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Japón

  • Población, personas:126.785.797 (2017)
  • Área, km2:364.560 (2017)
  • PIB per cápita, US$:38.428 (2017)
  • PIB, mil millones US$:4.872,1 (2017)
  • Índice de GINI:32,1 (2008)
  • Ranking de Facilidad para Hacer Negocios:34 (2017)
Todos los conjuntos de datos:  A E F G I M N P S T U W
  • A
    • mayo 2013
      Fuente: Food and Agriculture Organization
      Subido por: Knoema
      Acceso el: 04 diciembre, 2018
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    • agosto 2018
      Fuente: Food and Agriculture Organization
      Subido por: Knoema
      Acceso el: 19 noviembre, 2018
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      AQUASTAT is FAO's global information system on water and agriculture, developed by the Land and Water Division. The main mandate of the program is to collect, analyze and disseminate information on water resources, water uses, and agricultural water management with an emphasis on countries in Africa, Asia, Latin America and the Caribbean. This allows interested users to find comprehensive and regularly updated information at global, regional, and national levels.
    • enero 2014
      Fuente: World Resources Institute
      Subido por: Knoema
      Acceso el: 07 diciembre, 2015
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      This dataset shows countries and river basins' average exposure to five of Aqueduct's water risk indicators: baseline water stress, interannual variability, seasonal variability, flood occurrence, and drought severity. Risk exposure scores are available for every country (except Greenland and Antarctica), the 100 most populous river basins, and the 100 largest river basins by area. Scores are also available for all industrial, agricultural, and domestic users' average exposure to each indicator in each country and river basin. Citation: Gassert, F., P. Reig, T. Luo, and A. Maddocks. 2013. “Aqueduct country and river basin rankings: a weighted aggregation of spatially distinct hydrological indicators.” Working paper. Washington, DC: World Resources Institute, November 2013. Available online at http://wri.org/publication/aqueduct-country-river-basin-rankings.
  • E
    • julio 2013
      Fuente: Earth Policy Institute
      Subido por: Knoema
      Acceso el: 08 julio, 2013
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      Contains annual data series on water consumption, irrigated area, solar water and space heating area, countries overpumping aquifers and water deficits for the countries and regions through the time period from 1961 to 2013.
  • F
    • marzo 2018
      Fuente: Organisation for Economic Co-operation and Development
      Subido por: Knoema
      Acceso el: 31 julio, 2018
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      This dataset shows the state and changes over time in the abstractions of freshwater resources in OECD countries. Water abstractions are a major pressure on freshwater resources, particularly from public water supplies, irrigation, industrial processes and cooling of electric power plants. It has significant implications for issues of quantity and quality of water resources. This dataset shows water abstractions by source (surface and ground water) and by major uses. Water abstractions refer to water taken from ground or surface water sources and conveyed to the place of use. If the water is returned to a surface water source, abstraction of the same water by the downstream user is counted again in compiling total withdrawal. When interpreting those data, it should be borne in mind that the definitions and estimation methods employed by Member countries may vary considerably among countries.
  • G
    • abril 2018
      Fuente: United Nations Statistics Division
      Subido por: Knoema
      Acceso el: 21 noviembre, 2018
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      Environmental Indicators disseminate global environment statistics on ten indicator themes compiled from a wide range of data sources. The themes and indicator tables were selected based on the current demands for international environmental statistics and the availability of internationally comparable data. Indicator tables, charts and maps with relatively good quality and coverage across countries, as well as links to other international sources, are provided under each theme. Statistics on Water and Waste are based on official statistics supplied by national statistical offices and/or ministries of environment (or equivalent institutions) in response to the biennial UNSD/UNEP Questionnaire on Environment Statistics, complemented with comparable statistics from OECD and Eurostat, and water resources data from FAO Aqua stat. Statistics on other themes were compiled by UNSD from other international sources. In a few cases, UNSD has made some calculations in order to derive the indicators. However, generally no adjustments have been made to the values received from the source. UNSD is not responsible for the quality, completeness/availability, and validity of the data. Environment statistics is still in an early stage of development in many countries, and data are often sparse. The indicators selected here are those of relatively good quality and geographic coverage. Information on data quality and comparability is given at the end of each table together with other important metadata.
