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Soil and Plant Growth

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Title: Soil and Plant Growth


1
Soil and Plant Growth
  • What is soil?
  • As a medium for plant growth, soil can be
    described as a complex natural material derived
    from disintegrated and decomposed rocks, and
    organic materials, which provides nutrients,
    moisture,and anchorage for land plants

2
Four principal components of soil
  • 1. 45 Minerals (clay, sand, or silt particles)
  • 2. 25 Air
  • 3. 25 Water
  • 4. 5 Organic matter (living dead)

3
How soils are formed?
  • This is a long term process that involves both
    physical chemical weathering, along with
    biological activity.
  • It can take 100 years to form 1 of topsoil

4
Characteristics involved in forming soil.
  • Parent Material material from which soils are
    formed.
  • Climate Temperature and moisture.
  • Living Organisms microscopic macroscopic
    plants and animals.
  • Topography shape position of the land
    surface.
  • Time period during which parent material has
    been subjected to soil formation.

5
Plants and Soil
  • Nutrients are released by decomposers
  • Productive soil is a dynamic process
  • Nutrient cycling is key to understanding

6
Soil profile
  • Organized into horizons
  • O-Organic ( A-Topsoil)
  • A-Topsoil
  • B-Subsoil
  • C-Parent material

7
Soil Texture
  • Clay is the smallest
  • Silt
  • Sand the largest
  • Loam a mixture

8
Spheroidal
  • Granular Crumb
  • (organic matter content is high)

9
Prism-Like
  • Prismatic Columnar
  • (found in subsoils and common in arid semiarid
    regions)

10
Plate-Like
  • Platy
  • (can occur in any part of the profile)

11
Block-Like
  • Blocky
  • (most common in subsoils, particularly those in
    humid regions)

12
others
  • Massive single grain

13
Soil structures influence?
  • Soil moisture relationship
  • Aeration
  • Heat transfer
  • Root growth

14
Soil Reaction (pH)
  • Soil reaction (acidic, neutral, alkaline) refers
    to the relative concentration of hydrogen ions
    (H) and hydroxyl ions (OH-) in the soil

15
Soil Plants
  • Nutrient-Holding Capacity
  • Water Holding Capacity (permeability)
  • Aeration ( porosity)
  • pH

16
pH
  • The acidity or alkalinity of the soil
  • pH is not a fixed characteristic of the soil and,
    depending on a number of conditions, varies over
    time.
  • Soils in climates with high rainfall humidity
    generally tend to be acid. (This is due to the
    leaching of base elements as well as by harvested
    crops usage of sodium, potassium, calcium,
    magnesium)
  • Soils in arid climates tend to be alkaline.

17
pH Range
  • 0 - 4.0 extremely acid
  • 4.1 5.0 strongly acid
  • 5.1 6.0 moderately acid
  • 6.1 6.9 slightly acid
  • 7.0 neutral
  • 7.1 8.0 slightly alkaline
  • 8.1 9.0 moderately alkaline
  • 9.1 10 .0 strongly alkaline
  • 10.1 14 extremely alkaline

18
pH Range
  • The pH for most agriculture soils lies between 5
    and 8.5

19
Changing the pH levelof an acid soil
  • 1. The pH of an acid soil can be increased by
    adding amendments or fertilizers containing such
    elements as
  • Calcium
  • Potassium
  • Sodium
  • Magnesium

20
Changing the pH levelof an acid soil
  • Calcium Carbonate (CaCO3)
  • Also known as agricultural lime
  • This is finely ground limestone
  • This is effective due to its ability to provide
    calcium (Ca) and hyfroxyl (OH-) ions

21
Changing the pH levelof an acid soil
  • The prolonged use of chemical fertilizers that
    are residually acid tend to make the soil acid.
    Examples are
  • Ammonium Sulfate (NH4)2SO4
  • Ammonium Nitrate (NH4NO3)
  • Ferrous Sulfate (FeSO4)

22
Changing the pH levelof an alkaline soil
  • Acid-forming chemicals such as
  • Ferrous Sulfate (FeSO4)
  • Calcium Sulfate (CaSO4) in some irrigation areas,
    a saturated solution of calcium sulfate is
    allowed to drip into the irrigation water or
    spread as a powder.
  • Elemental Sulfar (S) through the process of
    oxidation produces sulfuric acid (H2SO4) and
    acidify the soil

23
Changing the pH levelof an alkaline soil
  • The prolonged use of chemical fertilizers that
    are residually alkaline tend to make the soil
    more alkaline. Examples are
  • Sodium Nitrate (NaNO3)
  • Potassium Nitrate (KNO3)
  • Calcium Nitrate Ca(NO3)2
  • Calcium Carbonate (CaCO3)

24
pH and Plant Nutrients
  • The availability of certain plant nutrients is
    regulated by the acidity or alkalinity of the
    soil. Examples
  • Iron and Zinc become less available to plants as
    the pH increases
  • Phosphorus is more available at a soil pH of 6.5
    7 than at either higher or lower values.

25
pH and Plant Nutrients
  • Calcium availability decreases with increased
    acidity.

26
Cation Exchange Capacity
  • CEC is an important measure of the fertility and
    potential productivity of a soil
  • Clay and organic matter have a net negative
    charge which attract the positively charged
    cations. (se figure 1-9)
  • Ca, Mg K NH4 are plant nutrients
  • Na H effect soil chemical physical
    characteristics

27
Soil Organic Matter
  • Helps strengthen soil aggregates
  • Improves aeration and water infiltration
  • Increases water-holding capacity
  • Provides significant amounts of CEC
  • Provides buffering against rapid change in soil
    reaction acid 0r alkaline forming materials are
    added to soil

28
  • Form stable organic compounds that can increase
    the availability of micronutrients.
  • Provides a source of many plant nutrients.
  • Provides a food source for soil microorganisms.

29
Types of organic matter
  • Green manure crops
  • Crop residues
  • Animal manures
  • Compost
  • Look at Table 1-3

30
Soil Organisms
31
Soil Organisms
  • Micro flora
  • Bacteria
  • Fungi
  • Algae
  • You tell me what they do?

32
Soil Management
  • 1. Tillage (Primary Secondary)
  • 2. No-Till or Minimal till
  • 3. Conservation (National Resources Conservation
    Service NRCS 2 billion tons of topsoil lost per
    year)
  • Best Management Practices (BMP, crop, fertilizer,
    pesticide, water management)
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