1 / 21

Upstream and Downstream Passage of American Eels at the Medway Project, Penobscot River, Maine

Scott Hall ————————————— PPL Maine, LLC Milford, Maine. Steve Shepard —————————————— Aquatic Science Associates, Inc. Brewer, Maine. Upstream and Downstream Passage of American Eels at the Medway Project, Penobscot River, Maine. FERC Fish Passage Workshop, 13 Nov. 2003, Holden, Mass.

dakota
Download Presentation

Upstream and Downstream Passage of American Eels at the Medway Project, Penobscot River, Maine

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Scott Hall ————————————— PPL Maine, LLC Milford, Maine Steve Shepard —————————————— Aquatic Science Associates, Inc. Brewer, Maine Upstream and Downstream Passageof American Eels at theMedway Project, Penobscot River, Maine FERC Fish Passage Workshop, 13 Nov. 2003, Holden, Mass.

  2. Medway Project • Located in Medway at the mouth of the West Branch, Penobscot River. • Fifth dam on river at ~ 60 miles from the mouth. • 3.4 MW capacity at 19 ft. of head. • 3,450 cfs maximum hydraulic capacity. • Uses 2,000 cfs minimum flow from the West Branch Project (Great Lakes Energy). • No anadromous fish passage to West Branch. • New license granted in 1999.

  3. General Plan View of Medway Dam

  4. Downstream Bypass • Bypass is located at the end of the spillway, adjacent to the forebay • Uses existing gate and stop logs in the top half of the water column • 15 cfs bypass flow • Six foot deep weir opening • Bell mouth weir shape to provide a velocity transition

  5. Downstream Passage Evaluations • Video monitoring conducted in 2002 • Video and trapping in 2003

  6. Downstream Passage Evaluations • Video monitoring conducted in 2002 • Reflective background used • Infrared lighting and supplemental red light • Tested with drogues • Real-time recording in six hour blocks • Monitored from August through mid-November

  7. Downstream Passage Evaluations • Video monitoring conducted in 2002 • Reflective background used. • Infrared lighting and supplemental red light. • Tested with drogues. • Real-time recording in six hour blocks. • Monitored from August through mid-November. • Video and trapping in 2003 • Paired video & trapping to assess video effectiveness. • An historic weir fishery indicated run timing in August and September.

  8. Trapping Set-Up in 2003

  9. Downstream Results Summary (preliminary) • Video monitoring was not effective. • Optimal lighting is very difficult. • Turbulence obscures parts of the field of view. • Rapid passage is the major problem.

  10. Downstream Results Summary (preliminary) • Video monitoring was not effective. • Optimal lighting is very difficult. • Turbulence obscures parts of the field of view. • Rapid passage is the major problem. • Trapping was an effective monitoring method. • Debris and high tailwater caused some problems. • Only a few days were trapped in 2003.

  11. Downstream Results Summary (preliminary) • Video monitoring was not effective. • Optimal lighting is very difficult. • Turbulence obscures parts of the field of view. • Rapid passage is the major problem. • Trapping was an effective monitoring method. • Debris and high tailwater caused problems. • Very few days were trapped in 2003. • Downstream migrants are using the bypass.

  12. Typical eels trapped in 2003

  13. Upstream Passage Evaluation • Goals • Determine run timing. • Document typical size of migrant eels. • Assess migratory behavior with respect to physical features of the dam. • Design an upstream fishway and operating plan for the site. • Methods • Night observations. • Trapping.

  14. Upstream Passage Study Area

  15. 2002 Size Distribution of Migrant Eels

  16. Seasonal Timing of Medway Eel Migration

  17. Upstream Passage Summary • Nearly all migrant eels were associated with “staging” locations. • Several sizes/ages of eels are active at Medway. • Only the smallest eels are currently able to climb wetted surfaces and pass the dam. • Very small amounts of spill inhibit passage over wetted surfaces. • There were no obvious effects from ambient light. • Migratory activity was not observed until early to mid-June at temperatures above 18 Celsius.

  18. Upstream Passage Study Area

  19. Upstream Passage Summary • Nearly all migrant eels were associated with “staging” locations. • Several sizes/ages of eels are active at Medway. • Only the smallest eels are currently able to climb wetted surfaces and pass the dam. • Very small amounts of spill inhibit passage over wetted surfaces. • There were no obvious effects from ambient light. • Migratory activity was not observed until early to mid-June at temperatures above 18 Celsius.

  20. Upstream Passage Summary • Nearly all migrant eels were associated with “staging” locations. • Several sizes/ages of eels are active at Medway. • Only the smallest eels are currently able to climb wetted surfaces and pass the dam. • Very small amounts of spill inhibit passage over wetted surfaces. • There were no obvious effects from ambient light. • Migratory activity was not observed until early to mid-June at temperatures above 18 Celsius.

  21. Upstream Passage Summary • Nearly all migrant eels were associated with “staging” locations. • Several sizes/ages of eels are active at Medway. • Only the smallest eels are currently able to climb wetted surfaces and pass the dam. • Very small amounts of spill inhibit passage over wetted surfaces. • There were no obvious effects from ambient light. • Migratory activity was not observed until early to mid-June at temperatures above 18 Celsius.

More Related