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Weathering must happen before erosion can take place!

Which comes first Erosion or weathering?. Weathering must happen before erosion can take place!. WEATHERING. Definition: The physical and chemical processes that break down rock on earth’s surface. 2 Types of Weathering.

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Weathering must happen before erosion can take place!

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  1. Which comes first Erosion or weathering? Weathering must happen before erosion can take place!

  2. WEATHERING Definition: The physical and chemical processes that break down rock on earth’s surface.

  3. 2 Types of Weathering • PHYSICAL/ MECHANICAL WEATHERING – rocks are broken apart increasing the surface area. ROCKBEFORE WEATHERING = ROCK AFTER WEATHERING (just smaller) • CHEMICAL WEATHERING – Chemical reactions CHANGE minerals. ROCK BEFORE WEATHERING ≠ ROCK AFTER WEATHERING

  4. PHYSICAL WEATHERING INCREASES SURFACE AREA MORE CHEMICAL WEATHERING CAN OCCUR

  5. There are four main sources of power for mechanical weathering. Gravity, Water, Wind, & Waves Of these, water appears to be the leader in changing the surface.

  6. PHYSICAL WEATHERING • MOST IMPORTANT IN OUR CLIMATE FROST ACTION – FROST WEDGING ALTERNATE FREEZE AND THAW Water expands when frozen

  7. ROCKS ARE CRACKED BY WATER FREEZING

  8. EXAMPLES: POT HOLES AND FROST HEAVES

  9. Spheroidal Weathering Fluids enter rock along joints or fractures and the edges become rounded.

  10. PHYSICAL WEATHERING – ROOT ACTION PLANT ROOTS UPLIFT AND FRACTURE ROCK

  11. Root Penetration Powerful plant roots grow into rock cracks and cause fractures.

  12. PHYSICAL WEATHERING - ABRASION ROCK PARTICLES GRIND AGAINST ONE ANOTHER WATER WIND

  13. Abrasion Both wind and water can cause abrasionas rock fragments bounce off each other.

  14. Abrasion This “moon looking” picture of an Antarctic rock, shows weathering from the wind blown sands.

  15. PHYSICAL WEATHERING EXFOLIATION – PEELING AWAY OF ROCK • Unloading – due to reduced pressure at earth’s surface rocks will expand but they will crack because they are brittle • Fluctuating Temperatures will cause rocks to contract and expand causing cracks Examples: deserts and mountains

  16. PHYSICAL WEATHERING - EXFOLIATION

  17. Unloading and Exfoliation of Igneous Rocks

  18. Dome Exfoliation

  19. Exfoliation domes form as the slabs of rock slip or slide off the bedrock. E.g. Yosemite

  20. Glacial Weathering Glaciers and avalanches can cause weathering as ice and rock interact.

  21. Other Agents of Weathering Things likeflash floods, mud slides, landslides, and other forms of mass wasting can cause weathering.

  22. Chemical Weathering

  23. EXAMPLES OF CHEMICAL WEATHERING • OXIDATION OCCURS when free oxygen combines chemically with metallic elements (usually iron) AKA RUST

  24. Chemical Weathering • Oxygen dissolved in water will oxidize some materials like nails and rocks! (Rust) • Carbon dioxide dissolved in water forms a weak acid called carbonic acid, which helps dissolve rock material. Chemical Weathering of Statues, Bath, UK

  25. CARBONATION Water containing carbonic acid dissolves minerals (all rain water is slightly acidic) Most strongly affected are calcite minerals: limestone and marble

  26. CARBONATION Stalagmites and stalactites

  27. CARBONATION – SINK HOLES • Karst Topography forms caves, caverns, and sinkholes

  28. CAVES AND SINK HOLES

  29. How Granite Weathers Chemical weathering – the alteration of the internal structure of minerals by chemical reactions Potassium Feldspar + carbonic acid + water  Clay mineral + Potassium bicarbonate + Silica

  30. CHEMICAL WEATHERING HYDRATION • OCCURS WHEN Water combines with minerals – most often in granite (mica and feldspars) to form CLAY

  31. Chemical weathering

  32. CLIMATE CONTROLS WEATHERING • PHYSICAL WEATHERING: COLD AND MOIST ALTERNATE FREEZE / THAW • CHEMICAL WEATHERING: WARM AND MOIST IN BOTH CASES – WATER IS THE PRIMARY INGREDIENT THAT PROMOTES WEATHERING

  33. WHAT KIND OF CLIMATE SUPPORTS WEATHERING? HIGH PPT ↑ ↑ ↑ ↑ ↑ ↑ ↑ LOW PPT COLD→→→→→→→→→→ HOT

  34. Differential Weathering due to Climate and Composition • Masses of rock do not weather uniformly due to regional factors and composition. • Results in many unusual and spectacular rock formations and landforms

  35. Differential Weathering Rocks weather at different rates because of different mineral makeup, degree of jointing, and exposure to the elements. More resistant rock protrudes as ridges and pinnacles. Bryce National Park, Utah

  36. More resistant rock on top

  37. Rates of Weathering • Factors influencing weathering: • Mineral makeup Granite versus Marble

  38. WHICH LAYER IS MORE RESISTANT TO WEATHERING?LEAST RESISTANT? D A C B

  39. YOU MIGHT ALSO SEE IT LIKE THIS.

  40. WHICH DIAGRAM IS AN ARID CLIMATE? HUMID CLIMATE? A B Humid – more rounded Arid – more angular

  41. Chemical Rocks are broken down through chemical changes Common in warm, humid climates Example: Limestone highly affected by acids Mechanical Rocks are broken down through physical changes Common in harsher climates Example: water freezing in cracks expands and breaks rock apart Weathering Review

  42. WEATHERING SUMMARY • PHYSICAL WEATHERING – INCREASES SURFACE AREA - COLD/HUMID CLIMATE • CHEMICAL WEATHERING – WARM/HUMID CLIMATE • IN BOTH CASES, WATER IS THE PRIMARY INGREDIENT

  43. THE END PRODUCTS OF WEATHERING CALLED SEDIMENTS OR SOIL SOIL: a combination of sediment, rock minerals, and humus (organic material from biologic activity)

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