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World Resources Institute

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World Resources Institute (WRI)
Formation1982; 42 years ago (1982)
FounderJames Gustave Speth
HeadquartersWashington, D.C.
United States
Ani Dasgupta
Chairman of the Board
James Harmon
Revenue (2020)
US$ 149 million[1]
Expenses (2020)US$ 144 million[2]
WebsiteWRI.org

The World Resources Institute (WRI) is a global research non-profit organization established in 1982 with funding from the MacArthur Foundation[3][4] under the leadership of James Gustave Speth.[5][6] Subsequent presidents include Jonathan Lash (1993–2011), Andrew D. Steer[3] (2012–2021)[7] and current president Ani Dasgupta (2021–present).[8]

WRI studies sustainable practices for business, economics, finance and governance, with the purpose of better supporting human society in six areas: food, forests, water, energy, cities, and climate.[9] The institute's flagship report series is the World Resources Report,[10] each of which deals with a different topic.[11] WRI encourages initiatives for monitoring, data analysis, and risk assessment, including global and open source projects. WRI has maintained a 4 out of 4 stars rating from Charity Navigator since 1 October 2008.[citation needed][12]

Organization

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The mission of the World Resources Institute (WRI) is to “move society to provide for the needs and aspirations of current and future generations”.[13] It seeks to promote a sustainable human society[14] with a basis of human health and well-being, environmental sustainability, and economic opportunity.[15] WRI partners with local and national governments, private companies, publicly held corporations, and other non-profits, and offers services including global climate change issues, sustainable markets, ecosystem protection, and environmental responsible governance services.[16][17]

The World Resources Institute maintains international offices in the Brazil, China, Colombia, Ethiopia, India, Indonesia, Kenya, Mexico, the Netherlands, Turkey, the United Kingdom and the United States and is active in over 50 countries.[18] A report by the Center for International Policy's Foreign Influence Transparency Initiative of the top 50 think tanks on the University of Pennsylvania's Global Go-To Think Tanks rating index found that during the period 2014–2018 World Resources Institute received more funding from outside the United States than any other think tank, with a total of more than US$63 million, though this was described as "unsurprising" given the institute's presence in so many countries.[19] In 2014, Stephen M. Ross, an American real estate developer, gave the organization US$30 million to establish the WRI Ross Center for Sustainable Cities.[20]

Initiatives

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WRI's activities are focused on the areas of water (including oceans), forests, climate,[21] energy,[22] food[23][24] and cities.[25][26] WRI is active in initiatives for monitoring, data analysis, and risk assessment. WRI emphasizes the extent to which systems are linked, and the need to connect issues such as addressing food insecurity with strategies to address climate change, protect ecosystems, and provide economic security.[27]

WRI worked with companies to develop a common standard, the Greenhouse Gas Protocol for quantifying and managing GHG emissions.[28][29] WRI tracks estimates of fossil fuel combustion and greenhouse gas emissions, published as biennial reports.[30] WRI's Science Based Targets initiative (SBTi) was established in 2015 to help companies to set emission reduction targets in line with climate science.[31][32] The WRI manages the Climate Watch website (formerly known as the CAIT Climate Data Explorer), which enables journalists and others to examine greenhouse gas data by country and per capita emissions.[33][34]

In 1997 and 2000, WRI published the first comparative study of material flow accounting (MFA), using time series data to comprehensively assess all material inputs and outputs (excluding water) used by industrial economies.[35]

In 2008, the World Resources Institute reported on water quality world-wide, identifying over 400 dead zones due to eutrophication including areas in the Baltic Sea, the Chesapeake Bay in the United States, and Australia's Great Barrier Reef (33, 34). Eutrophication results from the discharge of highly concentrated phosphorus in urban wastewater into lakes and rivers, and from agricultural nutrient pollution.[36] WRI advocates for the use of local nature-based solutions (NBS), which tend to be cost-effective, to improve ecosystems, resist water-related climate impacts, and mitigate the effects of warming.[37] WRI publishes the Aqueduct Water Risk Atlas, ranking countries in terms of risk of severe water crises.[38][39]

WRI is active in studying the world's coral reefs,[40] publishing reports in 1998 and 2011 that tracked damages due to coastal development, overfishing, climate change and rising ocean acidity.[41][42][43] A 2022 report examines reefs to a 500 metres (1,600 ft) resolution and analyzes the protection that reefs provide to people, infrastructure and the GDP.[44]

