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World Resources Institute

WRI works to solve six great, global challenges that must be addressed this decade: water, forests, climate, energy, food, cities and transport. We have active projects in more than 50 countries, as well as institutional offices in the United States, China, India, Indonesia and Brazil.

Todos os conjuntos de dados:  A C G W
  • A
    • outubro 2013
      Fonte: World Resources Institute
      Carregamento por: Knoema
      Acesso em 07 dezembro, 2015
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      Competition for and depletion of water in major agricultural areas. Proportion of crop production in areas facing different levels of water stress. Baseline water stress (Gassert et al. 2013) is a measure of demand and supply for water in a given area, and is calculated as the ratio of local water withdrawal over available water supply   Data citation: Aqueduct Global Maps 2.1 database is licensed under a Creative Commons Attribution International 4.0 License.
    • janeiro 2014
      Fonte: World Resources Institute
      Carregamento por: Knoema
      Acesso em 07 dezembro, 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.
    • agosto 2015
      Fonte: World Resources Institute
      Carregamento por: Knoema
      Acesso em 25 março, 2019
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      Suggested citation: Luo, T., R. Young, and P. Reig. 2015. "Aqueduct projected water stress rankings." Technical note. Washington, DC: World Resources Institute, August 215. Available online at http://www.wri.org/publication/aqueduct-projected-water-stress-country-rankings.    Supplemental Materials: Country Scores                         WRI projected future country-level water stress for 2020, 2030, and 2040 under business-as-usual (BAU), optimistic, and pessimistic scenarios. Each tab lists country projected water stress scores for each scenario and year, weighted by overall water withdrawals. Scores weighted by individual sectors (agricultural, domestic, and industrial) are provided as well.   These global projections are best suited to making comparisons among countries for the same year and among scenarios and decades for the same region. More detailed and localized data or scenarios can better estimate potential outcomes for specific regions and expose large sub-national variations that are subsumed under countrywide water-stress values. The country indicators face persistent limitations in attempting to simplify complex information, such as spatial and temporal variations, into a single number. They also do not account for the governance and investment structure of the water sector in different countries.    It is important to note the inherent uncertainty in estimating any future conditions, particularly those associated with climate change, future population and economic trends, and water demand. Additionally, care should be taken when examining the change rates of a country’s projected stress levels between one year and another, because the risk-score thresholds are not linear. For more information on these limitations, see the technical note.   Projections are described in further detail in: Luck, M., M. Landis, and F. Gassert, “Aqueduct Water Stress Projections: Decadal Projections of Water Supply and Demand Using CMIP5 GCMs,” Technical note (Washington, DC: World Resources Institute, April 2015), http://www.wri.org/publication/aqueduct-water-stress-projections.   Water Stress withdrawals / available flow Water stress measures total annual water withdrawals (municipal, industrial, and agricultural) expressed as a percentage of the total annual available blue water. Higher values indicate more competition among users. Score Value [0-1) Low (<10%) [1-2) Low to medium (10-20%) [2-3) Medium to high (20-40%) [3-4) High (40-80%) [4-5] Extremely high (>80%)    
  • C
    • abril 2015
      Fonte: World Resources Institute
      Carregamento por: Knoema
      Acesso em 26 fevereiro, 2016
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      Data Citation: CAIT Climate Data Explorer. 2017. Washington, DC: World Resources Institute. Available online at: http://cait.wri.org   CAIT data carries a Creative Commons Attribution-NonCommercial 4.0 International license   The data set contains emission projections reported by national government refered to "National Government" (the majority of which are National Communications and Biennial Reports submitted by governments to the UNFCCC), by the U.S. Energy Information Administration (EIA) and a set of Integrated Assessment Models (IAMs) from Netherlands Environmental Assessment Agency (PBL), International Institute for Applied Systems Analysis (IIASA), and Potsdam Institute for Climate Impact Research (PIK).    
    • outubro 2017
      Fonte: World Resources Institute
      Carregamento por: Knoema
      Acesso em 06 agosto, 2018
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      Data Citation: CAIT Climate Data Explorer. 2017. Washington, DC: World Resources Institute. Available online at: http://cait.wri.org   CAIT data carries a Creative Commons Attribution-NonCommercial 4.0 International license   CAIT Historic allows for easy access, analysis and visualization of the latest available international greenhouse gas emissions data. It includes information for 186 countries, 50 U.S. states, 6 gases, multiple economic sectors, and 160 years - carbon dioxide emissions for 1850-2012 and multi-sector greenhouse gas emission for 1990-2012.
  • G
    • junho 2019
      Fonte: World Resources Institute
      Carregamento por: Knoema
      Acesso em 02 agosto, 2019
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      Data cited at: World Resources Institute The Global Power Plant Database is a comprehensive, open source database of power plants around the world. It centralizes power plant data to make it easier to navigate, compare and draw insights for one’s own analysis. Each power plant is geolocated and entries contain information on plant capacity, generation, ownership, and fuel type. As of June 2018, the database includes around 28,500 power plants from 164 countries. It will be continuously updated as data becomes available. The most recent release of the Global Power Plant Database 1.1 includes the addition of two countries (China and Fiji), over 3,000 power plants, and nearly 1300 gigawatts of power capacity.Citation Global Energy Observatory, Google, KTH Royal Institute of Technology in Stockholm, Enipedia, World Resources Institute. 2018. Global Power Plant Database. Published on Resource Watch and Google Earth Engine; http://resourcewatch.org/https://earthengine.google.com/
    • outubro 2017
      Fonte: World Resources Institute
      Carregamento por: Knoema
      Acesso em 04 setembro, 2018
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  • W
    • abril 2015
      Fonte: World Resources Institute
      Carregamento por: Knoema
      Acesso em 21 agosto, 2017
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      Aqueduct Global Maps 2.1 Data include indicators of water quantity, water variability, water quality, public awareness of water issues, access to water, and ecosystem vulnerability. The Aqueduct Water Risk Atlas makes use of a framework of 12 global indicators grouped into three categories of risk and one overall score. Aqueduct Global Maps 2.1 include indicators of water quantity, water variability, water quality, public awareness of water issues, access to water, and ecosystem vulnerability.  Citation: The Aqueduct Global Maps 2.1 database is licensed under a Creative Commons Attribution International 4.0 License.

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