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Soil--Lithosphere. Mrs. B-Z. Soil--definition. Complex mixture of eroded rock, mineral nutrients, decaying organic matter, water, air, and billions of living organisms. Indirect resources from soil. Provides us with wood, paper, fiber, and medicines. Direct benefits of soil. Purifies water
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Soil--Lithosphere Mrs. B-Z
Soil--definition • Complex mixture of eroded rock, mineral nutrients, decaying organic matter, water, air, and billions of living organisms
Indirect resources from soil • Provides us with wood, paper, fiber, and medicines
Direct benefits of soil • Purifies water • Decomposes biodegradable waste
We Study Soil Because It’s A(n) Great integrator Medium of crop production Snapshot of geologic, climatic, biological, and human history Producer and absorber of gases (CO2 and others) Waste decomposer Medium for plant growth Source material for construction, medicine, art, etc. Medium of heat and water storage Filter of water and wastes Home to organisms (plants, animals and others) Essential natural resource
Hydrologic Cycle and the Soil Soil Properties that are part of the hydrologic cycle. Color Moisture Temperature Structure pH Texture Horizon Depths Bulk Density
Soil Forming Factors Biota Parent Material Topography Climate (The first four factors over) Time These five factors work together to create a unique soil profile made of layers called horizons.
Soil Characterization • Ways to Describe soil: • Zones or Layers of Soil • Material contained in Soil • Soil Texture • Soil Structure • Soil Color • Soil Permeability • Soil pH
Soil horizons • Zones of mature soil • layers
Finding and Describing Horizons Soil Pit Technique First, obtain permission to dig a pit. Obey any and all safety precautions requested, and ask about power and water lines. Arid climate soil in New Mexico, USA Forest soil in Florida, USA
Soil profile • Cross sectional view of the horizons
Soil Profile Comparison Forest soil in Florida, USA Forest soil in Tallinn, Estonia Soil profiles in different geographic regions will be similar if the five soil forming factors act on those soils in the same way.
Humus • Partially decomposed matter found in top soil • Organic layer
A horizon • Top-most layer • Top soil
B-horizon • Subsoil • Soil’s inorganic material broken down • Clay, sand, silt, and gravel
C horizon • Parent material • Usually bedrock or some type of rock
Soil texture • Determined by different sizes and types of minerals
Horizon Properties Soil Texture (continued) To Determine Soil Texture
loams • Soils with roughly equal amount of clay, sand, silt, and humus
Horizon Properties Soil Texture (continued) To Determine Soil Texture
Soil structure • How particles are organized and clumped together
Horizon Properties Soil Structure With Structure Granular Blocky Columnar Prismatic Platy
Horizon Properties Soil Structure (continued) Without Structure Single Grained Massive See hands for relative size Pencil is 19 cm
Soil porosity • Measure of the volume of pores or spaces per volume of soil and average difference between spaces
Soil permeability • Average size of spaces or pores
Horizon Properties Soil Color Munsell Notation Hue Value Chroma
Horizon Properties Soil Color (continued) 1 3 2 4
Horizon Properties Soil Consistence Loose* Friable * Soils with “single grained” structure always have loose consistence. Firm Extremely Firm
coin Clay (feels sticky) Horizon Properties Soil Texture Relative Size Comparison of Soil Particles barrel plate Silt (feels floury) (< 0.002 mm, USDA) (< 0.002 mm, ISSS) (0.05 - 0.002 mm, USDA) (0.02 - 0.002 mm, ISSS) Sand (feels gritty) (2.00 - 0.05 mm, USDA) (2.00 - 0.02 mm, ISSS)
Horizon Properties Test For Free Carbonates This is strong effervescence.
Infiltration • Downward movement of water through soil
leaching • Water dissolves materials in the upper layers and the solution is carried to the lower areas
pH • Acidity or alkalinity in water solutions
Environmental Problems with Soil Soil Erosion Famine/Hunger
Soil erosion • Movement of soil components especially surface litter and top soil • Caused by • Water • Wind • How much soil is there? http://soil.gsfc.nasa.gov/app_soil/hmsoil.htm
Problems with erosion • Feed millions more people with billions metric TONS less of top soil each year • 75 billion metric tons of soil erodes every year • How long does it take for one inch of top soil to form? • http://soil.gsfc.nasa.gov/inch/soiltime.htm
Soil Conservation • Reducing erosion • Restoring fertility
Conservation-tillage farming • Disturbing the soil as little as possible when planting • This holds in more moisture as well.
Contour Farming • Planting crops in rows according to the contour of the land
Strip Cropping • Alternating a crop that needs to be in rows (like corn) with one that does not (like grass).
Windbreaks • Long rows of trees are planted to partially block the wind from eroding the soil
Alley Cropping • Several crops are planted in strips or alleys between trees or shrubs (wind breaks).
Restoring Fertility • Organic Fertilizer—from plant and animal materials • Commercial Fertilizer—produced from minerals
Crop Rotation • Corn, tobacco, and cotton deplete soil nutrients so farmers rotate these from growing in the same plot of land two seasons in a row. The next season a legume will be planted instead like barley, rye, or soybeans.
How is food produced • Industrial Agriculture—uses large amounts of fossil fuels, water, commercial fertilizers and pesticides
How is food produced • Plantations—industrialized in tropical, developing countries (coffee & bananas)
How is food produced • Traditional—enough for yourself and your dependents • More human labor
Green Vegetation • More energy is given off than was used to produce it
Livestock • Three units of energy put into every unit of energy produced.
World Food • Under-nutrition—enough food to survive but not the right food groups • Malnutrition—not enough food to survive