Beginning in 2002, the World Resources Institute worked with the Cameroon Forest Initiative, to combine disparate sources of data on land use to form digital and paper maps to track changes to Cameroon's forests and improve their management. They integrated satellite imagery with information on agricultural terrain, boundaries, protected land, community-owned forests, and authorized land use by commercial logging operations and mining concessions.[45]

In 2014, WRI built upon Matthew C. Hansen's work at the University of Maryland on forest change analysis. WRI partnered with Google Earth Engine to develop Global Forest Watch (GFW), an open-source web application that uses Landsat satellite imagery to map forest changes.[46][47][48] Weekly GLAD deforestation alerts and daily Fires alerts can be specific to a 30 square metres (320 sq ft) area. Global Forest Watch is most frequently used by nongovernmental organizations (NGOs), academic researchers, government employees, and the private sector. It is also used by journalists and indigenous groups,[49][50] many of whose lands are threatened.[51][52] Applications of Global Forest Watch include rapid detection and response to fires,[49] detecting illegal logging, assuring supply chain transparency, and assessing endangered tiger habitats.[53]

Working with the Sustainability Consortium, WRI works to identify and quantify major drivers of forest losses. For example, they have identified industrial scale internationally traded commodity crops such as beef, soybeans, palm oil, corn, and cotton as a dominant driver of forest loss in South America and Southeast Asia.[54][55]

As of January 2021, WRI used Global Forest Watch to generate a forest carbon flux map that combined data about emissions and removals of forest-related greenhouse gases. Using a new method for integrating ground, airborne, and satellite data to measure carbon fluctuations in forests, they were able to map forests worldwide at a resolution of 30 metres (98 ft) yearly from 2001–2019. They were able to identify the contributions of different forest types, confirming that tropical forests both absorb more carbon than other types of forests, and release more as a result of deforestation and degradation. By integrating emissions and removals, the map increases the transparency and accuracy of global carbon estimates and can support more effective forest management decisions.[56][57]

In addition to mapping carbon emissions from forest loss, WRI is working with scientists at Purdue University, Science-i, and the Global Forest Biodiversity Initiative to develop methods for assessing carbon accumulation rates in forested ecosystems. Such rates are affected by three forest growth components, which are difficult to measure: ingrowth, upgrowth and mortality. Being able to assess this more accurately would reduce uncertainty in estimating the impact of global forests as a carbon sink.[58]

WRI has partnered with Google Earth Engine to develop Dynamic World, a near real-time (NRT) application that uses high-resolution satellite images to do land use land cover (LULC) classification. Dynamic World identifies areas of land and water such as wetlands, forests, trees, crops and urban areas. Released in June 2022, its uses include monitoring ecosystem restoration, assessing protected areas, and detecting land changes due to deforestation and fires.[59][60][61]

WRI's LandMark project provides maps and information indicating lands that are collectively held and used by Indigenous peoples and local communities.[52] Data for the Amazon region has shown that rainforest managed by local and Indigenous communities stores carbon dioxide, while rainforest managed by government and private interests is a net source of greenhouse gases.[62]

Other WRI initiatives include The Access Initiative, which ranks countries based on environmental democracy, the ability of citizens to engage in decision-making about natural resources, as measured by transparency, public participation laws, and access to justice.[63][64]

In 2014, philanthropist Stephen M. Ross established the WRI Ross Center for Sustainable Cities through a major gift.[65] The Center focuses on the development of sustainable cities and improvements in quality of life in developing countries around the world. WRI's flagship report for 2021 was Seven Transformations for More Equitable and Sustainable Cities.[10] It followed Accelerating Building Efficiency: Eight Actions for Urban Leaders (2019).[66]

The Platform for Accelerating the Circular Economy (PACE) is a public-private collaboration platform and project accelerating focusing on building the circular economy.[67] PACE was launched during the 2018 World Economic Forum Annual meeting.[68]

The Renewable Energy Buyers Alliance (REBA) is an alliance of large clean energy buyers, energy providers, and service providers that is unlocking the marketplace for all non-residential energy buyers to lead a rapid transition to a cleaner, prosperous, zero-carbon renewable energy future.[69] It has over 200 members including Google, GM, Facebook, Walmart, Disney and other large companies, and reached 6 GW capacity in 2018.[70]

WIR's Champions 12.3 coalition[13] promotes a “Target, Measure, Act” strategy with the goal of halving food loss and waste by 2030.[71]

