1. Ch. 9
Surface Water!

2. Surface Water Movement
Earth’s water is recycled in a process called the water cycle.
The process is repeated evaporation and condensation powered by the Sun’s energy.

4. Once water reaches Earth’s surface it can
evaporate into the atmosphere,
soak into the ground,
flow down slopes.

5. For water to enter the ground, there must be large enough pores to accommodate the water’s volume.
If the pores already contain water or has few pores, the precipitation will accumulate on the surface or run downhill.

6. Slight, gentle precipitation infiltrates the dry ground.
During heavy precipitation, water falls too quickly to soak into the ground and becomes runoff.
A gentle, long-lasting rainfall is more beneficial to plants and causes less erosion by runoff than a torrential downpour.

7. Soil with coarse particles has large pores between its particles that allow water to enter and pass through the soil quickly.
Soil with fine particles clumps together and has few or no spaces between the particles.
Small pores restrict the amount of water that can enter the ground and the ease of movement of water through the soil.

8. Precipitation on slopes flows to lower elevation.
The steeper the slope, the faster the water flows.
Greater potential for erosion on steep slopes.
With steep slopes, little water seeps into the ground before it runs off.

9. A stream is a channel with permanent water flow.
All streams flow downslope.
Tributaries are streams that flow into other streams, increasing the size of the stream it is joining.
A large stream is a river, and its tributaries make up a river system.
Small streams are called brooks and creeks.

10. A watershed is all of the land whose water drains into a stream system.
A divide is a high land area that separates one watershed from another.
Each tributary in a stream system has its own watershed and divides.

12. Watersheds and Divides

13. A stream’s load includes all the materials that the water in a stream carries.
A stream load includes the living and nonliving components.
A stream carries its load in solution, suspension, or as bed load.

14. Material is carried in solution after it becomes dissolved in water.
The amount of dissolved material that water carries is expressed in parts per million, or ppm.
The total concentration of materials in solution in streams averages 115–120 ppm.
Measuring the amount of material in solution helps scientists monitor water quality.

15. Particles small enough to be held up by the turbulence of a stream are carried in suspension.
Particles in suspension are part of a stream’s suspended load.
The amount of material in suspension varies with the water volume and velocity.

16. A stream’s bed load consists of sand and pebbles that the water can roll along the bed of the stream.
Abrasion occurs as the particles grind against one another or against the solid rock of the streambed.
This action contributes to the physical weathering of the stream’s bottom.

18. A stream’s carrying capacity is its ability to transport material.
Carrying capacity depends on the velocity and the volume of water in the stream.
A stream’s water moves faster where there is less friction and greater slope.

19. Stream Velocity and Carrying Capacity

20. Discharge is the measure of the volume of stream water that flows over a particular location within a given period of time expressed in cubic meters per second (m3/s).
discharge  = width  X  depth  X  velocity (m3/s) (m) (m) (m/s)

21. As a stream’s discharge increases, the stream’s carrying capacity increases.
A stream’s ability to erode the land increases when water velocity and volume increase.

22. A flood occurs when more water enters a stream than the banks can hold causing water to spill onto the adjacent land.
A stream’s floodplain is the broad, flat area that extends out from a stream’s bank and is covered by water during a flood.

24. As floodwater recedes the water drops its sediment load onto the stream’s floodplain.
Floodplains have highly fertile soils as more sediment is deposited with each flood.

25. Flood stage is the level at which a stream overflows its banks and the crest of the stream is the maximum height.

26. An upstream flood is the flooding of a small area.
Large amounts of rain in a short time cause upstream floods.
Downstream floods result from accumulations of excess water from large regional drainage systems.
Downstream floods occur after long-lasting storms or thaws of snowpacks.

27. National Weather Service and the U. S
National Weather Service and the U.S. Geological Survey (USGS) monitor potential flood conditions.

28. Stream formation
The first condition for stream formation is an adequate supply of water.
The region where water first accumulates to supply a stream is called the headwaters.
A stream channel forms as the moving water carves a pathway into the sediment or rock.

29. Stream banks hold the water in the stream channel.
Headward erosion is when small streams erode away the rock or soil at the head of the stream.

30. Sometimes, a stream erodes through the area separating two drainage basins, joins another stream, and then draws away its water.
This is called stream capture, or stream piracy.

31. As a stream erodes through sediment or rock, a V-shaped channel develops.
V-shaped channels have steep sides and can form canyons.
Over time, a V-shaped valley will be eroded into a broader valley that has gentle slopes.

32. A stream’s slope decreases as it nears its base level and the channel gets wider.
A meander is a curve in a channel caused by moving water.

33. In a straight part water in the center is flowing at the fastest.
Water along the bottom and sides of the channel flows more slowly because of friction as it moves against the land.

34. The water along the outside of a meander curve experiences the greatest rate of flow within the meander.
The water that flows along the outside part of the curve continues to erode away the sides of the streambed, making the meander larger.
Along the inside of the meander, the water moves more slowly and deposition occurrs.

36. It is common for a stream to cut off a meander and once again flow along a straighter path.
The cut off meander becomes an oxbow lake.
The mouth is the area of the stream that leads into a large body of water.

39. A stream’s speed slows down and its sediment load drops when its slope decreases.
In dry regions, a stream’s slope may decrease causing the stream to drop its sediment in a deposit called an alluvial fan.
Alluvial fans are sloping features formed at the bases of slopes and composed mostly of sand and gravel.

41. A delta is the triangular deposit consisting of silt and clay particles that forms where a stream enters a large body of water.

43. If the land over which the stream is flowing uplifts or if the base level lowers, the stream undergoes rejuvenation.
During rejuvenation, a stream resumes the process of downcutting toward its base level.
If rejuvenation occurs in an area where there are meanders, deep sided canyons are formed.

44. A lake is a depression in the surface of a landscape that collects and holds water.
Reservoirs are lakes made for the purpose of storing water.

45. Oxbow lakes form when streams cut off meanders and leave isolated channels of water.
Lakes can form when stream flow becomes blocked by sediment from landslides.

46. Cirque lakes form when cirques carved in the mountains by valley glaciers fill with water.
Kettle lakes formed when blocks of ice left on the outwash plain ahead of melting glaciers melted and left depressions that filled with water.
Some lakes are formed when the ceilings of caves collapse.

47. The amount of dissolved oxygen helps determine the quality of lake water and its ability to support life.
Eutrophication is the process by which lakes become rich in nutrients resulting in a change in the kinds of organisms in the lake.
Eutrophication speeds up with the addition of fertilizers that contain nitrogen and phosphorus.

48. A wetland is a land area that is covered with water for a large part of the year.
Bogs - soil tends to be rich in Sphagnum (peat moss).

51. Wetlands filter pollutants, sediments, and bacteria contained in water sources.
Wetlands provide habitats for migratory waterbirds and homes for wildlife.
From the late 1700s to the mid 1980s, the United States lost 50 percent of its wetlands.