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Vascular cylinder

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Roots cut off under water in an actively transpiring plant ... Encourages blooming and root growth. Comes from fertilizer, bone meal, and superphosphate. ... – PowerPoint PPT presentation

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Title: Vascular cylinder


1
Vascular cylinder
cortex
xylem
phloem
endodermis
pericycle
2
Pathway of water movement
  • The endodermis regulates what ions enter the
    vascular tissues

3
Water movement
  • Water movement into the tissues of the plant
    follows the water potential gradient

4
Absorption lag
  • Caused by resistance in the water path in the
    root (water must pass through endodermis)
  • Roots cut off under water in an actively
    transpiring plant increases xylem absorption.
  • Lag can cause mid-day closure of stomata until
    absorption rate catches up

5
Root pressure
  • Minerals actively pumped into the xylem lower
    water concentration
  • Water diffuses into the xylem causing a pressure
    to build since the cells can not expand
  • Water is forced up the xylem

6
Leaf guttation
  • Root pressure can cause guttation of water from
    the leaf, especially in small plants

7
Nutrients
  • Negative charges are found on clay and humus
    particles and to a lesser extent on silt
    particles
  • Ions (K,Ca, Mg, etc.) are attracted to the
    negative charges and therefore next to the
    particle.

K
Ca
8
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9
Cation Exchange
  • Mineral element - sand, silt and clay
  • Reverse of Coloumbs law because of hydration
  • F k (ea eb)/d2 d rarb e
    charge r radius of particle
  • HgtCagtMggtKgtNa
  • Oscillations (brownian movement) and the exchange
    process
  • H is the best for exchange, since it is held the
    tightest. The is the ion that plants give off
    (from COOH)
  • Contact exchange - with pectic substances

10
Epidermal cells - root hairs
  • H ions released to the soil solution exchange
    with other ions near soil particles

11
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12
Humus Content
  • Also holds cations
  • higher capacity than clay
  • COOH groups on surfaces
  • Can aid in liberating elements from mineral bases
  • puts K in an exchangeable form
  • Friability of the soil
  • N content

13
Plant Nutrients
  • Macronutrients
  • C H O N P K Mg Ca S
  • Micronutrients
  • Fe, Mn, B, Cu, Zn, Cl, Mo
  • C H O P K N S CaFe Mg B Mn CuZn Cl Mo
  • C H O come from the atmosphere as does S in
    some cases.
  • Others are from soil solution

14
Availability and Growth
15
Nitrogen
  • Necessary part of proteins, enzymes and metabolic
    processes involved in the synthesis and transfer
    of energy.
  • Part of chlorophyll
  • Helps with rapid growth, increasing seed and
    fruit production
  • Improves the quality of leaf and forage crops. 
  • Comes from decomposition, fertilizer application,
    and from the air
  • (legumes get their N from the atmosphere, water
    or rainfall contributes very little nitrogen)

16
Phosphorus
  • Essential part of photosynthesis process. 
  • Involved in the formation of all oils, sugars,
    starches, etc.
  • Helps with proper plant maturation withstanding
    stress.
  • Effects rapid growth.
  • Encourages blooming and root growth.
  • Comes from fertilizer, bone meal, and
    superphosphate. 

17
Phosphorus Availability
18
Potassium
  • Absorbed by plants in larger amounts than any
    other mineral element except nitrogen and, in
    some cases, calcium. 
  • Building of protein, photosynthesis, starch
    formation, fruit quality and reduction of
    diseases.
  • Osmosis, stomatal opening, ionic balance
  • Not part of plant structure
  • Supplied to plants by soil minerals, organic
    materials, and fertilizer.

19
Potassium Availability
20
Calcium
  • An essential part of plant cell wall structure,
    thus for growth.
  • Affects membrane permeability
  • Provides for normal transport and retention of
    other elements as well as strength in the plant.
     
  • Sources are dolomitic lime, gypsum, and
    superphosphate.

