When President Barack Obama announced the country’s first national climate strategy, many people wondered what it would mean across the nation. Yet, the strategy may carry even more significant implications overseas.
The plan restricts U.S. government funding for most international coal projects. This policy could significantly affect energy producers and public and private investors around the globe.
Brazil’s economy has been booming. During the past decade, it grew from the ninth to the sixth-largest in the world. While this growth has brought many socioeconomic benefits, it’s come with a downside: significant environmental impacts. Brazil has the highest rate of deforestation worldwide, while pollution threatens the country’s drinking water supply. Despite a decrease in national greenhouse gas emissions of late, agriculture emissions and energy demand are still rising.
While manufacturing is a critical part of the U.S. economy, it’s struggled over the last several years—both financially and environmentally. Overall U.S. manufacturing employment has dropped by more than one-third since 2000. Meanwhile, U.S. industry—of which manufacturing is the largest component—still uses more energy than any other sector and serves as the largest source of U.S. and global greenhouse gas emissions.
The good news is that energy efficiency can help U.S. manufacturing increase profits, protect jobs, and lead the development of a low-carbon economy. The Midwest’s pulp and paper industry is a case in point: New WRI analysis finds that the pulp and paper sector—the third-largest energy user in U.S. manufacturing—could cost-effectively reduce its energy use in the Midwest by 25 percent through use of existing technologies. These improvements could save hundreds of thousands of jobs, lower costs, and help the United States achieve its goal of reducing emissions by 17 percent by 2020. As the White House moves to cut carbon dioxide pollution in America, energy efficiency improvements in Midwest pulp and paper mills are a tangible example of the win-win-win emissions-reduction opportunities in U.S. industry.
A social entrepreneur invests the little working capital she has to bring solar electricity to a community that –like 1.2 billion people worldwide– lacks access to electricity. The community used to use dirty, expensive and choking kerosene for light to cook by and for children to learn by. The entrepreneur knows she can recoup her costs, because people are willing to pay for reliable, high-quality, clean energy – and it will be even less than what they used to pay for kerosene. Sounds like a good news story, right?
Three months later, the government utility extends the electrical grid to this same community, despite official plans showing it would take at least another four years. While this could be good news for the community, one unintended consequence is that this undermines the entrepreneur’s investment, wiping out their working capital, and deterring investors from supporting decentralized clean energy projects in other communities that lack access to electricity.
Few countries are unaffected by China’s overseas investments. The country’s outward foreign direct investments (OFDI) have grownfrom $29 billion in 2002 to more than $424 billion in 2011. While these investments can bring economic opportunities to recipient countries, they also have the potential to create negative economic, social, and environmental impacts and spur tension with local communities.
To address these risks, China’s Ministry of Commerce (MOFCOM) and Ministry of Environment (MEP)—with support from several think tanks—recently issued Guidelines on Environmental Protection and Cooperation. These Guidelines are the first-ever to establish criteria for Chinese companies’ behaviors when doing business overseas—including their environmental impact. But what exactly do the Guidelines cover, and how effective will they be? Here, we’ll answer these questions and more.
The global market for wood and other forest products is changing quickly. The industry has long struggled to address the problem of illegal logging, which damages diverse and valuable forests and creates economic losses of up to $10 billion a year. In some wood-producing countries, illegal logging accounts for 50-90 percent of total production.
But recent developments indicate that we may be turning a corner: Illegal logging rates worldwide have declined by about 20 percent since 2008.
This was the topic on everyone’s minds at the recent Forest Legality Alliance meeting in Washington, D.C. This meeting brought together nearly 100 members and experts representing a wide array of companies, trade associations, NGOs, and governments involved in the harvest, manufacturing, and trade of legally produced forest products.
Developing countries will need about $531 billion of additional investments in clean energy technologies every year in order to limit global temperature rise to 2°C above pre-industrial levels, thus preventing climate change’s worst impacts. To attract investments on the scale required, developing country governments, with support from developed countries, must undertake “readiness” activities that will encourage public and private sector investors to put their money into climate-friendly projects.
