Chapter 12 Weathering & Erosion

Breakup of rock transport of weathered material

by wind, water or ice

Types of Weathering

A. Mechanical

-breaking rock into smaller pieces (no change in rock composition)

B. Chemical

-process by which rocks are decomposed, dissolved or loosened

(rock composition changes –new minerals are formed)

Mechanical Weathering – 4 types

1. Temperature Change

-Water seeps into cracks in the rock. Over time, repeated freezing & thawing, or wetting & drying, expands the crack, breaking the rock apart.

-Also called “Ice Wedging” or “Frost Wedging.”

-Heating during the day and cooling at night has the same effect.

2. Abrasion

-Wind-blown sand or moving water carry rocks. The moving rocks grind and scrape against each other and is worn away.

-The longer a rock is abraded by water, the rounder and smoother it is

3. Plants & Animals

-“Root Action” - plant roots grow through rocks and split/ break them.

-Animals dig holes in the soil which allow air & water to reach the bedrock which speeds up the weathering process.

4. Exfoliation

-Caused by the loss of rock & soil over bedrock. Rocks weather by peeling off in sheets rather than eroding grain by grain.

Chemical Weathering – 3 types

1. Hydrolysis

·  When rocks react with water. Specifically, when silicate minerals (like feldspar) react with water to form clay.

2. Acids

·  Acid forms from decaying plants like moss.

Dissolution:

·  CO2 or Carbon Dioxide from the air mixes with water to form carbonic acid.

·  It dissolves calcite completely to form underground caves in limestone bedrock. “Karst Topography”

·  Pollutants like Sulfur Dioxide and Nitrogen compounds mix with water in the atmosphere producing acid rain. (Sulfuric or Nitric acid)

3. Oxidation

·  When iron-bearing minerals in rocks react with oxygen to form reddish or yellow “rust” or iron-oxide. Examples of iron minerals: magnetite & pyrite

The Rate of Weathering – depends on…

1. Surface Exposure

·  Weathering takes place on the surface.

·  The more surface exposed, the faster it weathers!

2. Mineral Composition

Some minerals are more resistant to weathering than others.

·  Quartz is resistant to weathering = slow

·  Calcite is susceptible to weathering = fast

·  A quartz granite would take longer to weather than a calcite limestone.

3. Climate

Depends on temperature & the amount of rainfall

·  Cold-Wet/Dry and Hot-Dry climates favor mechanical weathering. (slow)

·  Hot-Wet climates favor chemical weathering. (occurs fast)

Chapter 12 – Types of Erosion

Differential Erosion

Because each rock has a different mineral composition, surface area or climate, they can erode at different rates.

Resistant rock will form ridges while less resistant rock that weathered quickly form valleys.

Mass Movements (or Mass Erosion)

-The downward transport of weathered material down slope. “Landslides”

- Trees, grass and plants protect the bedrock from weathering! Roots hold soil in place.

FAST Movements

1. Mud Flow – rapid movement of water that contains large amounts of suspended clay and silt.

·  Mudflows that accompany volcanic eruptions are called Lahars.

2. Rock Fall (rock slide) gravity pulls down mostly dry rock

·  Talus – pile of rocks that collect at the base of a slope

3. Earth Flow – mass of weathered material that has been saturated with water flows downhill.

·  The movement is slower and less fluid than a mudflow.

SLOW Movements

1. Creep (slowest type)

- slow imperceptible movement of soil down-slope

2. Slump

- when blocks of land tilt & slide down along a curved surface

Chapter 12 - Soil

Weathering has helped form a priceless resource… Earth’s life supporting SOIL

SOIL – weathered rock and organic material in which plants with roots can grow. -- [Regolith is term used to describe any loose material covering the solid bedrock including soil]

A MATURE

SOIL PROFILE

A/O - topsoil - organic layer, made mostly of leaf matter & humus.

B - subsoil; red or brown color from iron oxides; made of clay & sand. “leached zone” - minerals are washed down from above.

C - slightly weathered bedrock

Bedrock or “Parent Rock”– solid rock beneath soil

SOIL PROCESSES & FORMATION

What is the most important factor affecting soil development? CLIMATE

It can take up to 1000 years for just an inch of soil to form. Besides time, other factors that help soil to form include:

·  LIVING ORGANISMS - This includes organisms such as plants, fungi, animals, and bacteria.

·  TOPOGRAPHY - This is the relief or slope of the surface of land where the soil is forming.

·  CLIMATE - The overall climate and weather where the soil is forming.

·  PARENT MATERIAL - The bed rock that is slowly disintegrating to form the soil.

SOIL TEXTURE

·  Soil is made of a combination of SAND, SILT, & CLAY

·  LOAM consists of a good mix of the three, making this type of soil the best for growing plants.

SOIL TYPE

·  RESIDUAL soil remains on top of its parent rock

·  TRANSPORTED soil is moved to a location away from its parent bed rock

HOW CAN WE PROTECT OUR SOIL?

v  Plant windbreaks of trees around fields

v  Terracing prevents water washing soil away

v  Strip cropping - alternating rows of tall & short plants to prevent wind erosion