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Nonpoint Source Success Stories: Linking Projects with Water Quality Improvement

Nonpoint Source Success Stories: Linking Projects with Water Quality Improvement. Steve Epting, ORISE Fellow US EPA – Office of Wetlands, Oceans, and Watersheds Nonpoint Source Control Branch. Discussion Outline. Overview of NPS success stories What is eligible?

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Nonpoint Source Success Stories: Linking Projects with Water Quality Improvement

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  1. Nonpoint Source Success Stories: Linking Projects with Water Quality Improvement Steve Epting, ORISE Fellow US EPA – Office of Wetlands, Oceans, and Watersheds Nonpoint Source Control Branch

  2. Discussion Outline • Overview of NPS success stories • What is eligible? • How does US EPA use this information? • What do 270+ success stories tell us about “success”? • Role of NPS Monitoring • Available resources • Examples of innovative state approaches to address NPS monitoring needs

  3. www.epa.gov/nps/success

  4. Success Stories reflect the most common causes and sources of impairment (Rivers & Streams - 2010) Top 5 Causes • Pathogens • Sediment • Nutrients • Organic Enrichment/Oxygen Depletion • Polychlorinated Biphenyls (PCBs) Top 5 Probable Sources Agriculture Atmospheric Deposition Unknown Hydromodification Urban-Related Runoff/Stormwater

  5. NPS Success Story Options Type 1 (WQ-10): Fully or Partially Restored Waters • Must have been listed as impaired during 1998/2000 listing cycle or later • Tracked on segment (waterbody) basis • Current Tally = 433 waterbodies • WQ has improved due to actual NPS pollution control or restoration efforts. • Improvements must be documented *High bar = documenting attainment of WQS

  6. List of Impaired waters 303(d)

  7. LOCAL Example: Alabama’s Flint River(Type 1: Fully or Partially Restored) • Lower mainstem listed as impaired in 1998 for DO/organic enrichment due to agricultural activities and urbanization • Agricultural BMPs (winter cover, conservation tillage, livestock protection, nutrient plans) and education/outreach efforts in early 2000’s • 28-mile segment removed from impaired waters list in 2006 (partially restored)

  8. NPS Success Story Options *These stories do not count towards WQ-10, but are published on the Success Story website: Type 2: Waters Showing Measurable Progress • Listed as impaired • Show progress towards meeting WQ goals • Do not yet meet WQ standards Type 3: Waters Showing Ecological Restoration • Waterbody had WQ problems (but were not listed on 303(d) or on the Integrated Report); restoration efforts restored one or more uses.

  9. Example: Maryland’s Bens Branch/Lake Linganore (Type 2: Showing Measurable Progress) BEFORE • Lake Linganore listed in 1996 for sediment and nutrients • Partners implemented agricultural BMPs and stabilized streambanks (Bens Branch). • Results: Sediment and phosphorus levels declined, but do not yet meet standards. AFTER

  10. Example: MA’s Winsegansett Marsh(Type 3: Showing Ecological Restoration) BEFORE • Development reduced flow between marsh and Buzzards Bay, causing salinity to decline • Salt-intolerant species (invasive common reed) began to dominate plant community • Project partners increased tidal exchange by four existing culverts with larger ones • Led to decrease in salt-intolerant, invasive species; increase in native salt marsh grasses Photo Credit: Buzzards Bay NEP AFTER

  11. Common Attributes of NPS Success Stories • Practices target specific nonpoint sources • Planning: TMDL, watershed-based plan • Section 319 funds support planning and/or implementation (sometimes staff support) • Multiple project partners involved (local, state, federal) • WQ monitoring data (and photos) showing improvement

  12. How does EPA use success story information? • National Water Program Guidance. Helps direct state efforts to document NPS results. • Highlight “best practices” where restoration efforts have resulted in water quality improvement, e.g., coordination with partner agencies • Respond to Congressional inquiries and coordinate with EPA management (e.g., organizing site visits) Chehalis River Basin, WA

