1. Lecture Outlines PowerPoint
Chapter 5
Earth Science, 12e
Tarbuck/Lutgens
© 2009 Pearson Prentice Hall
This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their courses and assessing student learning. Dissemination or sale of any part of this work (including on the World Wide Web) will destroy the integrity of the work and is not permitted. The work and materials from it should never be made available to students except by instructors using the accompanying text in their classes. All recipients of this work are expected to abide by these restrictions and to honor the intended pedagogical purposes and the needs of other instructors who rely on these materials.

2. Running Water and Groundwater Chapter 5
Earth Science, 12e
Running Water and Groundwater Chapter 5

3. Earth as a system: the hydrologic cycle
Illustrates the circulation of Earth’s water supply
Processes involved in the cycle
Precipitation
Evaporation
Infiltration
Runoff
Transpiration

4. The hydrologic cycle
Figure 5.3

5. Sources of Earth’s water
Figure 5.2

6. Running water Drainage basin
Land area that contributes water to a river system
A divide separates drainage basins

7. Drainage basins and drainage divides
Figure 5.4

8. Running water Streamflow Factors that determine velocity
Gradient, or slope
Channel characteristics
Shape
Size
Roughness
Discharge – volume of water flowing in the stream (generally expressed as cubic feet per second)

9. Running water Upstream-downstream changes Profile
Cross-sectional view of a stream
From head (source) to mouth
Profile is a smooth curve
Gradient decreases from the head to the mouth
Factors that increase downstream
Velocity
Discharge

10. Running water Upstream-downstream changes Profile
Factors that increase downstream
Channel size
Factors that decrease downstream
Gradient, or slope
Channel roughness

11. Longitudinal profile of a stream
Figure 5.7

12. Running water The work of streams Erosion Transportation
Transported material is called the stream’s load
Dissolved load
Suspended load
Bed load

13. Running water The work of streams Transportation
Load is related to a stream’s
Competence – maximum particle size
Capacity – maximum load
Capacity is related to discharge

14. Running water The work of streams Transportation Deposition
Caused by a decrease in velocity
Competence is reduced
Sediment begins to drop out
Stream sediments
Known as alluvium
Well-sorted deposits

15. Running water The work of streams Transportation
Features produced by deposition
Deltas – exist in ocean or lakes
Natural levees – Form parallel to the stream channel
Area behind the levees may contain backswamps or yazoo tributaries

16. Formation of natural levees by repeated flooding
Figure 5.21

17. Running water Base level Lowest point to which a stream can erode
Two general types
Ultimate – sea level
Temporary, or local
Changing causes readjustment of the stream – deposition or erosion

18. Adjustment of base level to changing conditions
Figure 5.15

19. Running water Stream valleys Valley sides are shaped by
Weathering
Overland flow
Mass wasting
Characteristics of narrow valleys
V-shaped
Downcutting toward base level

20. Running water Stream valleys Characteristics of narrow valleys
Features often include
Rapids
Waterfalls
Characteristics of wide valleys
Stream is near base level
Downward erosion is less dominant
Stream energy is directed from side to side

21. A narrow, V-shaped valley
Figure 5.17 A

22. Continued erosion and deposition widens the valley
Figure 5.17 B

23. A wide stream valley is characterized by meandering on a well-developed floodplain
Figure 5.17 C

24. Running water Stream valleys Characteristics of wide valleys
Floodplain
Features often include
Meanders
Cutoffs
Oxbow lakes

25. Erosion and deposition along a meandering stream
Figure 5.10

26. A meander loop on the Colorado River
Figure 5.18

27. Formation of a cutoff and oxbow lake
Figure 5.11

28. Running water Drainage patterns
Networks of streams that form distinctive patterns
Types of drainage patterns
Dendritic
Radial
Rectangular
Trellis

29. Drainage patterns
Figure 5.22

30. Running water Floods and flood control
Floods are the most common geologic hazard
Causes of floods
Weather
Human interference with the stream system

31. Running water Floods and flood control Engineering efforts
Artificial levees
Flood-control dams
Channelization
Nonstructural approach through sound floodplain management

32. Satellite view of the Missouri River flowing into the Mississippi River near St. Louis
Figure 5.23 top

33. Same satellite view during flooding in 1993
Figure 5.23 bottom

34. End of Chapter 5