], [ -89.8719017359859, 15.086733112545321 ], [ -88.71897389728643, 15.098424829609968 ], [ -88.71141563290335, 14.124119127685198 ], [ -89.85928757308577, 14.113213188985082 ] ] ] }, "ll_bbox_polygon": null, "srid": "EPSG:4326", "date": "2019-03-20T09:46:00Z", "date_type": "publication", "edition": "Comisión Trinacional del Plan Trifinio (CTPT), Sistema de Información Territorial (SIT)", "purpose": "", "maintenance_frequency": null, "restriction_code_type": null, "constraints_other": "Unless otherwise specified, no restriction applies.", "license": { "identifier": "not_specified" }, "language": "spa", "spatial_representation_type": null, "temporal_extent_start": null, "temporal_extent_end": null, "supplemental_information": "Auncune information fournie", "data_quality_statement": "", "group": { "pk": 93, "name": "GGRETA-OcotepequeCitala" }, "popular_count": "119", "share_count": "0", "rating": "0", "featured": false, "is_published": true, "is_approved": true, "detail_url": "/layers/geonode_ihp_data:geonode:a__3201_Areas_Cafe1", "embed_url": "/layers/geonode:a__3201_Areas_Cafe1/embed", "created": "2020-02-11T11:06:45.204622Z", "last_updated": "2021-02-19T14:30:13.483797Z", "raw_abstract": "Áreas de producción de café en la región del Trifinio (Ha) por municipio. Información extraida de la publicación: Catálogo de Objetos Geográficos, Proyecto Gobernanza de las aguas subterráneas en los acuíferos transfronterizos (GGRETA por sus siglas en ingles). UNESCO-PHI, UICN, Agencia Suiza para el Desarrollo y la Cooperación COSUDE. Publicación: Septiembre 2014 Para más información visite el Geoportal del Plan Trifinio: http://www.geoportaltrifinio.net/", "raw_purpose": "", "raw_constraints_other": "Unless otherwise specified, no restriction applies.", "raw_supplemental_information": "Auncune information fournie", "raw_data_quality_statement": "", "metadata_only": false, "thumbnail_url": "http://ihp-wins.unesco.org/uploaded/thumbs/layer-124cb81e-8f24-11e8-b4de-005056062634-thumb.png?v=a1af3110" }, { "pk": "371", "uuid": "744e3f1a-f2c7-11e6-8719-005056bf7531", "resource_type": "layer", "polymorphic_ctype_id": "51", "owner": { "pk": 28, "username": "lakshmi.seewsagur", "first_name": "Lakshmi", "last_name": "Seewsagur", "avatar": "https://www.gravatar.com/avatar/c0bad0959406dfdc0b5e749e3ca78d52/?s=240&d=http%3A%2F%2Fihp-wins.unesco.org%2Fstatic%2Favatar%2Fimg%2Fdefault.jpg" }, "poc": { "pk": 28, "username": "lakshmi.seewsagur", "first_name": "Lakshmi", "last_name": "Seewsagur", "avatar": "https://www.gravatar.com/avatar/c0bad0959406dfdc0b5e749e3ca78d52/?s=240&d=http%3A%2F%2Fihp-wins.unesco.org%2Fstatic%2Favatar%2Fimg%2Fdefault.jpg" }, "metadata_author": { "pk": 28, "username": "lakshmi.seewsagur", "first_name": "Lakshmi", "last_name": "Seewsagur", "avatar": "https://www.gravatar.com/avatar/c0bad0959406dfdc0b5e749e3ca78d52/?s=240&d=http%3A%2F%2Fihp-wins.unesco.org%2Fstatic%2Favatar%2Fimg%2Fdefault.jpg" }, "keywords": [ { "name": "Education", "slug": "education" }, { "name": "Gender", "slug": "gender" }, { "name": "Hygiene", "slug": "hygiene" }, { "name": "Sanitation", "slug": "sanitation_1" }, { "name": "Youth", "slug": "youth" } ], "regions": [ { "code": "CAM", "name": "Central America" }, { "code": "SLV", "name": "El Salvador" } ], "category": { "identifier": "Water education" }, "title": " Ratio of female learners to school toilets in El Salvador (2014)", "abstract": "This layer presents the ratio of female learners to school toilets in 100 schools in 3 provinces of El Salvador. On average, 56 male learners share one toilet, whereas 51 female learners share the same toilet. From our responses, 9 schools indicated they had no toilet facilities, and data is missing for 3 schools.", "attribution": null, "doi": null, "alternate": "geonode:toilet_ratio_elsalvador_female", "bbox_polygon": { "type": "Polygon", "coordinates": [ [ [ -89.37031, 13.46398 ], [ -89.37031, 13.73741 ], [ -89.0706, 13.73741 ], [ -89.0706, 13.46398 ], [ -89.37031, 13.46398 ] ] ] }, "ll_bbox_polygon": null, "srid": "EPSG:4326", "date": "2017-02-14T15:08:00Z", "date_type": "publication", "edition": "UNESCO-VISUS (2014)", "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": "2017-02-01T15:05:00Z", "temporal_extent_end": "2014-05-31T14:05:00Z", "supplemental_information": "The VISUS project (Visual Inspections for the definition of Safety Upgrading Strategies) is providing decision-making information and tools for enhancing school safety worldwide through school facilities assessment. The VISUS multi-hazard methodology considers earthquakes, floods and tsunamis, winds, fires and ordinary safety, for the evaluation of the safety of school facilities. The activities of the SPRINT-Lab (University of Udine, Polytechnic Department of Engineering and Architecture) permitted the enhancement of the