|
- Resource Panel
The International Resource Panel provides independent, coherent, and authoritative scientific assessments of policy relevance on the sustainable use of natural resources
- Reports - Resource Panel
The International Resource Panel's scientific assessments include Decoupling, Cities, Water, Metals, Land and Soils, Food, Trade, Resource Efficiency, Green Technology and Global Materials Flows
- About - Resource Panel
The International Resource Panel (IRP) was launched by the United Nations Environment Programme (UNEP) in 2007 to build and share the knowledge needed to improve our use of resources worldwide The Panel consists of eminent scientists with expertise in resource management issues
- Resource Efficiency | Resource Panel
This report from the International Resource Panel and the One Planet network explains the ‘Value-Chain Approach’ methodology and shares findings from its application to three critical sectors: food, construction and textiles
- Global Material Flows Database - Resource Panel
Material flows and resource productivity indicators are central to monitoring the changing patterns of resource use as global economies grow They are essential for monitoring progress towards SDG targets 8 4 ‘Resource Productivity’ and 12 2 ‘Sustainable Use of Natural Resources’
- Global Resources Outlook 2019 | Resource Panel
This collection of factsheets for each of the G20 countries was based on research completed by the International Resource Panel for the report “Global Resources Outlook 2019: Natural Resources for the Future We Want"
- The Panel | Resource Panel
The International Resource Panel has 33 expert members drawn from a wide range of academic institutions and scientific disciplines, supported by a small Secretariat
- Resource Efficiency and Climate Change | Resource Panel
The International Resource Panel (IRP) Report, Resource Efficiency and Climate Change: Material Efficiency Strategies for a Low-Carbon Future – to be released on 18 November 2020 at the Race to Zero event - is the first comprehensive scientific analysis of potential GHG emission savings from material efficiency
|
|
|