Articles

Environmental conservation programs in China have increasingly emphasized integration of marketbased logic into regulatory programs. But the realization of market logic and the effectiveness of such efforts are widely questioned by scientists and policy analysts. The authors empirically analyze the design, implementation, and outcomes of the ecological restoration program in the Three-Rivers Headwater Region in China, a large-scale conservation scheme aimed at restoring degraded grasslands and improving local livelihoods.

In order to make R&D funding decisions to meet particular goals, such as mitigating climate change or improving energy security, or to estimate the social returns to R&D, policy makers need to combine the information provided in this study on cost reduction potentials with an analysis of the macroeconomic implications of these technological changes. The authors conclude with recommendations for future directions on energy expert elicitations.

China is the world's largest emitter of carbon dioxide, accounting for one-quarter of the global total in 2013. Although the country has successfully lowered the rate of emissions from industry in some cities through improved technology and energy-efficiency measures, rapid economic growth means that more emissions are being added than removed. Without mitigation, China's CO2 emissions will rise by more than 50% in the next 15 years.

China presents a paradox for scholars of environmental politics. Environmental politics and policymaking in China now includes elements critical to environmental protection in the West, including non-governmental participation and stringent environmental legislation. Yet the country's authoritarian system constrains popular participation, and environmental outcomes are generally poor. China's South–North Water Transfer Project (SNWTP) embodies this puzzle: despite the pluralisation and development of environmental politics and policymaking, the SNWTP is a technocratic mega-project that imposes high social, economic, and environmental costs.

Inter-jurisdictional water resource issues constitute a growing political and economic challenge in China. This article examines three such cases of hydropolitics, namely large dam construction, water resource allocation, and downstream water pollution, through the lens of central–local relations. It argues that the hydropolitics in China are characterized by the pursuit of localized preferences within the constraints imposed by a centralized political system.

"Given Beijing's new emphasis on the environment, an even bigger challenge will be addressing the global dimensions of its pollution, the effects of which don't stop at the water's edge. China is by far the largest source of air pollution among all Asian countries, including India, and Chinese emissions negatively affect air quality in a host of neighboring countries, particularly Japan. Chinese air pollution is even degrading air quality in the United States."

Energy technology innovation is the key to driving the technological changes that are necessary to meet the challenge of mitigating energy-related greenhouse gas emissions to avoid 'dangerous climate change.' Success in innovation requires the enhancement of public investment in the innovation process, the creation of markets for low-carbon technologies through stronger climate policies, and a continued focus on energy access and equity.

An integrated carbon dioxide (CO2) capture and storage (CCS) system requires safe and cost-efficient solutions for transportation of the CO2 from the capturing facility to the location of storage. While growing efforts in China are underway to understand CO2 capture and storage, comparatively less attention has been paid to CO2 transportation issues. Also, to the best of our knowledge, there are no publicly available China-specific cost models for CO2 pipeline transportation that have been published in peer-reviewed journals. This paper has been developed to determine a first-order estimate of China's cost of onshore CO2 pipeline transportation.

China's dependency on coal fuels the country's phenomenal economic growth but at a major cost to the country's air and water quality, ultimately threatening human health and the country's continued economic growth. The Chinese government's efforts to put China onto a cleaner, low carbon development path have been substantial; however China's pollution and greenhouse gas emissions continue to grow. In an attempt to develop its own advanced coal generation technologies to improve the country's air quality and energy efficiency, the Chinese government is investing heavily in gasification and other technologies that can be employed in carbon capture and sequestration (CCS) applications. This investment has turned China into a global laboratory for CCS pilot projects, attracting foreign governments, multilateral institutions, nongovernmental organizations, and business partners.

China now faces the three hard truths of thirsting for more oil, relying heavily on coal, and ranking first in global carbon dioxide (CO2) emissions. Given these truths, two key questions must be addressed to develop a low-carbon economy: how to use coal in a carbon-constrained future? How to increase domestic oil supply to enhance energy security? Carbon Capture and Storage (CCS) may be a technological solution that can deal with today's energy and environmental needs while enabling China to move closer to a low-carbon energy future. This paper has been developed to propose a possible CCS roadmap for China.