1. Young Streams vs. Old Streams

2. How river systems change from young to mature! YOUNG MATURE Wide Channels Wide Channels Large floodplains Large floodplains Lateral erosion Lateral erosion Gentle slopes Gentle slopes Meanders, oxbows Meanders, oxbows Fine sediment Fine sediment Narrow channels Narrow channels Small floodplains Small floodplains Downcutting Downcutting Steep slopes Steep slopes Rapids, waterfalls Rapids, waterfalls Coarse sediment Coarse sediment

3. YOUNG Stream V – shaped valleys Erodes away at bed (more than sides) Waterfalls and Rapids are common. Few Tributaries

4. OLD Rivers Well established tributaries Drains effectively Carries LARGE amounts of water Does not get deeper, (Erodes from Sides)

6. FLOODS Stream overflows channel Causes Weather events Dams break (+) Provides “fertilizer” for floodplain (-) Most destructive of all geologic hazards

7. Missouri & Mississippi Rivers (Satellite view near St. Louis)

8. Same satellite view during flooding in 1993

10. Cincinnati, OH

11. Describe human decisions that increase the risk of flooding. Disturbing vegetation that uses water and returns it to the atmosphere before flooding occurs. Building Grazing animals Farming practices like clear-cutting land Cutting down forests

12. FLOOD CONTROL Dams

13. Fig. 13-12, p. 325

14. Glen Canyon Dam, Page, AZ (Lake Powell in background, Colorado River in foreground)

15. Fig. 13-15, p. 327

17. LAG TIME The time difference between when heavy precipitation occurs and when peak discharge occurs in the streams draining area. Urban Lots of pavement, buildings, etc. Causes very quick movement of water into river system “Flash Flood” Rural Lots of farm land, less roads and buildings Slower movement of water, more absorbed by soil

18. 3 ways to prevent flooding Look over attached handout: Dams Artificial Levees Channels

19. Trace the path(s) that 99% of water travels through the Great Lakes watershed. USE Michigan Waterways handout

20. Great Lakes drainage basin Most polluted areas, according to the Great Lakes Water Quality Board “Hot spots” of toxic concentrations in water and sediments Eutrophic areas CANADA WISCONSIN MINNESOTA IOWA ILLINOIS INDIANA OHIO PENNSYLVANIA NEW YORK MICHIGAN Nipigon Bay Thunder Bay Silver Bay St. Louis R. Jackfish Bay St. Mary’s R. Spanish R. Penetary Bay Sturgeon Bay Saginaw Bay Saginaw R. System St. Clair R. Detroit R. Rouge R. Raisin R. Maumee R. Black R. Rocky R. Cuyahoga R. Ashtabula R. Thames R. Grand R. Niagara Falls Niagara R. Buffalo R. St. Lawrence R. Fig. 19.7, p. 484

21. http://techalive.mtu.edu/meec/module08/GreatLakesFlow.htm http://techalive.mtu.edu/meec/module08/GreatLakesFlow.htm

22. Great Lakes Watershed