The world is poised to make the most dramatic change in energy production since the Industrial Revolution. Our collective response to climate change is creating a transformation that will lead to profound consequences for all sectors of the global economy. As one of the largest consumers of coal in the Western Hemisphere, AEP recognizes the urgent need to balance the growing demand for electricity with the imperative to protect the environment for future generations.

The scientific community, led largely by the Intergovernmental Panel on Climate Change, has provided scientific evidence that human activity has contributed to global warming. AEP is helping to lead the discussion nationally and internationally to find a reasonable, achievable approach and enact federal energy policy that is realistic in time frame and does not seriously harm the U.S. economy. We also are developing advanced coal technologies so that coal can continue to be the important energy resource it is today. We support the adoption of an economywide, cap-and-trade greenhouse gas (GHG) reduction program that allows us to provide reliable, reasonably priced electricity to our customers and that fosters the international participation that is necessary to make meaningful progress.

At AEP, we believe that cap-and-trade legislation should include:

• A cap that applies to all sectors of the economy and covers all GHGs.
• A framework that maximizes flexibility and minimizes cost.
• Phase-in of reduction requirements that matches available
  technology.
• Unrestricted use of real and verifiable domestic and international emissions offsets, such as methane capture and destruction from landfills and livestock waste and international deforestation protection.
• Allowance allocations to electric generators and other sources based on historical emissions. This might include, if absolutely necessary, a small number of allowances (i.e., less than 5 percent) to be auctioned or set aside for public purposes.
• Incentives for early voluntary actions or investments made to reduce emissions.
• Long-term public and private funding to develop commercially viable technology solutions, such as carbon capture and storage.
• Elimination of legal and regulatory barriers to the use of lowor no-carbon technologies or processes (e.g., carbon capture, nuclear, wind).
• Regulatory pre-approval of utility cost recovery for effective energy efficiency and demand-side management (DSM) programs.
• A price ceiling (safety valve) on CO2 allowances to limit the economic burden on emitters and on the economy as a whole. Companies with compliance obligations can buy emission allowances from the federal government at the safety valve price.
• An appropriate trade measure to equalize the conditions of global trade should other countries fail to reduce GHGs.

Cap-and-trade is widely considered the most effective system to reduce GHG emissions, although debate continues about whether permits should be allocated or sold at auction. We favor allowances, based on our experience with the Environmental Protection Agency's Acid Rain Program and the Chicago Climate Exchange (CCX), both of which allocate allowances based on historical emissions with little or no auction. The EPA program, with only a 3 percent auction of allowances, has been hailed as a major success because of the affordability it provides in reducing acid rain-causing emissions.

A large auction of allowances would require emitters to buy allowances to cover all of their emissions. This would place unfair costs on customers of regulated utilities, especially those whose electricity comes from coal.

Our stakeholders are divided on having a price ceiling, or "safety valve," in the legislation. The Environmental Defense Fund, for example, strongly opposes a safety valve and has urged us to abandon our support for that provision. Our customers, however, could be severely affected by escalating energy rates if carbon prices were entirely market-based, and would pay more for their energy, through no fault of their own, than customers of utilities that derive less of their power from coal. We believe a safety valve, which sets a ceiling on the cost of CO2 allowances, would protect the economy if carbon prices skyrocket. Some of our stakeholders are frustrated with this position. We have agreed to continue to discuss this issue to find common ground.

Some stakeholders have asked why we have not joined the United States Climate Action Partnership (USCAP), which provides general recommendations for establishing a mandatory domestic GHG cap-and-trade program that would reduce CO2 equivalent emissions by 60 percent to 80 percent by 2050. AEP's decision not to join USCAP is based on several factors, including:

1. The proposal's lack of a price-based safety valve to prevent undue economic harm
2. The recommendation that allowances transition to be fully auctioned instead of freely allocated
3. AEP's belief that near and intermediate-term emission reduction targets may be too onerous to be achieved cost-effectively

AEP burns approximately 76 million tons of coal per year.

We support another GHG cap-and-trade proposal – Senate Bill 1966, the Low Carbon Economy Act of 2007, introduced by U.S. Sens. Jeff Bingaman (D – N.M.) and Arlen Specter (R – Pa.) that provides the best balance of current legislation in addressing these key issues.

For all its challenges, coal remains an important energy resource for the future. It is an abundant, domestic and relatively inexpensive source of energy. Fully one-half of America's daily electricity supply comes from coal and no other fuel is capable of meeting that need on a cost-effective basis. Twenty-five of AEP's 61 power plants burn coal to generate electricity, accounting for 68 percent of our total generating capacity.

In recent years, however, coal-fired power plants have become increasingly difficult to site and build. Our proposed Oklahoma plant was turned down, one of 59 U.S. plants that were cancelled, delayed, or abandoned in 2007 because of objections to coal. Such setbacks make it increasingly likely that demand for electricity will outstrip supply in the next decade. Given the aging infrastructure we have today, these delays may well cause higher prices and supply concerns – without creating any major environmental benefits.

We believe that climate change will not be solved through a single solution, but rather through multiple options and public policies to support them. Advanced coal technologies such as Integrated Gasification Combined Cycle (IGCC), ultra-supercritical pulverized coal, renewable energy sources, energy efficiency and DSM programs for consumers, new nuclear power plants, and new transmission and distribution infrastructure are all needed to make our electricity system more efficient and must all be part of the solution.

Twenty-five of AEP's 61 power plants burn coal to generate electricity, accounting for 68 percent of our total generating capacity.

Also see: Climate Change & The Environment in the Environmental Activities section.