2011 – 2012 Fall Creek Pond Study

1. 2011 – 2012 Fall Creek Pond Study By: Esau Casetta, Austin Denzine, and Brett Lewallen

2. Purposes and Ideas Behind the Project • Esau – I have a interest in a career that involves natural resources. • Austin – I am a new student at Wildlands this year. This project sounded like a great way to start the year. • Brett – I also have an interest in a career in natural resources.

3. The Issues • Sedimentation Issues and Mapping • Water Quality Issues and Trophic State • Flushing Rate

4. Sedimentation/Mapping… • Background/Problem • How has the pond changed over the last 5 years?

8. 2006 Fall Creek Pond Depth Map

9. 2011 Fall Creek Pond Depth Map

10. Trophic State… • What is it? • Why is it important? • How is it calculated?

11. These are the three main Trophic States... • Oligotrophic • Mesotrophic • Eutrophic

12. Oligotrophic

13. Mesotrophic

14. Eutrophic

15. How We Converted Our Data Raw Data Data averages converted to Trophic State Index values Trophic State numbers derived visually from Carlson’s Trophic State Index graphic from EPA’s Lake and Reservoir Restoration Guidance Manual.

16. Carlson’s Trophic State Index

17. Where is the Fall Creek Pond on this scale?

18. Flushing Rate… • What is it? • Why is it important? • How is it calculated?

19. Flushing Rate Calculations… • To Determine Flow Rate • Inflow and Outflow • Inflow = .2562 meters cubed/second = 22,135.68 meters cubed/day • Outflow = .2246 meters cubed/second = 19,405.44 meters cubed/day • Averaged = .2404 meters cubed/second = 20,770.56 meters cubed/day • Volume of the pond = 95,780 meters cubed • 95,780 meters cubed/20,770.56 meters cubed/day = 4.6 days of hydraulic residence time

20. Conclusion… Tying it all together • New Map • Flushing Rate • Sedimentation Rate • Trophic State

21. Questions or Comments?