The hydrologic cycle. Running water Streamflow Two types of flow determined primarily by velocity –Laminar flow –Turbulent flow Factors that determine.

Slides:

Advertisements

Similar presentations

9: Running Water Basins: land area that contributes water to a river system Divide: separates different drainage basins Ex. Drainage basin of Mississippi.

Advertisements

Surface Water Streams and Rivers Stream Erosion and Deposition

Prentice Hall EARTH SCIENCE

© 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.

Chapter 3 Landscapes Fashioned by Water

Running Water and Groundwater

Running Water and Groundwater Chapter 5

Objectives Describe how surface water can move weathered materials.

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

Due Tuesday, May 31 st at beginning of class Go to and enter 101 in left navbar search field. On G101 web page, download Problem Set.

Chapter 14 River Systems and Landforms

The Work of Streams.

Chapter 6.2 The Work of Streams.

Sculpting Earth’s Surface

Erosion and Deposition

Water Cycle - Running Water

Running Water Day 1.

Factors affecting erosion and deposition Velocity Gradient – rise over run Channel shape Channel roughness Discharge – amount of water flow per unit.

Chapter 13 Surface Water.

Chapter 10 Streams and Floods

Chapter 16: Running Water. Hydrologic cycle The hydrologic cycle is a summary of the circulation of Earth’s water supply Processes involved in the hydrologic.

Chapter 14 River Systems and Landforms

6.3 Water Beneath the Surface

Streams Nancy A. Van Wagoner Acadia University Distribution of Earth's water n What are the percentages? -Oceans - Glaciers - Groundwater - Lakes and.

What makes Earth unique. Where is the water on our planet ?

13 Surface Water 13.1 Streams and Rivers

Tarbuck & Lutgens. Stanley C. Hatfield Southwestern Illinois College.

Running Water and Groundwater. Earth as a system: the hydrologic cycle  Illustrates the circulation of Earth's water supply  Processes involved in the.

River Systems Earth Space Science Mr. Coyle. The Hydrologic Cycle Infiltration = Groundwater System Runoff = Surface Water System Runoff = Precipitation.

Section 13.1 Streams and Rivers

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

Longitudinal profile Fluvial/River- Areas The path the river follows from its source to mouth is known as the river's course. When studying rivers we.

A stream is a body of water that carries rock particles and dissolved ions and flows down slope along a clearly defined path, called a channel. Thus, streams.

 These two agents: erosion and deposition are the most important agents that affect weathered materials.  Erosion involves the physical removal of weathered.

Rivers and Streams. River Systems A river or stream: any body of water flowing downhill in a well defined channel A river or stream: any body of water.

Stream/River formation and features

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 as a System: The Hydrologic Cycle

EARTH SCIENCE Prentice Hall EARTH SCIENCE Tarbuck Lutgens 

Surface and Ground water Chapter 11. Hydrologic Cycle.

Running Water. Hydrologic Cycle The hydrologic cycle is a summary of the circulation of Earth’s water supply ► Processes involved in the hydrologic cycle.

Erosion and Transportation

(,rivers, brooks, creeks, etc.)

The Work of Streams Erosion Destroys the land. The Work of Streams Erosion Destroys the land Deposition Makes new land.

Stream Erosion & Deposition Chapter 6 sections 1 and 2.

© 2012 Pearson Education, Inc. Earth Science, 13e Tarbuck & Lutgens.

The Work of Streams Erosion – water causes loose particles to be moved through abrasion, grinding, or by dissolving soluble material. Sediment Transport.

TRANSPORTATION & DEPOSITION in a Stream System.

River Transportation and Deposition

Dworshak Dam, Clearwater River, holds 12,384,000 acre- feet of water Idaho has 93,000 miles of rivers and streams.

Running Water Day 2. Objective By the end of today, I will be able to: – Evaluate how materials are _____________in a stream and how they are _______________.

Works of Streams Steams doing work. Erosion  Erosion is transportation of minerals and materials by use of mobile agent  Usually water, wind or ice.

Lecture Outlines PowerPoint

Earth Science, 13e Tarbuck & Lutgens.

Warm-up What are four things that impact INFILTRATION? (the answer is in your notes) After you finish the warm-up put your river basin project in the inbox.

Chapter 6.2 The Work of Streams

Lecture Outlines PowerPoint

EARTH SCIENCE KESSEL.

Summary In addition to the oceans, where else is water found on Earth?

The Work of Streams.

Chapter 7- Running Water and Groundwater

stream, river, lake, wetland, or ocean

River Systems Part 2 Features of a Meandering River Levees

Precipitation = Evaporation

Running Water and Groundwater

Running Water Earth Science Chapter 6

Prentice Hall EARTH SCIENCE

Precipitation = Evaporation

Presentation transcript:

The hydrologic cycle

Running water Streamflow Two types of flow determined primarily by velocity –Laminar flow –Turbulent flow Factors that determine velocity –Gradient, or slope –Channel characteristics including shape, size, and roughness

Running Water Streamflow Factors that determine velocity –Discharge – the volume of water moving past a given point in a certain amount of time Q = V x A (m3/s) Changes from upstream to downstream Profile –Cross-sectional view of a stream –Viewed from the head (headwaters or source) to the mouth of a stream

Changes from upstream to downstream Profile –Profile is a smooth curve –Gradient decreases downstream –Velocity –Discharge –Channel size

Longitudinal profile of a stream

WORK OF STREAMS 1-Erosion, 2-Transportation, 3-Deposition 1-Stream erosion Lifting loosely consolidated particles by –Abrasion –Dissolution Stronger currents lift particles more effectively

Active erosion by a stream

WORK OF STREAMS 2-Transport of sediment by streams: Transported material is called the stream’s load Types of load –Dissolved load –Suspended load –Bed load Capacity – the maximum load a stream can transport

WORK OF STREAMS 3- Deposition of sediment by a stream Caused by a decrease in velocity –Competence is reduced –Sediment begins to drop out Stream sediments –Generally well sorted –Stream sediments are known as alluvium

Deposition of sediment by a stream Channel deposits ( mostly Sand & gravel) Deltas Floodplain deposits –Natural levees – form parallel to the stream channel by successive floods over many years

Formation of natural levees by repeated flooding

The Nile and Mississippi Rivers deltas

Running water Stream valleys: (1-Narrow V ; 2- Wide) Features of wide valleys often include –Floodplains –Erosional floodplains –Depositional floodplains –Meanders –Cut bank

Erosion and deposition along a meandering stream

A meander loop on the Colorado River