13.3 River Valleys Headward Erosion: is a process of erosion that lengthens a stream, a valley or a gully at its beginning and also enlarges its drainage.

Slides:

Advertisements

Similar presentations

Erosion and Deposition

Advertisements

The transport of weathered materials…

The Grand Canyon. The Grand Canyon in Arizona was carved out of the Earth by erosion. Erosion is the process by which weathered rock and soil are moved.

13.3 River Valleys Key Idea:

The long profile of a river

Chapter 13 Worksheets Section 1-4.

Surface Water Streams and Rivers Stream Erosion and Deposition

Water Erosion Chapter 9 Section 2.

Surface Water Topics: Surface Water Movement Stream Development

Running Water. Rivers Systems Watershed  Land from which water runs off into streams (drainage basin)

WHAT CAN YOU REMEMBER? ocean land 2) _________ 3) _________

RIVER FORMATION EARTH’S GRAVITATIONAL FORCE PULLS OBJECTS TOWARD IT’S CENTER OF MASS. WATER FALLING DOWN A SLOPE IS EVIDENCE OF GRAVITY. AS OBJECTS DROP.

Life Cycle of a Stream Aim: How does a river shape the land over time?

Chapter River Valleys.

© 2011 Pearson Education, Inc. Earth: An Introduction to Physical Geology, 10e Tarbuck & Lutgens.

Part 7 CHANNEL FORM AND PATTERNS. Antecedent and Superimposed Streams An antecedent stream is one whose path of flow within a valley was established before.

Chapter 7: Erosion and Deposition

Topic 6 – Running Water.

Running Water Running water Water as an agent of erosion; water in streams, tributaries (larger streams) and rivers that flow down hill therefore changing.

REVIEW There are 2 types of WEATHERING: 1. CHEMICAL 2. PHYSICAL

Chapter 13 Surface Water.

CONTENT SL.N O NAME OF CHAPTERS 1. Geological work by river 2. Introduction of streams 3. TYPES OF STREAMS 4.Drainage system 5. Types of drainage system.

Running water: The major force of erosion acting on Earth today. If it weren’t for the mountain- building activity of plate tectonics, Earth would be completely.

Chapter 13 Notes.

What are the forces of erosion and deposition that

Surface Water Chapter 9. Water Cycle Also the hydrologic cycle Driving force is the sun Review: condensation, precipitation, transpiration, evaporation,

13 Surface Water 13.1 Streams and Rivers

EROSION- The transport of weathered materials….

Stream Erosion and Transport

© 2011 Pearson Education, Inc. Running Water Earth, 10e - Chapter 16.

 Lithosphere-rocky outer layer of Earth including the crust and upper mantel.  Hydrosphere-all the water on Earth.

 Beginning of a stream; high elevation.

Week 3. drainage basin A system of rivers and streams that drains an area.

River Systems. Objective  Students will describe factors that affect the erosive ability of a river and the evolution of a river system.

River Terminology 10/17/00. Erosion The break up and transport of earth materials by moving natural agents. Natural agents: Glaciers, Wind and Moving.

EARTH SCIENCE Prentice Hall EARTH SCIENCE Tarbuck Lutgens 

Chapter 9 Surface water Mars.

A river system is made up of a main stream and tributaries – Tributary: a stream that flows into a lake or into a larger stream.

11.1 The Active River. Do you think a river can have a source? Describe where you would expect to find a river’s source. The source of a river is where.

Running Water Erosion and Weathering. The hydrologic cycle is a summary of the circulation of Earth’s water supply Processes involved in the hydrologic.

River Systems Section 2 Section 2: Stream Erosion Preview Key Ideas Parts of a River System Channel Erosion Development of River Channels Tributary, River.

A river runs through it Erosion & rivers. River-related vocabulary  You may recall the following terms.  A tributary is a small stream that empties.

EROSION AND DEPOSITION. Runoff and Erosion  Precipitation over the United States averages about 75 cm per year. About 22.5 cm becomes runoff. Generally,

Chapter 2: The Flow of Freshwater. Draw the water cycle diagram in your daybook and label it in your own words. p.41 in your text.

