The Movement of Soil, Part 2

Worksheets and No Prep Teaching Resources
Reading Comprehension Worksheets
Erosion
Soil

The Movement of Soil, Part 2

The Movement of Soil, Part 2
Print The Movement of Soil, Part 2 Reading Comprehension

Reading Level

	edHelper's suggested reading level:	grades 9 to 10
	Flesch-Kincaid grade level:	8.39

Vocabulary

	challenging words:		downslope, fan-shape, narrow-topped, peneplain, peneplains, rockfalls, solifluction, subsoil, tablelike, talus, weather-resistant, beating, composition, mudflows, runoff, majority
	content words:		New England, Colorado Plateau, United States, New York

The Movement of Soil, Part 2
By Trista L. Pollard

¹     In The Movement of Soil, Part 1, you learned about the processes both human and natural that cause soil erosion. There are other forces that cause the movement of soil and rock. Gravity is one of those major forces that pull rock fragments down slopes in events called mass movements. Mass movements vary in their speed, intensity, and fragment size. When mass movements occur rapidly, they tend to be the most destructive and dramatic. Rockfalls occur when rock fragments fall from steep cliffs. This is the fastest type of mass movement. The fragments may be as tiny as pebbles or as huge as giant boulders. Landslides occur when large amounts of loose rock combined with soil fall suddenly down a slope. The steepness of the slope may affect the amount and the size of the rock material in the landslide. Larger landslides tend to occur on steeper slopes and involve larger blocks of bedrock. If you live in California or in areas where highways run through mountains, then you may have witnessed small landslides. Earthquakes and volcanic eruptions may cause landslides. Less dramatic events like heavy rainfall and spring thaws may also produce conditions that cause landslides.

²     Rocks and boulders are not the only material involved in mass movements. Mudflows, which occur in dry mountainous areas, contain large amounts of mud that move rapidly. Heavy rainfall that happens suddenly and volcanic eruptions can cause mudflows. The traveling mud churns and tumbles its way down slopes. It continues through valleys and eventually spreads out in a large fan-shape at the slope's base. Mudflows are often mistaken for landslides, especially in communities along hillsides. Heavy rainfall may also cause slumps. Overlying soil that has been over saturated from rain may lose friction with underlying rock. As a result, large blocks of soil and rock may break off and slide down the slope in one piece. The block follows along the curved slope of the surface, slipping over solid rock towards the bottom of the slope. Slumps usually occur on very steep slopes.

³     Solifluction and creep are the slowest types of mass movement. The majority of the rock material that moves on our planet's surface is moved by slow mass movements. Solifluction occurs when soil that has been saturated with water slips over hard frozen layers of subsoil. This type of movement tends to happen in areas where the subsoil is permanently frozen, like the Arctic or in mountainous areas. Warmer regions that have subsoils made of hard clay may experience solifluction. Creep is the slowest of all the mass movements and moves the most soil out of all the mass movements. The only way to detect soil creep is to observe the fences, buildings, and other surface objects that may be in that area. As the loosened soil moves slowly downslope, these objects will move along with the soil. Soil creep may be caused by water loosening rock particles; plants producing pressure as they grow that wedges in between rocks and soil; or burrowing animals that loosen rock material as they build their homes. Constant freezing and thawing may also cause creep. Once the particles are loosened, gravity takes hold, and the soil slowly moves downhill. Eventually, these particles may accumulate at the base of the slope forming piles of talus. Talus cones contain these particles and will continue to weather into smaller particles. These smaller particles are then carried by runoff into gullies and other waterways.

Paragraphs 4 to 6:
For the complete story with questions: click here for printable

Weekly Reading Books

          Create Weekly Reading Books

Prepare for an entire week at once!

Feedback on The Movement of Soil, Part 2

Leave your feedback on The Movement of Soil, Part 2   (use this link if you found an error in the story)

Erosion

             Erosion

Soil

             Soil

More Lessons

             Earth Science

             High School Reading Comprehensions and High School Reading Lessons

Science

             Science

Careers in Science

Caring for Earth

Clouds

Dinosaurs

Earth's Land

Earth

Earthquakes

Electricity

Energy

Erosion

Food Pyramid

Food Webs and Food Chain

Forces and Motion

Fossils

Health and Nutrition

How Things Work

Landforms

Life Science

Light

Magnets

Matter

Moon

Natural Disasters

Photosynthesis

Plant and Animal Cells

Plants

Rocks and Minerals

Science Process Skills

Scientific Notation

Seasons

Simple Machines

Soil

Solar System

Sound

Space and Stars

Sun

Tsunami

Volcanoes

Water Cycle

Water

Weather

Copyright © 2018 edHelper