Weathering, Soil, & Mass Movements. Chapter 5

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Transcription:

Weathering, Soil, & Mass Movements Chapter 5

5.1 Weathering Weathering: the breaking down and changing of rocks at or near the Earth s surface. Basic part of the rock cycle. 2 main types: 1. Mechanical Weathering 2. Chemical Weathering

5.1 Mechanical Weathering Mechanical Weathering Occurs when physical forces break rock into smaller and smaller pieces without changing the rock s mineral composition. Breaking a rock into smaller pieces increases total surface area of the rock. More surface area = more area exposed to chemical weathering.

5.1 Mechanical Weathering

5.1 Mechanical Weathering Mechanical Weathering There are 3 physical processes that cause mechanical weathering: 1. Frost wedging 2. Unloading 3. Biological activity

5.1 Mechanical Weathering Frost Wedging When liquid freezes, it expands (~9%) Expansion pushes force outwards strong enough force to burst pipes in winter. In nature, water between cracks in rock freezes and expands; enlarges the cracks (frost wedging) Common in mountain regions in middle latitudes.

5.1 Mechanical Weathering Unloading Igneous rock can be exposed when rocks overtop of it uplift and erode; this relieves pressure. Unloading causes outer layers of rock to expand more than the rock below. Exfoliation is when outer layers of rock separate and break loose. Can result in large, domeshaped rock formations.

5.1 Mechanical Weathering

5.1 Mechanical Weathering Biological Activity The activity of organisms, including plants, burrowing animals, and humans, can also cause mechanical weathering. Plants grow roots into cracks in rocks this wedges rocks apart. Burrowing animals move rocks to the surface where there is more weathering. Deforestation by humans speeds up weathering.

5.1 Chemical Weathering Chemical Weathering Occurs when rock is transformed into one or more new compounds. New compounds stay unchanged, as long as they stay in the same environment. Burning paper changes its chemical composition (releases CO 2 ) = chemical weathering.

5.1 Chemical Weathering Chemical Weathering Water is the most important agent of chemical weathering. Absorbs gases from the atmosphere and the ground chemically react with minerals. Oxygen dissolved in water reacts easily and forms oxides (ex. Iron oxide rust that forms on iron)

5.1 Chemical Weathering Chemical Weathering Water absorbs carbon dioxide when rain falls or from the ground (decaying organisms) Carbon dioxide dissolved in water forms carbonic acid (weak acid)

5.1 Chemical Weathering Chemical Weathering Water absorbs sulfur oxides and nitrogen oxides (produced by burning coal) Major cause of acid rain. Acid rain speeds up chemical weathering of stone structures.

5.1 Chemical Weathering Chemical weathering of granite Granite is made up of quartz and feldspar. Carbonic acid weathers granite by changing feldspar to clay minerals. Quartz does not change but get released from the granite into rivers. Main part of sand dunes and beaches.

5.1 Chemical Weathering Chemical weathering of silicates Makes iron oxides and clay. Spheroidal weathering Causes the corners of rocks to be rounded.

5.1 Rate of Weathering Mechanical weathering affects how quickly chemical weathering happens. When rocks are broken into smaller pieces, there is more rock surface exposed to chemical weathering. 2 factors affect how quickly weathering happens: 1. Rock characteristics Mineral composition and physical features 2. Climate Temperature and moisture have a strong effect on weathering.

Weathering, Soil, & Mass Movements Chapter 5

5.1 Weathering Weathering: the at or near the Earth s surface. Basic part of the rock cycle. 2 main types: 1. Mechanical Weathering 2. Chemical Weathering

5.1 Mechanical Weathering Mechanical Weathering Occurs when into smaller and smaller pieces without changing the rock s mineral composition. Breaking a rock into smaller pieces. More surface area = to chemical weathering.

5.1 Mechanical Weathering

5.1 Mechanical Weathering Mechanical Weathering There are that cause mechanical weathering: 1. Frost wedging 2. Unloading 3. Biological activity

5.1 Mechanical Weathering Frost Wedging When (~9%) strong enough force to burst pipes in winter. In nature, ; enlarges the cracks (frost wedging) Common in mountain regions in middle latitudes.

5.1 Mechanical Weathering Unloading Igneous rock can be exposed when rocks overtop of it uplift and erode;. causes outer layers of rock to expand more than the rock below. Exfoliation is when. Can result in large, domeshaped rock formations.

5.1 Mechanical Weathering

5.1 Mechanical Weathering Biological Activity The activity of organisms, including plants, burrowing animals, and humans, can also cause mechanical weathering.. Burrowing animals where there is more weathering. by humans speeds up weathering.

5.1 Chemical Weathering Chemical Weathering Occurs when rock is transformed. New compounds stay unchanged, as long as they stay in the same environment. changes its chemical composition (releases CO 2 ) = chemical weathering.

5.1 Chemical Weathering Chemical Weathering Water is of chemical weathering. Absorbs gases from the atmosphere and the ground chemically react with minerals. Oxygen dissolved in water reacts easily and forms oxides (ex. Iron oxide )

5.1 Chemical Weathering Chemical Weathering Water absorbs carbon dioxide when rain falls or from the ground (decaying organisms) Carbon dioxide dissolved in water (weak acid)

5.1 Chemical Weathering Chemical Weathering Water absorbs sulfur oxides and nitrogen oxides (produced by burning coal). Acid rain of stone structures.

5.1 Chemical Weathering Chemical weathering of granite Granite is made up of quartz and feldspar. Carbonic acid weathers granite by changing feldspar to clay minerals. Quartz does not change but get released from the granite into rivers. Main part of sand dunes and beaches.

5.1 Chemical Weathering Chemical weathering of silicates Makes iron oxides and clay. Spheroidal weathering Causes the corners of rocks to be rounded.

5.1 Rate of Weathering Mechanical weathering affects how quickly chemical weathering happens. When rocks are broken into smaller pieces, there is more rock surface exposed to chemical weathering. 2 factors affect how quickly weathering happens: 1. Rock characteristics and physical features 2. Climate have a strong effect on weathering.

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