Protecting Ecosystems: An EPA Perspective on What Critical Loads Can Offer

1. Protecting Ecosystems:An EPA Perspective on What Critical Loads Can Offer Presentation for WESTAR “Understanding the CL Approach” Workshop By Richard Haeuber, Ph.D. Office of Air and Radiation, EPA November 16, 2005

2. Protecting Ecosystems – Where We’ve Been, Where We’re Headed • Current mechanisms under the Clean Air Act to protect ecosystems • New emissions reduction programs • Ecosystem-related accountability drivers • NAS report on air quality management • Exploring critical loads

3. Acid Deposition Control Program (Title IV of 1990 CAAA) • Overall program goal: Reduce ecological effects of acid rain and protect public health, visibility through large-scale regional reductions • SO2 emissions goal: Reduce SO2 emissions from electric generators by 8.5 million tons (50% below 1980 levels) • In 2003, SO2 emissions from all power generation were 10.6 million tons, 5.1 million tons (32%) below 1990 levels • Eastern states have experienced significant decreases in sulfate deposition -- almost 30 percent -- since the Acid Rain Program took effect in 1995. Monitored Reductions in Wet Sulfur Deposition in the Eastern U.S. Average 1989 - 1991 Average 2002 – 2004

4. NOX emissions goal: lower annual NOX emissions from electric power plants to 2 million tons below the forecasted level for 2000 • In 2003, NOX emissions from all power generation were 4.2 million tons, 2.5 million tons (or 37 %) below 1990 levels • Eastern states have experienced some decreases in nitrogen deposition • Nitrogen deposition has not significantly decreased since the Acid Rain Program took effect in 1995 Acid Deposition Control Program (Title IV of 1990 CAAA) Monitored Reductions in Wet Nitrogen Deposition in the Eastern U.S. Average 1989-1991 Average 2002-2004

5. Title I: Secondary NAAQS • Sec. 109 (CAA) “Any national secondary ambient air quality standard…shall specify a level of air quality the attainment and maintenance of which…is requisite to protect the public welfare from any known or anticipated adverse effects associated with the presence of such air pollutant in the ambient air.” • Sec. 302(h): “All language referring to effects on welfare includes but is not limited to, effects on soils, water, wildlife, weather, visibility, and climate,…, whether caused by transformation, conversion, or combination with other air pollutants.”

6. Title I: PSD/NOX Increment Rule • 1988 - EPA was sued on NOX Increment Rule • 1990 - Court remanded case to EPA to develop interpretation of Sec.166 that “considers both subsections (c) and (d), and if necessary to take new evidence and modify the regulations.” • Sec. 166 CAA: • (c) Such regulations [for new increments, e.g., NOx] shall provide specific numerical measures against which permit applications may be evaluated, a framework for stimulating improved control technology, protection of air quality values, and fulfill the goals and purposes set forth in section 101 and section 160. • (d) The regulations…shall provide specific measures at least as effective as the [statutory increments for SO2/PM] to fulfill such goals and purposes, and may contain air quality increments, emission density requirements, or other measures. • 2003 - Environmental Defense petitioned court for EPA to take action on earlier remand • 2005 - EPA proposed rule on February 14 seeking comment on alternatives to increment approach (including critical loads). • Final rule signed September 30, 2005.

7. Final NOX Increment Rule & Critical Loads • Final rule text: “EPA will work with interested States, tribes, Federal land management agencies and others to identify the components needed to develop and implement cooperative projects to explore the feasibility and usefulness of a critical loads approach.” • Opportunity to evaluate utility of critical loads as tool in policy/program assessment, evaluation, and development

8. States controlled for fine particles (annual SO2 and NOx) States controlled for ozone (ozone season NOx) States controlled for both fine particles (annual SO2 and NOx) and ozone (ozone season NOx) States not covered by CAIR Clean Air Interstate Rule….the Next Big Step Affected Region and Emission Caps Emission Caps* (million tons) 2009/20102015 Annual SO2 3.6 2.5 (2010) Annual NOx 1.5 1.3 (2009) Seasonal NOx .58 .48 (2009) *For the affected region.