methodology.", "data_quality_statement": "", "group": { "pk": 74, "name": "IHP-Theme6-Water-education" }, "popular_count": "220", "share_count": "0", "rating": "0", "featured": false, "is_published": true, "is_approved": true, "detail_url": "/layers/toilet_ratio_elsalvador_female:geonode:toilet_ratio_elsalvador_female", "embed_url": "/layers/geonode:toilet_ratio_elsalvador_female/embed", "created": "2020-02-11T11:06:45.204622Z", "last_updated": "2021-02-19T14:30:13.099323Z", "raw_abstract": "This layer presents the ratio of female learners to school toilets in 100 schools in 3 provinces of El Salvador. On average, 56 male learners share one toilet, whereas 51 female learners share the same toilet. From our responses, 9 schools indicated they had no toilet facilities, and data is missing for 3 schools.", "raw_purpose": "", "raw_constraints_other": "Unless otherwise specified, no restriction applies.", "raw_supplemental_information": "The VISUS project (Visual Inspections for the definition of Safety Upgrading Strategies) is providing decision-making information and tools for enhancing school safety worldwide through school facilities assessment. The VISUS multi-hazard methodology considers earthquakes, floods and tsunamis, winds, fires and ordinary safety, for the evaluation of the safety of school facilities. The activities of the SPRINT-Lab (University of Udine, Polytechnic Department of Engineering and Architecture) permitted the enhancement of the methodology.", "raw_data_quality_statement": "", "metadata_only": false, "thumbnail_url": "http://ihp-wins.unesco.org/uploaded/thumbs/layer-744e3f1a-f2c7-11e6-8719-005056bf7531-thumb.png?v=fd946bb0" }, { "pk": "486", "uuid": "a2a74196-12ba-11e7-8719-005056bf7531", "resource_type": "document", "polymorphic_ctype_id": "59", "owner": { "pk": 7, "username": "Chloe.Meyer", "first_name": "Chloé", "last_name": "Meyer", "avatar": "/static/avatars/Chloe.Meyer/resized/240/me.21dd52a4aac3.jpg" }, "poc": { "pk": 7, "username": "Chloe.Meyer", "first_name": "Chloé", "last_name": "Meyer", "avatar": "/static/avatars/Chloe.Meyer/resized/240/me.21dd52a4aac3.jpg" }, "metadata_author": { "pk": 7, "username": "Chloe.Meyer", "first_name": "Chloé", "last_name": "Meyer", "avatar": "/static/avatars/Chloe.Meyer/resized/240/me.21dd52a4aac3.jpg" }, "keywords": [ { "name": "Pollution", "slug": "pollution" }, { "name": "Quality", "slug": "Quality" }, { "name": "Waste", "slug": "Waste" } ], "regions": [ { "code": "ASI", "name": "Asia" } ], "category": { "identifier": "Cross-cutting" }, "title": "UN World Water Development Report 2017: \"Wastewater: The untapped resource\"", "abstract": "The 2017 edition of the United Nations World Water Development Report demonstrates how improved wastewater management generates social, environmental and economic benefits essential for sustainable development.\r\n\r\nIn particular, the Report seeks to inform decision-makers, government, civil society and private sector, about the importance of managing wastewater as an undervalued and sustainable source of water, energy, nutrients and other recoverable by-products, rather than something to be disposed of or a nuisance to be ignored.\r\nThe report’s title reflects the critical role that wastewater is poised to play in the context of a circular economy, whereby economic development is balanced with the protection of natural resources and environmental sustainability, and where a cleaner and more sustainable economy has a positive effect on the water quality.\r\n", "attribution": null, "doi": "10.29104/WINS.D.0002.2018", "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": "2017-03-26T22:00:00Z", "date_type": "publication", "edition": "WWAP (2017). The United Nations World Water Development Report 2017- Wastewater: The untapped resource. UNESCO, Paris.", "purpose": "", "maintenance_frequency": null, "restriction_code_type": null, "constraints_other": "No restrictions", "license": { "identifier": "not_specified" }, "language": "eng", "spatial_representation_type": null, "temporal_extent_start": null, "temporal_extent_end": null, "supplemental_information": "Over 80% of the world’s wastewater – and over 95% in some least developed countries – is released to the environment without treatment, and the quantity of wastewater produced and its overall pollution load are continuously increasing worldwide. Once discharged into water bodies, wastewater is either diluted or transported downstream, or it infiltrates into aquifers, where it can affect the quality of freshwater supplies. The ultimate destination of wastewater discharged is often the ocean.", "data_quality_statement": "xxx", "group": { "pk": 74, "name": "IHP-Theme6-Water-education" }, "popular_count": "199", "share_count": "0", "rating": "0", "featured": false, "is_published": true, "is_approved": true, "detail_url": "/documents/486", "embed_url": "", "created": "2020-02-11T11:06:45.204622Z", "last_updated": "2021-03-25T17:24:36.830229Z", "raw_abstract": "The 