Criticism

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A 1990 study by the World Resources Institute was criticized by Anil Agarwal, who had been on the council of the World Resources Institute from 1988 to 1990. Agarwal, who "was among the first to argue that concepts of social equity need to be integrated into international policies aimed at mitigating the harmful effects of human-induced climate change",[72] accused WRI of allocating too much responsibility for global warming to developing countries, and under-acknowledging the impact of U.S. overconsumption on global warming. He called the WRI study an example of environmental colonialism and suggested that a fairer analysis would balance sources of emissions against terrestrial sinks for each nation.[73][74] His critique sparked considerable debate about the appropriate methodologies for such analysis, and resulted in increased awareness of the issues involved.[75][76]

See also

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References

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  1. ^ World Resources Institute. "WRI ANNUAL REPORT | 2020-2021" (PDF). www.wri.org/. p. 36. Retrieved April 4, 2024.
  2. ^ World Resources Institute. "WRI ANNUAL REPORT | 2020-2021" (PDF). www.wri.org/. p. 36. Retrieved April 4, 2024.
  3. ^ a b Broder, John M. (March 14, 2012). "Climate Change Envoy to Lead Influential Institute". New York Times. Retrieved August 6, 2014.
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  6. ^ Rich, Nathaniel (August 1, 2018). "Losing Earth: The Decade We Almost Stopped Climate Change". The New York Times. Retrieved June 6, 2023.
  7. ^ Stiffler, Lisa (March 9, 2021). "$10B Bezos Earth Fund hires a long-time global leader on climate issues as president and CEO". GeekWire. Retrieved June 1, 2023.
  8. ^ Uchida, Kyoko (April 17, 2023). "Ani Dasgupta, President and CEO, World Resources Institute: Philanthropy's opportunity to fill the gaps—and do it right". Philanthropy News Digest. Retrieved June 1, 2023.
  9. ^ "World Resources Institute | UNDP Climate Change Adaptation". United Nations Development Programme 2023. Retrieved June 5, 2023.
  10. ^ a b "Illustrating a Call to Action for More Equitable and Sustainable Cities". Graphicacy. December 2, 2021.
  11. ^ "World Resources Report". World Resources Institute. December 4, 2018.
  12. ^ "Charity Navigator - Rating for World Resources Institute". www.charitynavigator.org. Retrieved June 8, 2023.
  13. ^ a b Steer, Andrew (October 17, 2018). "Raising Early Warnings About Climate Change". MacArthur Foundation. Retrieved June 6, 2023.
  14. ^ "World Resources Institute". UNCCD. Retrieved June 5, 2023.
  15. ^ "World Resources Institute Offices – Washington DC". Office Snapshots. August 30, 2016. Retrieved October 11, 2017.
  16. ^ Bloomberg (2017). "World Resources Institute". bloomberg.com. Retrieved October 11, 2017.
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  18. ^ "WRI develops practical solutions that improve people's lives and ensure nature can thrive". World Resources Institute. Retrieved June 2, 2023.
  19. ^ Freeman, Ben (January 2020). Foreign Funding of Think Tanks in America (PDF) (Report). Center for International Policy. p. 11. Archived from the original (PDF) on September 1, 2020. Retrieved September 6, 2020.
  20. ^ Pogrebin, Robin. "Developer Gives $30 Million to Establish City Planning Center". New York Times. Retrieved August 6, 2014.
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  42. ^ Irvine, Dean (May 25, 2010). "Could online maps save coral reefs? - CNN.com". CNN. Retrieved June 6, 2023.
  43. ^ Society, Wildlife Conservation (April 8, 2015). "Recipe for saving coral reefs: Add more fish". Phys.org.
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  45. ^ Bryce, Emma (November 15, 2012). "Mapping Cameroon's Motley Canopy". The New York Times Green Blog.
  46. ^ McGrath, Matt (February 21, 2014). "New online tool tracks tree loss in 'near real time'". BBC News. Retrieved November 10, 2015.
  47. ^ Newman, Lily (February 21, 2014). "This Mapping Service Lets Us Watch Forests Shrink". Slate. Retrieved November 10, 2015.
