Embed Size (px)
Citation preview
1
WEATHERING, EROSION AND SOIL
2
WEATHERING
3
MECHANICAL WEATHERING
Temperature Freezing temperature causes the expansion of the
molecules of substances - water expands as it freezes
Cracks in concrete, wood, etc. fills with water. Water freezes and expands, causing splitting and breaking apart - frost wedging, ex. pot holes.
Pressure - factor of mechanical weathering. Bedrock at great depth are under pressure as over lying rock is stripped away. The bedrock at depth is exposed. Then the bedrock can expand and cracks will occur.
Exfoliation - stripping of layers of rock - create a dome formation, ex. Stone mountain in Georgia
4
EXFOLIATION Stripping of layers of rock Creates a dome formation Ex, Stone Mountain in Georgia Half Dome Yosemite Valley California
5
CHEMICAL WEATHERING
Rocks change composition as the result of chemical reactions. Agents - H2O,
O2, CO2, and acids. Temperature tends to speed up and slow down chemical reactions
*Rate of chemical Rx (reactions) doubles with each 10°C increase
6
CHEMICAL WEATHERING
7
WATER Universal solvent, hydrolysis - reaction of H2O and other
substances Oxygen - oxidation Substance + O2 new substance Fe (Iron) + O2 (Oxygen) Fe2O3 (Rust) Al (Aluminum) + O2 Al2O3 (Aluminum
Oxide) 21% of oxygen is in atmosphere Minerals - result of oxidation, Ex. Pyrite,
magnetite CO2 - produced through respiration CO2 + H2O H2CO3 (Carbonic Acid, weak acid
form in the atmosphere Carbonic acid reacts with calcite forms
(limestone caverns)
8
ACID PRECIPITATIONAcid Precipitation - Oxidation of sulfur dioxide and nitrogen oxide - that is released by human activitiesSO2 Industrial emissionsNO2 Motor VehiclesSO2 + O2 + H2O Sulfuric acidNO2 + O2 + H2O Nitric acid Acid Rain - PH = less than 5.6Normal Rain - PH = 5.6 Water in lake - 6 to 8 PH Lower PH kill fish To reverse acidificationAcid Ca(OH)2 to the area - Calcium Hydroxide
9
10
11
12
EFFECTS OF ACID RAIN ON PLANTS
13
WHAT EFFECTS THE RATE OF WEATHERING?
2000 years to weathering/centimeter of limestone Climate - major influence on chemical weathering variables: precipitation temperature evaporation Interactions of temperature and precipitation has the greatest
effect. Chemical weathering predominates in climate with warm temperature, abundant rainfall and lush vegetation.
H2O + CO2 H2CO3 (Carbonic acid - accelerates chemical weathering
Location: Central America, S.E. Asia
14
WEATHERING Physical Weathering - dominates cool, dry climates where H2O
undergoes repeated freezing and thawing. Extremely cold climates has no chemical weathering
Rock Type and Composition - Characteristics of rocks - hardness and
resistance to breakdown is dependent on the type and composition of the rock.
Easy - Sedimentary - easy to break Igneous Metamorphic - hardest Mechanical Weathering - breaking rocks in small pieces - increases
surface area Topography - flat level area - rocks remain in place and undergo
changes Hilly area - rocks suffer greater erosion through mass movement
15
MOVEMENT
Erosion - movement of material Deposition - materials that are dropped in an area after
movement Gravity - associated with erosion - pull materials
downward “Agent of Mass Movement” (landslides, mudflows,
avalanches) Running water - greatest erosional agent, stronger than
wind, carries more material a greater distance
16
GULLY EROSION IN A PASTURE RUNNING WATER THAT BECOMES DEEP AND WIDE (3 METERS)
17
RILL EROSION- RUNNING WATER IN SMALL CHANNELS ON SLOPES
18
COASTAL DEPOSITION AND EROSION
Mississippi carries 750 million metric tones of material— deposited into the Gulf of Mexico - forms the delta.
Volume of river flow and the action of tides determine
the shape of delta. Ocean currents and tides carve out cliffs, arches and other features. Sand particles accumulate on shorelines and form dunes and beaches
Sand bars - accumulation of sand underwater create a barrier island - location: lakes, Gulf of Atlantic Coast
19
LANDFORM DEPOSITION
20
SAND BAR
21
AMAZON DELTA
22
GLACIAL EROSION
Glaciers cover 10% of the earth. Erosion is large scale and dramatic.
