Prentice Hall EARTH SCIENCE

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Presentation transcript:

Prentice Hall EARTH SCIENCE Tarbuck Lutgens 

6 Running Water and Groundwater Who is Stan Hatfield and Ken Pinzke

Distribution of Earth’s Water

6.1 Running Water The Water Cycle  Water constantly moves among the oceans, the atmosphere, the solid Earth, and the biosphere. This unending circulation of Earth’s water supply is the water cycle.

6.1 Running Water The Water Cycle  Processes involved in the cycle are • precipitation • evaporation • infiltration—the movement of surface water into rock or soil through cracks and pore spaces • runoff • transpiration—the release of water into the atmosphere from plants through the ground

The Water Cycle Makes no sense without caption in book

6.1 Running Water Earth’s Water Balance  Balance in the water cycle means the average annual precipitation over Earth equals the amount of water that evaporates.

6.1 Running Water Streamflow  The ability of a stream to erode and transport materials depends largely on its velocity. • Gradient is the slope or steepness of a stream channel.

6.1 Running Water Streamflow • Channel Characteristics - The stream channel is the course the water in a stream follows. - Shape, size, and roughness • Discharge of a stream is the volume of water flowing past a certain point in a given unit of time.

6.1 Running Water Changes from Upstream to Downstream  While gradient decreases between a stream’s headwaters and mouth, discharge increases.  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

6.1 Running Water Changes from Upstream to Downstream  Profile • A tributary is a stream that empties into another stream. • Factors that increase downstream - velocity - discharge - channel size

Sea Level and Streams

6.1 Running Water Changes from Upstream to Downstream  Profile • Factors that decrease downstream include - gradient, or slope - channel roughness

Rivers with Many Meanders

6.1 Running Water Changes from Upstream to Downstream  Base Level • Lowest point to which a stream can erode • Two general types - ultimate—sea level - temporary, or local • A stream in a broad, flat-bottomed valley that is near its base level often develops a course with many bends called meanders.

6.2 The Work of Streams Erosion  Streams generally erode their channels, lifting loose particles by abrasion, grinding, and by dissolving soluble material.

6.2 The Work of Streams Deposition  A stream’s bedload is solid material too large to carry in suspension.  The capacity of a stream is the maximum load it can carry.  Deposition occurs as streamflow drops below the critical settling velocity of a certain particle size. The deposits are called alluvium.  Deltas are an accumulation of sediment formed where a stream enters a lake or ocean.  A natural levee parallels a stream and helps to contain its waters, except during floodstage.

6.2 The Work of Streams Stream Valleys  Narrow Valleys • A narrow V-shaped valley shows that the stream’s primary work has been downcutting toward base level. • Features often include - rapids - waterfalls

Example of a V-Shaped Valley http://cgz.e2bn.net/e2bn/leas/c99/schools/cgz/accounts/staff/rchambers/GeoBytes%20GCSE%20Blog%20Resources/Images/Rivers/V-shapedvalley.jpg

6.2 The Work of Streams Stream Valleys  Wide Valleys • Stream is near base level. - Downward erosion is less dominant. - Stream energy is directed from side to side. • The floodplain is the flat, low-lying portion of a stream valley subject to periodic flooding.

6.2 The Work of Streams Stream Valleys  Wide Valleys • Features often include - meanders - cutoffs - oxbow lakes

Formation of a Cutoff and Oxbow Lake http://www.factmonster.com/images/ESCI233LAKES003.gif http://www.scioly.org/w/images/1/1a/Ox-bow_lake.gif

6.2 The Work of Streams Floods and Flood Control  A flood occurs when the discharge of a stream becomes so great that it exceeds the capacity of its channel and overflows its banks.  Measures to control flooding include artificial levees, flood control dams, and placing limits on floodplain development.

Ohio River Flooding

6.2 The Work of Streams Drainage Basins  A drainage basin is the land area that contributes water to a stream.  A divide is an imaginary line that separates the drainage basins of one stream from another.

6.3 Water Beneath the Surface Distribution and Movement of Water Underground 6.3 Water Beneath the Surface  Much of the water in soil seeps downward until it reaches the zone of saturation.  The zone of saturation is the area where water fills all of the open spaces in sediment and rock. • Groundwater is the water within this zone. • The water table is the upper level of the saturation zone of groundwater.

6.3 Water Beneath the Surface Distribution and Movement of Water Underground 6.3 Water Beneath the Surface  Movement • Groundwater moves by twisting and turning through interconnected small openings. • The groundwater moves more slowly when the pore spaces are smaller.

6.3 Water Beneath the Surface Distribution and Movement of Water Underground 6.3 Water Beneath the Surface  Movement • Porosity - The percentage of pore spaces - Determines how much groundwater can be stored • Permeability - Ability to transmit water through connected pore spaces - Aquifers are permeable rock layers or sediments that transmit groundwater freely

Features Associated with Subsurface Water

6.3 Water Beneath the Surface Springs 6.3 Water Beneath the Surface  A spring forms whenever the water table intersects the ground surface.  Hot Springs • Water is 6–9ºC warmer than the mean air temperature of the locality. • Water is heated by cooling of igneous rock.  Geysers • Intermittent hot springs • Water turns to steam and erupts.

Geyser Eruption Cycle

Cross Section of a Geyser http://www.hanksville.org/daniel/geology/images/geyserworks.gif

6.3 Water Beneath the Surface Wells 6.3 Water Beneath the Surface  A well is a hole bored into the zone of saturation. • An artesian well is any formation in which groundwater rises on its own under pressure. • Pumping can cause a drawdown (lowering) of the water table. • Pumping can form a cone of depression in the water table.

Cone of Depression

6.3 Water Beneath the Surface Environmental Problems Associated with Groundwater 6.3 Water Beneath the Surface  Overuse and contamination threatens groundwater supplies in some areas. • Treating it as a nonrenewable resource • Land subsidence caused by its withdrawal • Contamination

Groundwater Contamination

6.3 Water Beneath the Surface Caverns 6.3 Water Beneath the Surface  A cavern is a naturally formed underground chamber.  Erosion forms most caverns at or below the water table in the zone of saturation.  Travertine is a form of limestone that is deposited by hot springs or as a cave deposit.

Dissolving of Groundwater Creates Caverns

6.3 Water Beneath the Surface Caverns 6.3 Water Beneath the Surface  Characteristics of features found within caverns • Formed in the zone of aeration • Composed of dripstone • Formed from calcite deposited as dripping water evaporates • Common features include stalactites (hanging from the ceiling) and stalagmites (growing upward from the floor).

6.3 Water Beneath the Surface Karst Topography 6.3 Water Beneath the Surface  Formed by dissolving rock at, or near, Earth's surface  Common features • Sinkholes—surface depressions - Sinkholes form when bedrock dissolves and caverns collapse. • Caves and caverns  Area lacks good surface drainage.

200ft Guatemala City sinkhole- 02June2010 Sinkhole Formation 200ft Guatemala City sinkhole- 02June2010