  • I
  • M
    • diciembre 2017
      Fuente: World Bank
      Subido por: Knoema
      Acceso el: 20 febrero, 2018
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      Relevant indicators drawn from the World Development Indicators, reorganized according to the goals and targets of the Millennium Development Goals (MDGs). The MDGs focus the efforts of the world community on achieving significant, measurable improvements in people's lives by the year 2015: they establish targets and yardsticks for measuring development results. Gender Parity Index (GPI)= Value of indicator for Girls/ Value of indicator for Boys. For e.g GPI=School enrolment for Girls/School enrolment for Boys. A value of less than one indicates differences in favor of boys, whereas a value near one (1) indicates that parity has been more or less achieved. The greater the deviation from 1 greater the disparity is.
  • N
    • octubre 2015
      Fuente: Water FootPrint Network
      Subido por: Knoema
      Acceso el: 26 octubre, 2015
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      Water footprints of national consumption (1996-2005) Reference: Hoekstra, A.Y. & Mekonnen, M.M. (2012) 'The water footprint of humanity’, Proceedings of the National Academy of Sciences, 109(9): 3232–3237.   Water footprints of national production (1996-2005) Reference: Hoekstra, A.Y. & Mekonnen, M.M. (2012) 'The water footprint of humanity’, Proceedings of the National Academy of Sciences, 109(9): 3232–3237.
  • P
  • S
    • agosto 2018
      Fuente: Social Progress Imperative
      Subido por: Knoema
      Acceso el: 21 noviembre, 2018
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      The Social Progress Index is a new way to define the success of our societies. It is a comprehensive measure of real quality of life, independent of economic indicators. The Social Progress Index is designed to complement, rather than replace, economic measures such as GDP. Each year, Social Progress Imperative conducts a comprehensive review of all indicators included in the Social Progress Index framework to check data updates (which frequently include retroactive revisions) and whether new indicators have been published that are well-suited to describing social progress concepts. Such a review necessitates a recalculation of previously published versions of the Social Progress Index, as any removal or additions of indicators to the framework or changes due to retroactive revisions in data from the original data sources prevent comparability between previously published versions of the Social Progress Index and the 2018 Social Progress Index. Therefore, using the 2018 Social Progress Index framework and methodology, we provide comparable historical data for four additional years of the Social Progress Index, from 2014 to 2017. To read more about our methodology, please see the 2018 Methodology here https://www.socialprogress.org/index/methodology
  • T
    • febrero 2015
      Fuente: University of Keele
      Subido por: Knoema
      Acceso el: 24 abril, 2015
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      This water poverty index is a first pass at trying to establish an international measure comparing performance in the water sector across countries in a holistic way that brings in the diverse aspects and issues that are relevant. It does seem to give some sensible results but it does not pretend to be definitive nor offer a totally accurate measure of the situation.
    • octubre 2011
      Fuente: Pacific Institute
      Subido por: Knoema
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      Water is one of our most critical resources, but around the world it is under threat. Worldwater.org is dedicated to providing information and resources to help protect and preserve fresh water around the globe.