2017 edition of the United Nations World Water Development Report demonstrates how improved wastewater management generates social, environmental and economic benefits essential for sustainable development. In particular, the Report seeks to inform decision-makers, government, civil society and private sector, about the importance of managing wastewater as an undervalued and sustainable source of water, energy, nutrients and other recoverable by-products, rather than something to be disposed of or a nuisance to be ignored. The report’s title reflects the critical role that wastewater is poised to play in the context of a circular economy, whereby economic development is balanced with the protection of natural resources and environmental sustainability, and where a cleaner and more sustainable economy has a positive effect on the water quality.", "raw_purpose": "", "raw_constraints_other": "No restrictions", "raw_supplemental_information": "Over 80% of the world’s wastewater – and over 95% in some least developed countries – is released to the environment without treatment, and the quantity of wastewater produced and its overall pollution load are continuously increasing worldwide. Once discharged into water bodies, wastewater is either diluted or transported downstream, or it infiltrates into aquifers, where it can affect the quality of freshwater supplies. The ultimate destination of wastewater discharged is often the ocean.", "raw_data_quality_statement": "xxx", "metadata_only": false, "thumbnail_url": "http://ihp-wins.unesco.org/static/thumbs/document-a2a74196-12ba-11e7-8719-005056bf7531-thumb.256b01f894c4.png" }, { "pk": "1133", "uuid": "2fa43016-4a2f-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": "Sediment Yield (tonnes/km2/year)", "abstract": "The land use greatly influence water quality on the one supplied by watersheds. Land use changes often increase significantly the sedimentation and nutrient pollution. Human activity can generate as well pollutant concentration rising and heavily affect water treatment cost for urban supply. This map shows the total quantity of sediment moving out of a watershed in a given time interval, being expressed as units of tonnes/km2/year.\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:SedYield_calibrated_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": "2018-11-30T14:23:00Z", "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": "2015-01-01T16:26:00Z", "temporal_extent_end": "2015-12-31T16:26:00Z", "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": "149", "share_count": "0", "rating": "0", "featured": true, "is_published": true, "is_approved": true, "detail_url": "/layers/datastore:geonode:SedYield_calibrated_NC", "embed_url": "/layers/geonode:SedYield_calibrated_NC/embed", "created": "2020-02-11T11:06:45.204622Z", "last_updated": "2021-02-19T14:30:13.425661Z", "raw_abstract": "The land use greatly influence water quality on the one supplied by watersheds. Land use changes often increase significantly the sedimentation and nutrient pollution. Human activity can generate as well pollutant concentration rising and heavily affect water treatment cost for urban supply. 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Data was gathered from the Water Point Data Exchange (WPDx) platform, a tool established for sharing water point data throughout the global water sector. \r\nThe goal of the Water Point Data Exchange is to simplify the way water point data is shared so all stakeholders can work more efficiently.\r\n\r\nFor more information, visit the WPDx website at https://www.waterpointdata.org/", "attribution": null, "doi": null, "alternate": "geonode:wpdxcolombia_2017_03_15t4_42_53l", "bbox_polygon": { "type": "Polygon", "coordinates": [ [ [ -73.1425, 11.1091 ], [ -73.1425, 11.7078 ], [ -72.289, 11.7078 ], [ -72.289, 11.1091 ], [ -73.1425, 11.1091 ] ] ] }, "ll_bbox_polygon": null, "srid": "EPSG:4326", "date": "2017-06-15T10:41:00Z", "date_type": "publication", "edition": "Water Point Data Exchange (2016). Presence of water in 39 water points in Colombia. 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Se tomó un valor que abarca el periodo de (2010 a 2017) (media, valor más elevado según los datos analizados). Para información más detallada anualmente visite el sitio: http://sintet.net.", "raw_purpose": "", "raw_constraints_other": "Unless otherwise specified, no restriction applies.", "raw_supplemental_information": "Auncune information fournie", "raw_data_quality_statement": "", "metadata_only": false, "thumbnail_url": "http://ihp-wins.unesco.org/uploaded/thumbs/layer-c2f4d274-6123-11e9-9915-005056062634-thumb.png?v=df46edfe" } ] }
