Chapter 37 Plant Nutrition - PowerPoint PPT Presentation

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Chapter 37 Plant Nutrition

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Title: Chapter 37 Plant Nutrition


1
Chapter 37Plant Nutrition
2
Nutritional Requirements of Plants
  • Mineral nutrients- essential chemical elements
    absorbed from the soil in the form of inorganic
    ions. (i.e. nitrogen)

3
Essential Nutrients
  • Essential nutrient- chemical element that is
    required for a plant to grow and complete the
    life cycle. There are 17 elements that are
    essential to all plants.
  • Essential nutrients can be dividend into two
    categories, macronutrients and micronutrients.

4
Macronutrients
  • Macronutrients are elements required by plants in
    relatively large amounts. There are 9 total.
    They are Carbon, Oxygen, Hydrogen, Nitrogen,
    Sulfur, Phosphorus, Potassium, Calcium, and
    Magnesium.

5
Micronutrients
  • Micronutrients are elements a plant needs in
    very small amounts. They are Iron, Chlorine,
    Copper, Manganese, Zinc, Molybdenum, Boron, and
    Nickel.
  • These elements function in plants mainly as
    cofactors of enzymatic reactions. (i.e. Iron is a
    metallic component of cytochromes, the proteins
    that function in the electron transport chains).

6
Symptoms of Mineral Deficiency
  • A deficiency of magnesium, which is an ingredient
    in chlorophyll, causes the yellowing of the
    leaves, or chlorosis.
  • If nutrients move freely from one part of the
    plant to another, symptoms of deficiency will
    show up in the older parts.
  • If the nutrients do not move freely, they
    generally appear in the newer parts of the plant.

7
The Role of Soil in Plant Nutrition
  • Factors that will determine what types of plants
    can grow in the region
  • 1. Texture
  • 2. Composition
  • 3. Availability of soil water and nutrients
  • 4. Climate

8
Texture and Composition of Soil
  • Horizons are layers of soil that are often
    visible in vertical profiles.
  • Topsoil is a mixture of particles derived from
    rock, living organisms, and humus, a residue of
    partially decayed organic material.
  • The texture of the topsoil depends on the size of
    the particles, ranging from coarse sand to
    microscopic clay particles.
  • The most fertile soil is loams, made up of
    roughly equal amounts of sand, silt, and clay.

9
Availability of Soil Water and Nutrients
  • Water stays in smaller spaces in the soil because
    of its attraction for the soil particle which
    have electrically charged surfaces.
  • The minerals in the soil-especially the
    positively charged minerals, such as potassium,
    calcium, and magnesium-adhere by electrical
    attraction to the negatively charged surfaces.
  • Minerals that are negatively charged, such as
    nitrate, phosphate, and sulfate, are not bound as
    tight to the soil and are leached away more
    quickly.
  • Positively charged minerals are made more
    available when the hydrogen ions in the soil
    displace the mineral ions from the clay
    particles. This process, called cation exchange,
    is stimulated by the roots, which discrete the
    hydrogen.

10
The Availability of Soil Water and Materials
11
Soil Conservation
  • Agriculture uses up the nutrients in the soil. To
    preserve them, farmers must use a variety of
    techniques to increase the amount on minerals in
    the soil.
  • Farmers use fertilizers to enrich the soil.
    Fertilizers generally contain the three elements
    most commonly deficient in the soil, nitrogen,
    phosphorus, and potassium.
  • The numbers on fertilizer bags represent the
    percentage of these elements in the fertilizer.
    (I.e. a bag marked 10-12-8 has 10 nitrogen, 12
    phosphorous, and 8 potassium)
  • Farmers must also pay attention to the conditions
    of the soil to fertilize properly. A plant in a
    field with a pH of 8 can absorb calcium, but
    cannot absorb iron.

12
Soil Conservation
  • Irrigation is a problem for the soil. In an arid
    climate, irrigation can make the soil so salty
    that it becomes infertile. Eventually, salt left
    in the lowers the water potential of the soil,
    which causes the plant to lose water. Farmers
    now use drip irrigation and are trying to develop
    varieties of plants that require less water.
  • Topsoil is lost due to wind and water erosion.
    To stop this, farmers use trees as wind breakers,
    and terracing a hill side to prevent soil from
    washing away during a heavy rain.
  • The goal is sustainable agriculture, using
    farming methods that are environmentally safe and
    profitable.

13
Soil Bacteria Makes Nitrogen Available to Plants
  • 80 of the air is nitrogen, yet plants suffer
    from nitrogen deficiency because they are not
    able to absorb the N2.
  • For plants to absorb the nitrogen, it must be
    converted to ammonium or nitrate.
  • Nitrogen-fixing bacteria convert N2 to
    NH3(ammonia) through a metabolic process called
    nitrogen fixation.
  • N2 8e 8H 16 ATP --gt2 NH3 H2 16 ADP
    16P
  • Nitrogenase reduces N2 to NH3 by adding
    electrons with hydrogen ions. Nitrifying
    bacteria oxidize ammonium into NO3.

14
Nitrogen-Fixing Bacteria
15
Symbiotic Relationships
  • Legumes roots have swellings called nodules
    containing nitrogen-fixing bacteria of the genus
    Rhizobium. Legumes are peas, beans, soybeans,
    peanuts, clover, and alfalfa.
  • The nodules contain bacteroids, which have
    vessels formed by the root cell.
  • Farmers use plant rotation to replenish nitrogen.
    One year they plant a nonlegume plant, such as
    corn, and the next year, a legume. The legume
    plant is often mowed down and then allowed to
    decompose.

16
Soybean Root Nodule
17
Mycorrhizae
  • Mycorrhizae, fungus roots, are modified roots
    consisting of symbiotic associations of fungi and
    roots.
  • There are two main types of Mycorrhizae
    ectomycorrhizae and endomycorrhizae.
  • Ectomycorrhizae forms a dense mantle over the
    surface of a root, which increases the surface
    area for absorption.
  • Endomycorrhizae have hyphae, which extend into
    the root by digesting small patches of the cell
    wall. They have arbuscles, knotlike structures,
    where nutrients pass from fungi to plant.

18
Parasitic and Carnivorous Plants
  • Some plants get their nutrition by using
    projections called haustoria to siphon xylem sap
    from the host tree. Mistletoe, dodder, and
    Indian pipe are parasitic.
  • Carnivorous plants make their carbohydrates by
    photosynthesis, but get their nutrients by
    killing and digesting insects. This includes the
    Venus Flytrap and Pitcher plants.
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