21
Magnesium
  • Part of chlorophyll molecule
  • Helps activate many plant enzymes needed for
    growth.
  • Soil minerals, organic material, fertilizers, and
    dolomitic limestone are sources

22
Sulfur
  • Essential for production of protein.
  • Promotes activity and development of enzymes and
    vitamins.
  • Helps in chlorophyll formation.
  • Improves root growth and seed production.
  • Helps with vigorous plant growth and resistance
    to cold.
  • Supplied to soil from rainwater. It is also added
    in some fertilizers as an impurity, especially
    the lower grade fertilizers. The use of gypsum
    also increases soil sulfur levels. 

23
Micronutrients
  • Mostly involved as parts of enzymes
  • Many are involved in photosynthesis and
    respiration
  • Boron affects membrane transport and Ca use

24
Nutrient Deficiencies
  • Deficiency is determined by function of nutrient
  • Location is determined by mobility of nutrient
  • Easily mobile nutrients, such as magnesium, move
    through phloem source-to-sink translocation to
    younger tissues
  • older tissues demonstrate deficiency first
  • Relatively immobile nutrients, such as iron, do
    not move
  • younger tissues demonstrate deficiency first

25
Nitrogen Deficiency
  • Light green to yellow appearance of leaves
  • Older leaves first
  • Reddening in severe cases
  • Stunted growth
  • Poor fruit development

26
Supply can make a difference!
27
Phosphorus Deficiency
  • Dark green foliage turning to reddish in portions
  • Fruit and seed yield reduced or stopped
  • Drought, disease, and insect susceptibility

28
Potassium Deficiency
  • Older leaves yellow initially around margins and
    die
  • Irregular fruit development
  • Variability depending on crop

29
Sulfur Deficiency
  • Yellowing of leaves
  • Occurs on young leaves first
  • Sometimes vein area are lighter green than area
    between veins

30
Magnesium Deficiency
  • Yellowing between leaf veins
  • Older leaves first
  • Poor fruit development and production

31
Iron Deficiency
  • Yellowing between veins
  • Young leaves first
  • Eventually spots of dead tissue

32
Calcium Deficiency
  • Reduced growth
  • Death of growing tips
  • Blossom-end rot of tomato
  • Poor fruit development and production

Cucumber
Lettuce
33
Nutrient deficiency symptoms
S
N
K
P
Ca
Micro
Fe
Mg
  • Tomato plants grown hydroponically

34
Organic vs. processed fertilizers
  • Organic
  • Little or no processing
  • Low analysis
  • Usually slow release
  • Often unknown analysis
  • Usually a source of OM
  • Processed
  • Industrial processing
  • High analysis
  • Usually fast release
  • Known analysis
  • No Organic matter

35
Nutrient ratios
  • The level of one nutrient affects the critical
    level of another.
  • Abundance of one element can hinder the uptake of
    another
  • Liebigs Law of the minimum
  • There are problems with this concept

36
Natural sources
  • Organic
  • Manure
  • Wood ashes
  • Bone meal
  • Biosolids
  • Blood meal
  • Others
  • Processed
  • N - air
  • P - minerals
  • K - salts

37
CarbonNitrogen (CN) ratio
  • Ranges from lt 51 to gt 5001 in organic materials
  • Low CN materials supply N to plants
  • High CN materials tie up N by biological
    immobilization

38
Biological Release (Mineralization)
  • N content and CN ratio
  • Degree of decomposition (stability)
  • Examples of available N
  • Poultry manure - 40-70
  • Stable compost - 0 -10
  • Humus - 1-4
  • Sawdust - negative

39
Organic Materials - N availability
  • Low CN ratio rich in N
  • Use in small amounts as a fertilizer.
  • Example undiluted manure or biosolids
  • Medium CN slow release of N
  • Use in larger amounts to replenish soil organic
    matter.
  • Example compost, leaf mulch
  • High CN reduce available N levels in soil
    (immobilization).
  • Use as mulch.
  • Example sawdust, straw

40
Soil Tests
  • What a Soil Test Tells You
  • Relative levels of nutrients in your soil
  • Fertilizer recommendation
  • Standard soil test P, K, Ca, Mg, B, pH, lime
  • No good soil test exists for nitrogen requirement

41
Taking a Sample
  • Sample defined area
  • Take 10 or more subsamples (0-6 deep)
  • Dry and mix well
  • Subsample mixture and fill sample bag

42
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43
N fixing nodules
Rhizobium nodules
Actinomycete on Alnus
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