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Chapter 15 Soil Resources

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Title: Chapter 15 Soil Resources


1
Chapter 15Soil Resources
2
Overview of Chapter 15
  • What is soil?
  • Soil Properties
  • Major Soil Orders
  • Soil Problems
  • Soil Conservation
  • Soil Reclamation

3
Soil
  • Uppermost layer of earths crust that supports
    plants, animals and microbes
  • Soil Forming Factors
  • Parent Material
  • Time
  • Climate
  • Organisms
  • Topography

4
Soil Composition
  • Mineral Particles (45)
  • Weathered rock
  • Provides essential nutrients for plants
  • Organic Material (5)
  • Litter, animal dung, dead remains of plants and
    animals, humus
  • Water (25)
  • Air (25)
  • Where is the water and air located?

5
Soil Composition
  • In the PORE SPACES
  • pore space 50 of soil
  • Soil air-
  • good for aeration so soil isnt too compacted
  • provides space for water to occupy and flow
  • Soil water- provides water to roots

6
Soil Horizons
  • O-horizon
  • organic material
  • A-horizon
  • Topsoil
  • the Delicious Dirt
  • B-horizon
  • Lighter colored subsoil rich in clay compacted
  • the Lousy Dirt
  • C-horizon
  • Weathered parent material rocky
  • Bedrock
  • Solid, fractured rock

7
Soil Organisms
  • There are millions of microorganisms in 1 tsp of
    fertile agricultural soil

8
Soil Organisms
  • Ecosystem Services provided by Soil Organisms
  • decomposing organic material
  • cycling of nutrients
  • breaking down toxic materials
  • preventing soil erosion
  • cleansing water
  • soil aeration (especially done by earthworms
    tunneling around)

9
Nutrient Cycling
  • Nutrients are cycled between plants, organisms
    and soil
  • Example
  • Bacteria and fungi decompose plant and animal
    wastes
  • They are transformed into CO2, soil nutrients and
    water

10
Soil Properties
  • Soil Texture
  • Relative proportion of sand, silt and clay
  • Sand 2mm-0.05mm
  • Silt 0.05mm-0.002mm
  • Clay gt0.002mm
  • MUST know these in order (either way)
  • No need to know dimensions

11
Soil Properties
  • Soil texture affects soil properties
  • Coarse textured soil (sandy)
  • Will not hold water well- flows through easily
  • Fine textured soil (high in clay)
  • Poor drainage
  • Low oxygen levels in soil
  • Due to negatively charged surface, able to hold
    onto important plant nutrients (K, Ca2, NO2-)

12
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13
Soil Properties
14
Preparation Procedure for Soil Nutrient Test
  • Obtain a covered plastic jar (green cover)
  • Use tape to label it with your names
  • Make a mixture of 5 parts water to 1 part soil
  • Record how you accomplished this
  • Cover and shake to mix
  • Put aside and allow to settle

15
Stop Here
16
Soil Properties
  • Soil Acidity
  • Measured using pH scale
  • 0-7 acidic
  • 7 neutral
  • 7-14 basic
  • pH of most soils range from 4-8
  • Affects solubility of certain plant nutrients
  • Low pH mobilizes heavy metals in soils
  • Examples of heavy metals?
  • Mercury Lead
  • Optimum soil pH is 6-7
  • pH where plant nutrients are most available to
    plants
  • Soil amendments (ex lime) can be used to achieve
    this pH

17
Major Soil Groups
  • Variations in soil forming factors cause
    variation in soils around globe
  • What are some soil forming factors?
  • Parent Material
  • Time
  • Climate
  • Organisms
  • Topography

18
Major Soil Groups
  • Soil Taxonomy
  • Separates soils into 12 orders
  • Subdivided into more than 19,000 soil series that
    vary by locality
  • Five common soil orders
  • Spodosols, alfisols, mollisols, aridosols, oxisols

19
Major Soil Groups
  • Spodosols
  • Form under coniferous forests
  • O-horizon composed of needles
  • E-horizon is ash-gray under A-horizon
  • Not good farmland- too acidic

20
Major Soil Groups
  • Alfisols
  • Brown to gray-brown A-horizon
  • Precipitation high enough to leach most organics
    and nutrients out of O-, A- and B-horizons
  • Soil fertility maintained by leaf litter

21
Major Soil Groups
  • Mollisols
  • Found in temperate, semi-arid grassland
  • Very fertile soil
  • Thick, dark brown/ black A-horizon
  • Soluble nutrients stay in A-horizon due to low
    leaching

