WRI's activities are focused on the areas of water (including oceans), forests, climate, energy, food and cities. 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.
Food, Land and Water 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. 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. 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. Weekly GLAD deforestation alerts and daily Fires alerts can be specific to a 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, many of whose lands are threatened. Applications of Global Forest Watch include rapid detection and response to fires, 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 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. 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. 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. 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.
Cities In 2014, philanthropist
Stephen M. Ross established the WRI Ross Center for Sustainable Cities through a major gift. 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.
Energy The Platform for Accelerating the Circular Economy (PACE) is a public-private collaboration platform and project accelerating focusing on building the
circular economy. PACE was launched during the 2018
World Economic Forum Annual meeting. 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. It has over 200 members including Google, GM, Facebook, Walmart, Disney and other large companies, and reached 6 GW capacity in 2018.
Oceans 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. 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. WRI publishes the
Aqueduct Water Risk Atlas, ranking countries in terms of risk of severe water crises. WRI is active in studying the world's
coral reefs, publishing reports in 1998 and 2011 that tracked damages due to coastal development, overfishing, climate change and rising ocean acidity. A 2022 report examines reefs to a resolution and analyzes the protection that reefs provide to people, infrastructure and the
GDP.
Climate WRI worked with companies to develop a common standard, the
Greenhouse Gas Protocol for quantifying and managing GHG emissions. WRI tracks estimates of fossil fuel combustion and
greenhouse gas emissions, published as biennial reports. WRI's
Science Based Targets initiative (SBTi) was established in 2015 to help companies to set emission reduction targets in line with climate science. 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.
Others WRI's LandMark project provides maps and information indicating lands that are collectively held and used by
Indigenous peoples and local communities. 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. WRI's Champions 12.3 coalition ==Criticism==