Weathering of Rocks

1. Weathering of Rocks

2. Exam 1

3. Why we see weathering • Most minerals are not stable at the Earth’s surface • The Earth wants to be flat – lowest energy state • Topography provides energy

4. Bowen’s Reaction Series and Weathering

5. Three Dynamic Processes of Breaking and Removing rock • Weathering - the disintegration and decomposition of rock at or near the surface • Erosion • Mass wasting

6. Types of Weathering Physical (Mechanical) –breakdown of rocks into smaller pieces. Chemical – decomposition of rocks by chemical reactions.

7. Page 250

8. Daily Questions Examine the five World Heritage Sites in Figure 9.1 (pg. 244) • Which site is at the greatest risk from physical weathering? Why? • Which site is at the greatest risk from chemical weathering? Why?

9. Mechanical Weathering Mechanical weathering breaks down rocks/minerals Smaller particles increases the amount of exposed surface area Does not change the chemical composition of the minerals\

10. Mechanical Weathering - making smaller pieces

11. Types of Mechanical Weathering Frost wedging – water penetrates into cracks, expands when it freezes. Must have: • Adequate moisture • Cracks in rocks • Freeze/thaw cycles

12. Salt Wedging

13. Biological Wedging

14. Unloading Removal of overlying material allows rock to expands Top layers expand more than deeper layers Causes sheeting or exfoliation

15. Unloading Sheeting Sheeting

16. Chemical Weathering • Chemical alteration of minerals. • Results in new minerals and ions in solution. • Water and acid are essential.

17. Dissolution Minerals dissolve in water For example: salts

18. H2O + CO2H2CO3 CaCO3 + H2CO3 Ca2+ + 2HCO3- Acid Hydrolysis - Dissolution Carbon Dioxide + Rain Becomes Acid Dissolves Minerals (i.e. carbonates such as calcite) Carries away--- Ions

19. Acid Hydrolysis & Secondary Minerals Carbon Dioxide + Rain Becomes Acid Dissolves Minerals (i.e. silicates) Leaves ----Clay Carries away--- Ions Silica

20. Oxidation • Iron silicate dissolves • Iron oxidizes • Oxidized iron combines with water • Leaves iron oxide

21. Results of Weathering • Water moves through joints • Frost wedging • Chemical dissolution – get clays • Joints enlarge • Corners are attacked more aggressively – get rounding of the material • Fines (clays and silts) wash out of rock

23. Weathering Products Regolith – a loose layer of broken rock and mineral fragments. Sediments Dissolved Ions

24. Relative susceptibilityTo weathering

25. Products of Weathering

26. Factors influencing Weathering Rates • Rock structures – chemical/mineral composition, physical features • Topography • Climate • Vegetation • Time

27. Climate and Weathering

29. Benefits of Weathering • Creates soil • Produces clay, sand, and gravel • Produces minerals

30. Soils

31. Terminology Regolith– blanket of loose, weathered rock debris covering unweathered bedrock. Soil – uppermost part of regolith. Rock particles, new minerals, organics

32. More chemical weathering in soil. • Soil has structure (layers called soil horizons). • Soil retains nutrients and moisture, essential for abundant plant growth. How soil differs from regolith:

33. More Terminology Soil profile– sequence of soil horizons. Soil horizon – layer within a soil profile that has distinct characteristics. Composition, color, texture

34. Soil Horizons

35. A horizon • Zone of leaching (lots of chemical weathering) • Organic rich, often dark in color • Decaying organic matter releases nutrients

36. B horizon • Zone of accumulation – minerals (clay and iron oxide) are washed down from above. • High clay content, reddish color from iron. • Able to retain moisture because of clay content

37. C horizon Parent material – grading from weathered to unweathered. • Parent material can be: • Bedrock • Stream sediments • Volcanic ash

38. Controls of Soil Formation • Parent Material • Time • Climate • Plants and Animals • Slope