22
Major Soil Groups
  • Aridosols
  • Found in arid regions of all continents
  • Low precipitation preclude leaching and growth of
    lush vegetation
  • Development of salic horizon possible

23
Major Soil Groups
  • Oxisols
  • Found in tropical and subtropical areas with high
    precipitation
  • Very little organic material accumulation due to
    fast decay rate
  • B-horizon is highly leached and nutrient poor

24
Soil Problems
  • Soil Erosion
  • Def removal of soil from the land
  • Caused primarily by water and wind
  • Why a problem?
  • Causes a loss in soil fertility as organic
    material and nutrients are eroded
  • More fertilizers must be used to replace
    nutrients lost to erosion
  • Accelerated by poor soil management practices

25
Case in Point American Dust Bowl
  • Great Plains have low precipitation and subject
    to drought
  • 1930-1937 severe drought
  • No natural vegetation roots to hold soil in place
  • Replaced by annual crops
  • Winds blew soil as far east as NYC and DC.
  • Farmers went bankrupt

26
Soil Problems
  • Nutrient Mineral Depletion
  • Def removal of nutrient minerals from the
    cycling of material within soil
  • Nutrient Cycling (without interference)
  • When organisms die and microorganisms decompose
    them, the essential nutrient minerals are
    released into the soil
  • Vegetation absorbs nutrient minerals

27
Soil Problems
  • Nutrient Mineral Depletion
  • Nutrient Mineral Depletion (with interference)
  • Nutrient minerals are lost from cycle
  • overgrazing or deforestation lack of
    decomposing vegetation which release nutrients
  • agriculture nutrients absorbed by plants,
    plants harvested, material not allowed to
    decompose in place
  • nutrients taken away from cycle
  • must add nutrients in form of fertilizer to
    replenish soil
  • naturally occurring ex nutrient-poor soil in
    tropical rainforests due to nutrient minerals
    being stored primarily in vegetation
  • efficient nutrient cycling is disrupted

28
Soil Problems
  • Nutrient Mineral Depletion

29
Soil Problems
  • Soil Salinization
  • Def gradual accumulation of salt in the soil,
    usually due to improper irrigation techniques
  • Often in arid and semi-arid areas
  • The little precipitation that falls is quickly
    evaporated
  • Leaves behind the salts
  • Salt concentrations get to levels toxic to plants

30
Soil Problems
  • Desertification
  • Def degradation of once-fertile rangeland,
    agricultural land, or tropical dry forest into
    nonproductive desert
  • Typically a human-induced condition
  • Change in vegetation changes climate, further
    decreasing precipitation levels

31
Soil Conservation
  • Conservation Tillage
  • Residues from previous years crops are left in
    place to prevent soil erosion
  • Includes no tillage
  • Crop Rotation
  • Planting a series of different crops in the same
    field over a period of years
  • Lessens pest and insect disease

32
Soil Conservation
Strip Cropping
  • Contour Plowing
  • Plowing around hill instead of up-down
  • Decreases soil erosion
  • Strip Cropping
  • Alternating strips of different crops along
    natural contours
  • Reduces amount of uncovered soil decreases soil
    erosion
  • Terracing
  • Creating terraces on steep slopes to prevent
    erosion

Terracing
33
Preserving Soil Fertility
  • Organic fertilizers
  • Animal manure, crop residue, bone meal and
    compost
  • Nutrient available to plants only as material
    decomposes
  • Slow acting and long lasting
  • Inorganic Chemical fertilizers
  • Manufactured from chemical compounds
  • Soluble
  • Fast acting, short lasting
  • Environmentally sound to limit use
  • Mobile- easily leach and pollute groundwater

34
Difference between Mulch and Compost
  • Mulch is placed on top of the soil to prevent
    soil erosion, retain moisture and reduce weeds
    (which compete with crop plants for nutrients and
    water).
  • Compost is mixed in to the soil to prevent
    nutrient mineral depletion soil fertility is
    improved as compost decomposes and releases
    nutrients.

35
Soil Reclamation
  • Two steps
  • Stabilize land to prevent further erosion
  • Restore soil to former fertility
  • Best way to do this is shelterbelts
  • Row of trees planted to reduce wind erosion of
    soil
  • Also good conservation method

36
Soil Conservation Policies in US
  • Soil Conservation Act 1935
  • Authorized formation of Soil Conservation
    Service, now called Natural Resource Conservation
    Service (NRCS)
  • Assess soil damage and develop policies to
    improve soil
  • Food Security Act (Farm Bill) 1985
  • Required farmers with highly erodible soil had to
    change their farming practices
  • Instituted Conservation Reserve Program
  • Pays farmers to stop farming highly erodible land
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