A Corporate Accounting and Reporting Standard (Revised Edition)
Helps companies and other organizations to identify, calculate, and report GHG emissions by outlining a standard for accurate, complete, consistent, relevant and transparent accounting and reporting by companies and organizations.
Mas o que são exatamente estas emissões agropecuárias e por que é importante reduzi-las? Baseados no que há de mais recente em termos de pesquisa e de dados, aqui está tudo o que você precisa saber sobre a pegada de carbono na agropecuária.
Os produtores brasileiros estão entre os principais fornecedores globais de carne, soja, cana de açúcar, arroz e café, entre outros. Mas estão também entre os principais produtores de Gases de Efeito Estufa (GEE).
Brazil’s farms are major, global producers of beef, soybeans, sugarcane, coffee, rice, and more. Yet they’re also major producers of greenhouse gas emissions.
Two new resources aim to reduce the emissions intensity of Brazil’s agricultural sector. The guidance offers an emissions accounting framework for all companies with agricultural operations—whether they produce animals or plants for food, fiber, biofuels, drugs, or other purposes. The calculation tool drills down into specific practices and emissions-intensive subsectors like soy, corn, cotton, wheat, rice, sugar cane, and cattle.
National and corporate/facility level GHG inventory systems can help countries address climate change. However, these systems are often developed independently of each other, and confusion exists regarding the purpose of and need for each inventory type. This working paper seeks to describe...
This working paper summarizes the results of scoping research conducted by WRI and its partners to assess capacity needs in six countries—Brazil, Colombia, Ethiopia, India, South Africa, and Thailand—related to greenhouse gas (GHG) measurement and performance tracking. The paper also identifies...
A Synthesis of Non-Annex I Country National Inventory System Practices and Experiences
National greenhouse gas (GHG) inventory systems are complex but critical for meeting international reporting requirements and informing domestic low-carbon strategies and goals. This paper uses examples from five countries to discuss emerging good practices for the development of sustainable...
Cities account for more than 70 percent of global carbon dioxide emissions. Many recognize the importance of GHG inventories in city planning and have started measuring and reporting their GHG emissions. However, the absence of a universal accounting standard led to a number of issues in city GHG inventories, including:
Inconsistency: Inventories varied in types of gases measured, emissions sources included, and categorization of emissions, reducing clarity and comparability of results.
Incompleteness: Many of the methods out there focus only on carbon dioxide emissions, excluding other essential greenhouse gases covered under the Kyoto Protocol.
Double-counting: Due to unclear categorization and division of direct and indirect emissions, double-counting within and between inventories occurred.
These differences confused and sometimes misled decision-makers, users, and practitioners.
The pilot version of the GPC was released in 35 cities in May 2012. In the first 6 months, the three core partners deliberated on how to develop the standard together and engage diverse cities. Early this year, the partners agreed that the GHG Protocol program at WRI would lead development of the GPC while C40 and ICLEI would lever their extensive city networks to participate as pilot testers. WRI has since established an advisory committee that consists of more than 30 international organizations, cities, national governments, and foundations.
Within a year of the GPC’s launch, we have influenced 60 cities to measure and report city-wide GHG emissions. Successful implementation by these pioneer cities has created momentum to scale up GPC’s global adoption in other cities. In particular, we continue to work with our partners to promote it in China, Brazil, and India. In these countries, we’ve begun developing country-specific, GHG calculation tools and provided training and technical assistance to help local practitioners. Once the GPC is finalized in early 2014, we aim to convince more than 500 cities to use the standard by 2018.