The River. Natural flowing watercourse, usually freshwater, flowing towards an ocean, a lake, a sea, or another river A river could flow into the ground.

Erosion – the carrying away of weathered rock by gravity, water, wind, and ice Running Water Wind Ice.

Section 1 The Active River The Water Cycle Is the continuous movement of water Water moves from the ocean to atmosphere to land Is driven by the sun’s.

River Systems. A river system is an open system. An open system has inputs, processes and outputs. So unlike water in the hydrological cycle, where there.

Erosion & Deposition Ch 10 8 th grade. What processes wear down and build up Earth’s surface? Gravity, moving water, glaciers, waves, and wind are all.

The Water Cycle

River Systems You will learn: Where do rivers begin?

Rivers & Groundwater.

INVESTIGATING RIVERS.

by Maddie, Ty, McKinley, and Garrett

River System Development

The hydrologic cycle.

Virginia Geology 2011.

INVESTIGATING RIVERS.

Stream Erosion.

Section 2: Stream Development

The Flow of Freshwater.

Ch.13, Sec.1 – Streams & Rivers

The Flow of Water.

Journal #3 Describe your observations in yesterday’s lab

Virginia Geology.

13.3 V shape As they grow they become U shaped How do rivers begin?

Presentation transcript:

13.3 River Valleys Headward Erosion: is a process of erosion that lengthens a stream, a valley or a gully at its beginning and also enlarges its drainage basin.

Canyon & V-Shaped Valley Evolution 1. 2.

V-Shaped Valley Starts: 1.

V-Shaped Valley Starts: 2. http://www.absorblearning.com/media/item.action?quick=133 http://www.lighthall.solihull.sch.uk/Internet%20site/Subjects/Geography/River%20website/Pages/v%20shaped%20valley.htm#

Stream Piracy – The Development of a Watergap

Before After Stream capture, or stream piracy, is a geomorphic phenomenon that occurs when a stream or river from a neighboring drainage system or watershed erodes through the divide between two streams and "captures" another stream which then is diverted from its former bed and now flows down the bed of the capturing stream. This can occur through headward erosion of one stream valley into another or through lateral erosion of meanders through the sediments between parallel streams.

An example! Stage 1 - Beaverdam Creek, Gap Run, and Goose Creek flow eastward through the Blue Ridge and enter the Potomac. (from Judson and Kauffman)

Stage 2 - As the land is eroded downward, the three east flowing creeks do not have the power to erode as far through the Blue Ridge as the Shenandoah, Potomac system. The Shenandoah extends itself southward by headward erosion through the relatively high land west of the Blue Ridge. It eventually captures Beaverdam Creek. An example! (from Judson and Kauffman)

An example! Stage 3 - The capture of Beaverdam Creek added more discharge to the Shenandoah which was able to therefore erode more. Headward erosion leads to the capture of Gap Run. The water gaps where Beaverdam Creek and Gap Run used to flow through the Blue Ridge are left as wind gaps. (from Judson and Kauffman)

An example! Stage 4 - Eventually Goose Creek is captured as well. Snicker's Gap, Ashby Gap, and Manassas Gap are left as wind gaps. As the land on either side of the ridge is eroded down together with the ridge summit, the relative elevation of the wind gaps becomes higher and higher. (from Judson and Kauffman)

Summarizing Erosion and downcutting through young horizontal units Folded Units Development of water gap

Waterfall Formation

A waterfall is usually a geological formation resulting from water, often in the form of a stream, flowing over an erosion-resistant rock formation that forms a sudden break in elevation.

Some waterfalls form in mountain environments where erosion is rapid and stream courses may be subject to sudden and catastrophic change. In such cases, the waterfall may not be the end product of many years of water action over a region, but rather the result of relatively sudden geological processes such as landslides, faults or volcanic action.

Niagara Falls – Water action erodes weak shales at the base of the falls. This erosion undermines the tough dolostone layer above. From time to time, the dolostone breaks off, and the waterfall recedes.