WRI’s six-part blog series, Mobilizing Clean Energy Finance, highlights individual developing countries’ experiences in scaling up investments in clean energy and explores the role climate finance plays in addressing investment barriers. The cases draw on WRI’s recent report, Mobilizing Climate Investment.
The development of Indonesia’s geothermal energy sector—and the starts and stops along the way—provides an interesting case study on how to create readiness for low-carbon energy. By addressing barriers such as pricing distortions and resource-exploration risks, the country has begun to create a favorable climate for geothermal investment.
The History of Geothermal Power in Indonesia
Indonesia holds the world’s largest source of geothermal power, with an estimated potential of 27 GW. However, less than 5 percent of this potential has been developed to date. Indonesia began to explore its geothermal resource in the 1970s, with support from a number of developed country governments. The country made some progress in advancing geothermal development by the 1990s. However, development stalled during the Asian financial crisis in 1997-98 and was slow to recover.
In the early 2000s, a number of barriers limited investment in the sector, including a policy and regulatory framework that favored conventional, coal-fired energy over geothermal. Plus, the high cost and risk associated with geothermal exploration deterred potential investors and made it difficult to access financing from banks.
The Indonesian government took a number of steps to try to advance geothermal development and received support from a wide range of international partners, including multilateral development banks and developed country governments. In 2003, it passed a law to promote private sector investment in geothermal, establishing a target of 6,000MW installed capacity by 2020.
This post was co-authored with Carita Chan, an intern with WRI's forests initiative.
As the crisis of tropical deforestation reaches a new level of urgency due to forest fires raging in Indonesia, an important question is how can the world satisfy the growing demand for forest products while still preserving forest ecosystems? This week, some of the world’s largest companies will join U.S. and Indonesian government officials in Jakarta at the Tropical Forest Alliance 2020 (TFA 2020) meeting to discuss this issue.
The meeting comes three years after the Consumer Goods Forum (CGF), a group of the world’s 400 largest consumer goods companies from 70 countries, announced their commitment to source only deforestation-free commodities in their supply chains and help achieve net-zero deforestation by 2020. The TFA 2020, a public-private partnership established in 2012 at the Rio+20 Summit, aims to provide concrete guidance on how to implement the forum’s pledge.
Canada’s Prime Minister, Stephen Harper, took a significant step toward promoting transparency and reducing global poverty. He announced yesterday that Canada will implement mandatory reporting requirements for Canadian extractive companies operating both in-country and abroad.
This mandate will require Canadian extractive companies to publicly disclose the payments they make to foreign governments in exchange for permission to operate on their soil. This development will help promote transparency in the mining sector and, if implemented effectively, could help combat the “resource curse.”
Fighting the Resource Curse through Access to Information
Tackling the “resource curse” is a challenge of global proportions. The term applies to situations where, despite a country’s mineral or oil wealth, poverty is exacerbated in part by weak or corrupt institutions, government mismanagement of revenues, and a failure to re-invest into projects that benefit the public—such as infrastructure, education, and healthcare. Often, citizens of resource curse countries aren’t able to hold their governments accountable for this abuse of power because they lack information about their country’s revenues and expenditures (see Box).
This post originally appeared on the National Journal's Energy Experts blog.
As evidence of climate change mounts, President Obama has made it clear that tackling this issue will be a priority in his second term. Yet, as weeks go by, the administration has been slow to clarify its strategy. With each passing day, it becomes harder and more expensive to rein in greenhouse gas emissions.
Meanwhile, other global powers are moving forward--and many of them carry valuable lessons which American policymakers can look to. The most successful countries are showing national leadership, strong and consistent policies, and commitment to clean energy.
Where, then, are signs of progress on clean energy?
Germany’s Energiewende: Leading the Way
High on the list is Germany, whose ambitious energy transformation strategy--or “Energiewende”--aims to reduce greenhouse gases by 80 to 95 percent by 2050, compared to 1990 levels. This will be achieved by enhancing energy efficiency, reducing primary energy consumption by 50 percent, and ramping up renewable energy to at least 80 percent of electricity consumption in the same time-frame.
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