12. Regional Haze Is a Major Concern for Our National Parks Above: Acadia National Park on a day with poor visibility Below: Acadia National Park on a day with good visibility

13. Clean Air Visibility Rule (CAVR) • Covers 26 industrial sectors, including the power industry. • CAIR determined better than Best Available Retrofit Technology (BART) controls of CAVR in the CAIR region; therefore, States are allowed to use CAIR in lieu of source-specific BART requirements in the CAIR region. • Mandatory BART guidance for power plants >750 megawatt (MW) • Guidelines contain presumptive control levels for coal-fired electric generation units > 200 MW (about 50 units in non-CAIR states) • For electric generating units >200 MW at plants 750 MW or less (about 20 units in non-CAIR region) - encourage use of presumptive controls • Guidance only for all other source categories • Presumptive control levels: • SO2: 95% control or 0.15 lbs/MMBtu for uncontrolled units. (Recommend States consider upgrades to existing controls if removal rate is 50% or greater. Recommend States consider replacement if removal rate is less than 50%. Recommend oil-fired units have 1% sulfur limit for fuel). • NOx: Current combustion controls on all coal-fired units except cyclones which require SCR, and annual operation of existing SCR and SNCRs.

14. Projected 2020 Emissions for Power Plants under CAIR/CAMR and CAVR NOX Emissions SO2 Emissions CAVR CAIR + CAMR

15. Legend Total S (kg/ha) Total Sulfur Deposition Baseline 2001 Base Case 2020 CAIR/CAMR/CAVR 2020

16. Legend Total N (kg/ha) Total Nitrogen Deposition Baseline 2001 Base Case 2020 CAIR/CAMR/CAVR 2020

17. Tracking Progress - “Accountability” Drivers • Reporting requirements under Clean Air Act • Performance Measures • - GPRA (Government Performance and Results Act) • - PART (Program Assessment Rating Tool) • Tracking and Reporting through Program Progress Reports (e.g. Acid Rain and NOx Budget Program Progress Report) • EPA State of the Environment Report • A new driver: National Academy of Sciences 2004 Report Recommendations on Air Quality Management

18. NAS Report on Air Quality Management • January 2004 -- NAS Committee on Air Quality Management in United States releases report • Comprehensive assessment of effectiveness of US air quality management system • Core conclusions: • Over past 30 years, Clean Air Act has substantially reduced pollution emissions • Despite progress, Committee identified scientific and technical limitations that will hinder future progress • Report intended as blueprint to address limitations, enhance air quality management, and chart path toward more productive and efficient system • Clean Air Act Advisory Committee (CAAAC) reviewed report and developed plan to prioritize and focus NAS recommendations • CAAAC developed 38 separate recommendations based on the NAS Report

19. CAAAC Ecosystem-Related Recommendations • 1.5 Framework for accountability • Develop benchmarks/measures to assess ecological impacts of air pollution and improve ability to track/evaluate progress • Improve tracking/assessing ecosystem effects of multiple pollutants • Conduct/facilitate integrated assessments & research to develop/implement measurements to detect ecosystem response • Facilitate/pursue collaboration on integrated assessments • Examine possibility of using critical loads & thresholds

20. CAAAC Ecosystem-Related Recommendations • 5.1 Program review to improve ecosystem protection • Examine current policies and programs to develop approaches advancing ecosystem protection from air pollution impacts • Evaluate potential alternative approaches for protecting ecosystems from air pollution impacts – critical loads emphasized

21. One conceptual model for developing critical loads

22. Critical Loads Issues – Some Examples • What resources do we care about? • Science/policy dialogue on resources, systems, indicators • Do we have the right models? • Evaluation and comparison of models, including pilot applications (e.g., steady-state vs. dynamic models) • Do we have the data? • Broad set of data needed to drive dynamic models • How best to communicate data and results? • Data presentation and aggregation from site-specific to regional/national • How do we know if projected loads are protecting ecosystems? • Deposition and environmental monitoring in relation to modeled loads • How do we accommodate system change? • Understanding the consequences of disturbance, land use change, climate change, etc.

23. EPA Projects Exploring CL Issues • Compare/evaluate models for characterizing site to regional response to changes in emissions and deposition (2006-2007) • Eastern project –100 Adirondack region sites (w/USFS) • Western project – LTER Network sites (w/USGS) • Develop Maine CL map to complete NE critical loads mapping project – w/ USFS (2006) • Convene inter-agency critical loads workshop (2006) • Co-organized by EPA, NPS, USFS, USGS • Tentatively set for May 23-24 at University of Virginia • Details TBA • Develop critical loads pilot projects – follow-on from Final NO2 Increment Rule • Synthesize state of science on indicators and monitoring eco response to air pollution – w/Heinz Center for Science, Economics, and the Environment

24. To Learn More….. Clean Air Markets Division www.epa.gov/airmarkets Clean Air Interstate Rule www.epa.gov/cleanairinterstaterule Clean Air Mercury Rule www.epa.gov/mercury Clean Air Visibility Rule http://www.epa.gov/visibility/actions.html#bart1