League rules, procedures, scoring and so much more!
Introduction
Step into a new frontier of environmental action with the Global Climate League, where the focus is on the bioregional stage. Whether you're an individual, a company, a school, or a community group - everyone's invited to join this exhilarating venture.
Under the vast umbrella of the Global Climate League, 185 teams emerge, each representing a distinct bioregion on our planet. It's not just a league; it's a movement uniting people worldwide. Picture this: 5 theme-leagues, each with its own set of league-specific standings and a coveted championship.
Now, here's the magic - the teams aren't just made up of players; they encompass everyone in the bioregion contributing to activities related to the 5 key themes. It's a dynamic collaboration where individuals, organizations, and companies join forces, driving impactful change right where it matters most. Welcome to the Global Climate League, where every bioregion becomes a stage for environmental and social transformation.
How to...
League scoring methodologies, goals & indicators
Methodology Profile
Methodology Indicators & KPIs
Category:
Environment
Macro-indicator:
Ozone-depleting substances (ODS) and chemicals
Methodology:
SDPI - Sustainable Development Performance Indicators
Goal:
To disclose the use of ODS and chemicals for
the last five years to gauge a trend.
This indicator aims to quantify an entity’s dependency on ozone-depleting substances (ODS) and chemicals, per NVA. The most important ODS and chemicals are controlled under the Montreal Protocol and are listed in annex A, B, C or E of the Protocol.
Category:
Environment
Macro-indicator:
Pollution
Methodology:
ESRS - European Sustainability Reporting Standards
Goal:
Actions and resources related to pollution
See link, plus Section Annexes
- Pollution of air
- Pollution of water
- Pollution of soil
- Pollution of living organisms and food resources
- Substances of concern and very high concern
- Microplastics
Category:
Environment
Macro-indicator:
Pollution
Methodology:
ESRS - European Sustainability Reporting Standards
Goal:
Policies related to pollution
See link, plus Section Annexes
- Pollution of air
- Pollution of water
- Pollution of soil
- Pollution of living organisms and food resources
- Substances of concern and very high concern
- Microplastics
Category:
Environment
Macro-indicator:
Pollution
Methodology:
ESRS - European Sustainability Reporting Standards
Goal:
Pollution of air, water and soil
See link, plus Section Annexes
- Pollution of air
- Pollution of water
- Pollution of soil
- Pollution of living organisms and food resources
- Substances of concern and very high concern
- Microplastics
Category:
Environment
Macro-indicator:
Pollution
Methodology:
ESRS - European Sustainability Reporting Standards
Goal:
Substances of concern and substances of very high concern
See link, plus Section Annexes
- Pollution of air
- Pollution of water
- Pollution of soil
- Pollution of living organisms and food resources
- Substances of concern and very high concern
- Microplastics
Category:
Environment
Macro-indicator:
Pollution
Methodology:
ESRS - European Sustainability Reporting Standards
Goal:
Targets related to pollution
See link, plus Section Annexes
- Pollution of air
- Pollution of water
- Pollution of soil
- Pollution of living organisms and food resources
- Substances of concern and very high concern
- Microplastics
Category:
Environment
Macro-indicator:
Pollution
Methodology:
ESRS - European Sustainability Reporting Standards
Goal:
Anticipated financial effects from material pollution-related risks and opportunities
See link, plus Section Annexes
- Pollution of air
- Pollution of water
- Pollution of soil
- Pollution of living organisms and food resources
- Substances of concern and very high concern
- Microplastics
Category:
Environment
Macro-indicator:
Product Design & Use
Methodology:
Circle Economy Foundation
Goal:
Product Repairability
Percentage and total weight of the output materials of the product that has been designed to facilitate repair. Designed for repair in such a way that uses existing systems for repair in practice and at scale (e.g. network of repair shops, your own repair service). Examples of design choices are: modular design / built in predictive maintenance sensors, repair diagnostics etc. / designed with right to repair by third parties / designed for remanufacturing / using standardised components across a sector.
Category:
Environment
Macro-indicator:
Product Design & Use
Methodology:
Circle Economy Foundation
Goal:
Outflow recovery potential
The % recovery potential reflects the ability of the company to design its outflow to ensure it is technically recoverable through either the technical or biological cycles. Indicator assesses how the company designs its products to ensure the technical recovery of components and materials at a functional equivalence.
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