  13. Role of NPS Monitoring in Determining WQ-10 “Success” BEFORE AFTER Muddy Creek, WY

  14. Resources to Support NPS monitoring • State ambient monitoring program, but…competing resource demands and issues of scale • CWA Section 106 funds • CWA Section 319 funds • General NPS monitoring; project effectiveness monitoring • Other federal/state partners - USGS • Volunteer Monitoring Networks • Wisconsin’s Citizen Based Monitoring Program • Virginia’s Save our Streams Program

  15. NPS Monitoring and WQ-10 “Success” • State must demonstrate that NPS-impaired waterbody now meets WQS for one or more pollutant or designated use. • State defines “success” through state WQS • Relies on significant investment in NPS monitoring • Pre-project monitoring for 305(b)/303(d) state program, watershed characterization and TMDL/watershed-based plan development, including ID of NPS critical areas • During/post-project monitoring to assess project effectiveness, water quality trends, and eligibility for impairment delisting • National NPS Monitoring Program estimates total project period of 10+ years: Baseline monitoring (2+ years) + BMP implementation (3-5 years) + post-project monitoring (3+ years)

  16. Addressing NPS Monitoring Needs:Oklahoma Conservation Commission

  17. Year 1/6 Year 2/7 Year 3/8 Year 4/9 Year 5/10 Oklahoma Conservation Commission Rotating Basin Monitoring Program • 245 ambient monitoring sites; each station sampled every 5 weeks for period of 2 years • Fixed stations upstream of permitted discharges, reservoirs, confluences, etc. to focus on NPS • Focus on pollutants for which the state has quantitative water quality standards, also includes nutrients • Funded primarily with CWA Section 319 Additional 250 probabilistic sites monitored every 5 years

  18. Oklahoma Conservation Commission • In NPS Priority Watersheds (319 project areas), a paired watershed monitoring program monitors load reduction of critical parameters • This monitoring has shown up to 60 – 70% reductions in-stream nutrient loading within 4 – 7 years of beginning implementation

  19. Bull Creek- NE OK • 31,175 acre watershed • 17 mile creek • Land use primarily pasture land • Wheat, corn, and cattle production • 303(d) listed in 2002 for turbidity, fecal bacteria, and dissolved oxygen

  20. Bull Creek • Conservation Practice funding • EQIP and CSP invested approx. $277,936 • Conservation Districts provided approx. $14,085 and landowners $16,528 through the state cost-share program • Practices installed included: • Pasture and rangeland planting on 169 acres • Brush management on 908 acres • Pest management on 3,431 acres • Forage harvest management on 281 acres • Prescribed grazing on 7,436 acres • 4,171 feet cross-fencing • 10 ponds • Conservation crop rotation on 216 acres • Conservation tillage on 948 acres • Nutrient management plans on 417 acres • 12,550 feet of terraces

  21. Bull Creek - Water Quality Results • EPA 319 funded water quality monitoring has documented significant improvements in turbidity and E. coli bacteria. • Bull Creek was delisted from OK’s 303(d) list for turbidity and E. coli in 2010.

  22. Addressing NPS Monitoring Needs:Ohio EPA

  23. Ohio EPA • State conducted NPS program evaluation in 2007 to assess use of 319 funding. • Found that monitoring costs frequently exceeded 319 project implementation • Beginning in FY08, OEPA staff conducted all monitoring for 319 projects (no 319 subgrants for monitoring)

  24. OEPA 319 Project Monitoring Team Environmental Specialist (FISH) Environmental Specialist (BUGS) 2 College Interns (FISH) 1 College Intern (BUGS) Total Cost: about $53,000/yr

  25. QHEI Habitat Assessment ICI Bugs Assessment IBI Fish Assessment OEPA 319 Project Monitoring Team 75 Sampling Sites/Year 5 Sites/Project 15 Projects/Year

  26. Benefits Cost Savings All Level 3 Credible Data All Data STORET Compatible One QAPP Project & Watershed Specific

  27. Questions related to NPS success stories or WQ-10? Steve Epting – EPA Nonpoint Source Control Branch epting.steven@epa.gov

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