Landscape features - waterfalls, lakes, Ex. Great Lakes, finger lakes (New York)
23
LEARN ABOUT GLACIERS
http://video.search.yahoo.com/video/play;_ylt=A0S00MufIgRRAFcA7o77w8QF;_ylu=X3oDMTBvMGQzcTByBHNlYwNzcgRzbGsDdmlkBHZ0aWQDVjEzMg--?p=Glaciers&vid=44a347f060ab09ddfddd2ffdad4d5c0a&l=&turl=http%3A%2F%2Fts1.mm.bing.net%2Fth%3Fid%3DV.4988343346200648%26pid%3D15.1&rurl=http%3A%2F%2Fwww.5min.com%2FVideo%2FLearn-About-Glaciers-304218898&tit=Learn+About+Glaciers&c=1&sigr=11ouvmua1&fr=yfp-t-701&tt=b
24
GLACIER NATIONAL PARK
http://video.search.yahoo.com/video/play;_ylt=A0S00MtABAhRWSIAbQn7w8QF;_ylu=X3oDMTBvMGQzcTByBHNlYwNzcgRzbGsDdmlkBHZ0aWQDVjEzMg--?p=glaciers+form+montana&vid=cfe70ffb5200cdcf7a3802ef57cfef0d&l=&turl=http%3A%2F%2Fts3.mm.bing.net%2Fth%3Fid%3DV.4614243116187834%26pid%3D15.1&rurl=http%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DBMslDdswGB0&tit=Canadian+Rockies+and+Glacier+National+Park+2012&c=9&sigr=11ajreimc&fr=yfp-t-701&tt=b
25
26
FINGER LAKES NEW YORK
27
WIND EROSION
Areas of limited precipitation and high temperature, Ex. Death Valley
28
WIND EROSION
29
AFTER THE WINDS SUBSIDE
30
FARMING METHODS
Stops erosion, conserve moisture, trap blowing snow and protect crops -
wind barriers ( wind breakers - thick line of trees)
Planting methods Plowing methods
31
32
COMBINE DIFFERENT CROPS
33
PLANTING CROPS PERPENDICULAR ON A HILL
34
NO TILL FARMING
35
36
STRIP FARMING
37
DUST BOWL PREVENTION
38
FORMATION OF SOIL
Development of Soil - Soil looses covering of broken rock particles and decaying organic matter called humus. Overlays the bedrock.
Result of chemical and mechanical weathering and also biological activity.
39
SOIL Soil composition - Soil forms layers. Pieces of rock are broken off
from the parent rock. Soil is located above it’s parent rock. H2O sinks down carrying minerals and nutrients through the layer of the
soil. Parent rock determines the kinds of minerals, proportion of mineral in soil. Length of formation time depends on the type of rock and climate conditions
Soil profile - vertical segments of soil layers - well developed soil -
distinct layer 3 main horizons: A - organic/humus - gradual to black color B - poorer developed - rich in clay minerals, forms hardpan layers of soil. Red or brown (iron oxide) C - Directly above bed rock, most weathered parent material
40
SOIL HORIZONS
41
42
43
TOPOGRAPHY Affects the thickness of developing soil. Sloped areas cause particles, little particles
are washed away. Soil then, is infertile. South facing slope has more direct sunlight / more vegetation, thick soil.
*Valley - soil thick and rich. Vegetation contributes to the buildup of humus and supplies acids to promote the weathering process.
Soil Types - Appearance, rate of formation
and productivity is determined by climate
44
SOIL
Soil varies because of different parent rocks and undergo different climate conditions.
Types of plants: animals that live there: topography: length of time the soil has been forming.
Soils are classified based on climate conditions.
45
FOUR TYPES OF SOIL
1 polar 2 temperate 3 desert 4 tropical
46
POLAR SOIL
47
TEMPERATE SOIL
Supports diverse environments, annual rainfall 50-60 cm, grasslands - abundance of humus, forest - aluminum rich clays
Western U.S. rainfall less than 50-60 cm, support grasses and bushes
48
TEMPERATE SOIL SANTA CLARA CA
49
DESERT SOIL
Low level precipitation - Less than 25 cm of rainfall per year -
High level of salts - supports limited vegetation - light in color— composed of salts and gypsum
50
DESERT SOIL
51
TROPICAL SOIL- REDDISH IN COLLOR
52
COMPARISON OF SOIL PROFILE AND CLIMATE
53
PHYSICAL PROPERTIES OF SOIL
54
55
SOIL FERTILITYSoil Fertility - measure how well a soil can support the growth of plants. Factors affect it1) availability of nutrients and minerals2) Number of microorganisms present3) Amount of precipitation4) Topography5) Level of acidityNatural/commercially produce. Fertilizers are added to replace minerals. Add nitrates, phosphates, and phosphorus to the soil. Limestone (pulverized) added to soil to reduce acidity and influence crop growth