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  49. ^ a b Shea, Katherine (2022). "Measuring the Impact of Monitoring: How We Know Transparent Near-Real-Time Data Can Help Save the Forests". Transformational Change for People and the Planet: Evaluating Environment and Development. Sustainable Development Goals Series. Springer International Publishing. pp. 263–273. doi:10.1007/978-3-030-78853-7_18. ISBN 978-3-030-78853-7.
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  52. ^ a b "LandMark Map". LandMark. Retrieved June 6, 2023.
  53. ^ "Case Studies". Google Earth Engine. Retrieved June 5, 2023.
  54. ^ Ritchie, Hannah; Roser, Max; Rosado, Pablo (May 11, 2020). "CO₂ and Greenhouse Gas Emissions". Our World in Data.
  55. ^ Voiland, Adam (August 11, 2021). "Sizing Up How Agriculture Connects to Deforestation". earthobservatory.nasa.gov. Retrieved June 5, 2023.
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  57. ^ Harris, Nancy L.; Gibbs, David A.; Baccini, Alessandro; Birdsey, Richard A.; de Bruin, Sytze; Farina, Mary; Fatoyinbo, Lola; Hansen, Matthew C.; Herold, Martin; Houghton, Richard A.; Potapov, Peter V.; Suarez, Daniela Requena; Roman-Cuesta, Rosa M.; Saatchi, Sassan S.; Slay, Christy M.; Turubanova, Svetlana A.; Tyukavina, Alexandra (March 2021). "Global maps of twenty-first century forest carbon fluxes". Nature Climate Change. 11 (3): 234–240. doi:10.1038/s41558-020-00976-6. ISSN 1758-6798.
  58. ^ "Purdue launches new AI-based global forest mapping project". Purdue University Agriculture News. January 25, 2023.
  59. ^ Cowan, Carolyn (June 9, 2022). "New near-real-time tool reveals Earth's land cover in more detail than ever before". Mongabay Environmental News. Retrieved June 5, 2023.
  60. ^ Price, Gary (June 9, 2022). "Dynamic World: A New Online Tool from World Resources Institute and Google Earth Engine Shows How the Planet Is Changing in Near Real Time". Library Journal infoDOCKET. Retrieved June 5, 2023.
  61. ^ Brown, Christopher F.; Brumby, Steven P.; Guzder-Williams, Brookie; Birch, Tanya; Hyde, Samantha Brooks; Mazzariello, Joseph; Czerwinski, Wanda; Pasquarella, Valerie J.; Haertel, Robert; Ilyushchenko, Simon; Schwehr, Kurt; Weisse, Mikaela; Stolle, Fred; Hanson, Craig; Guinan, Oliver; Moore, Rebecca; Tait, Alexander M. (June 9, 2022). "Dynamic World, Near real-time global 10 m land use land cover mapping". Scientific Data. 9 (1): 251. doi:10.1038/s41597-022-01307-4. PMC 9184477.
  62. ^ Berwyn, Bob; Surma, Katie (January 16, 2023). "In the Amazon, Indigenous and Locally Controlled Land Stores Carbon, but the Rest of the Rainforest Emits Greenhouse Gases". Inside Climate News. Retrieved June 6, 2023.
  63. ^ "Home | The Access Initiative". accessinitiative.org.
  64. ^ "India ranks 24th out of 70 countries in the first Environmental Democracy Index". The Indian Express. May 21, 2015.
  65. ^ "Stephen Ross Makes Over $30 Million Gift to WRI to Advance Sustainable Cities". World Resources Institute. May 19, 2014. Retrieved June 6, 2023.
  66. ^ Michell, Nick (June 5, 2016). "WRI releases new cities report on building efficiency". Cities Today.
  67. ^ Moloney, Anastasia (February 5, 2021). "Consume less, recycle more to meet climate goals, ministers say". Thomson Reuters Foundation News.
  68. ^ "PACE Releases Guidance for Circular Economy Transition in Five Sectors | News". IISD's SDG Knowledge Hub. February 24, 2021.
  69. ^ "REBA – Renewable Energy Buyers Alliance". rebuyers.org.
  70. ^ Dzikiy, Phil (March 28, 2019). "Google, GM, and more than 300 other companies launch Renewable Energy Buyers Alliance". Electrek. Retrieved March 28, 2019.
  71. ^ Goodwin, Liz (October 28, 2022). "Is Global Progress to Fight Food Loss and Waste Enough?". The OECD Forum Network.
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  73. ^ Agarwal, Anil; Narain, Sunita (November 21, 2019). "Global Warming in an Unequal World: A Case of Environmental Colonialism". India in a Warming World: Integrating Climate Change and Development. doi:10.1093/oso/9780199498734.003.0005.
  74. ^ World resources 1990-91: a report. New York, NY: Oxford Univ. Pr. 1990. ISBN 978-0195062298.
  75. ^ Guha, Ramachandra (2002). "Environmentalist of the Poor". Economic and Political Weekly. 37 (3): 204–207. ISSN 0012-9976. JSTOR 4411622.
  76. ^ Lash, Scott; Szerszynski, Bronislaw; Wynne, Brian (April 5, 1996). Risk, Environment and Modernity: Towards a New Ecology. SAGE. p. 244. ISBN 978-0-8039-7938-3.
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