  • U
    • octubre 2014
      Fuente: United Nations Economic Commission for Europe
      Subido por: Knoema
      Acceso el: 16 junio, 2016
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    • septiembre 2018
      Fuente: United Nations Environment Programme
      Subido por: Knoema
      Acceso el: 22 octubre, 2018
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    • julio 2017
      Fuente: United Nations Children's Fund
      Subido por: Knoema
      Acceso el: 23 agosto, 2017
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      According to UNICEF report, in 2015, seven out of ten people used a safely managed drinking water service. Universal access to safe drinking water is a fundamental need and human right. Securing access for all would go a long way in reducing illness and death, especially among children. Since 2000, 1.4 billion people have gained access to basic drinking water services, such as piped water into the home or a protected dug well. In 2015, 844 million people still lack a basic water service and among them almost 159 million people still collected drinking water directly from rivers, lakes and other surface water sources. The data reveal pronounced disparities, with the poorest and those living in rural areas least likely to use a basic service. “Safely managed” water services represent an ambitious new rung on the ladder used to track progress on drinking water. In 2015, 5.2 billion people used safely managed services, i.e. accessible on premises, available when needed and free from contamination. A further 1.3 billion used a ‘basic’ water service, i.e. improved sources within 30 minutes per round trip to collect water. Over a quarter of a billion (258 million) used a ‘limited’ service where water collection from an improved source exceeded 30 minutes. In most countries the burden of water collection continues to fall mainly to women and girls.
  • W
    • marzo 2018
      Fuente: Organisation for Economic Co-operation and Development
      Subido por: Knoema
      Acceso el: 13 abril, 2018
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      This dataset provides information on the level of public equipment installed by countries to managed and abate water pollution. It shows the percentage of national population connected to "public" sewerage networks and related treatment facilities, and the percentage of national population connected to "public" wastewater treatment plants, and the degree of treatment. Connected here means actually connected to a wastewater plants through a public sewage network. Individual private treatment facilities such as septic tanks are not covered here. When analysing these data, it should be kept in mind that the optimal connection rate is not necessarily 100 per cent; it may vary among countries and depends on geographical features and on the spatial distribution of habitats. The interpretation of those data should take into account some variations in countries' definitions, as reflected in metadata.
    • septiembre 2015
      Fuente: Water FootPrint Network
      Subido por: Knoema
      Acceso el: 27 octubre, 2015
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      Reference: Mekonnen, M.M. & Hoekstra, A.Y. (2011) The green, blue and grey water footprint of crops and derived crop products, Hydrology and Earth System Sciences, 15(5): 1577-1600.
    • septiembre 2015
      Fuente: Water FootPrint Network
      Subido por: Knoema
      Acceso el: 27 octubre, 2015
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      Reference: Mekonnen, M.M. & Hoekstra, A.Y. (2011) The green, blue and grey water footprint of crops and derived crop products, Hydrology and Earth System Sciences, 15(5): 1577-1600.
    • septiembre 2015
      Fuente: Water FootPrint Network
      Subido por: Knoema
      Acceso el: 27 octubre, 2015
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      Reference: Mekonnen, M.M. & Hoekstra, A.Y. (2012) A global assessment of the water footprint of farm animal products, Ecosystems, 15(3): 401–415.
    • septiembre 2015
      Fuente: Water FootPrint Network
      Subido por: Knoema
      Acceso el: 27 octubre, 2015
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      Reference: Mekonnen, M.M. & Hoekstra, A.Y. (2011) National water footprint accounts: the green, blue and grey water footprint of production and consumption, Value of Water Research Report Series No.50, UNESCO-IHE, Delft, the Netherlands.
    • agosto 2018
      Fuente: EarthEcho Water Challenge
      Subido por: Knoema
      Acceso el: 22 agosto, 2018
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      The pH of pure water is 7. In general, water with a pH lower than 7 is considered acidic, and with a pH greater than 7 is considered basic. The normal range for pH in surface water systems is 6.5 to 8.5, and the pH range for groundwater systems is between 6 to 8.5.
    • julio 2017
      Fuente: World Health Organization
      Subido por: Knoema
      Acceso el: 08 febrero, 2018
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    • diciembre 2011
      Fuente: World Resources Institute
      Subido por: Knoema
      Acceso el: 15 diciembre, 2011
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      Water Resources and Freshwater Ecosystems