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What are Mycorrhizal Fungi?

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What are Mycorrhizal Fungi? Mark Howieson Product Development Specialist Becker Underwood, Inc. Discussion Points Introduction to mycorrhizae Reasons to inoculate ... – PowerPoint PPT presentation

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Title: What are Mycorrhizal Fungi?


1
What are Mycorrhizal Fungi?
  • Mark Howieson
  • Product Development Specialist
  • Becker Underwood, Inc.

2
Discussion Points
  • Introduction to mycorrhizae
  • Reasons to inoculate
  • Benefits of mycorrhizal fungi inoculation
  • Mycorrhizae products available from Becker
    Underwood

3
What are Mycorrhizae?
  • A mutually beneficial association between a
    fungus and a plant
  • Fungus colonizes root of host plant
  • Plant provides fungus with food in return for
    increased nutrient absorption from soil
  • Greek origin meaning fungus root

4
Common Occurrence
  • Most common association between microorganisms
    and higher plants
  • Early fossilized plants were mycorrhizal
  • 95 of all plant families are mycorrhizal

5
Christine Engelbrecht
6
Enhance Nutrient and Water Uptake
  • Increases soil volume accessible to plants
  • Improved absorption of immobile soil nutrients
  • Greater efficiency of water uptake
  • Facilitates uptake from nutrient pools not
    normally available to plants
  • Phosphorus often is in forms not readily absorbed
    by plant roots

7
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8
Types of Mycorrhizae
  • Endomycorrhizae
  • Most common with herbaceous plants but also
    associated with some woody plants
  • Ectomycorrhizae
  • Occur mainly on roots of woody plants

9
Endomycorrhizae
  • Also known as vesicular-arbuscular mycorrhiza
  • Develop arbuscules and vesicles within root
    cortical cells
  • Arbuscules are where carbohydrates and nutrients
    are exchanged
  • Vesicles are used as storage organs
  • Common in herbaceous plants
  • Form associations with maple, sycamore, ash, gum,
    walnut, cypress, and poplar among others

10
Mark Brundrett
11
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12
Ectomycorrhizae
  • Fungi grow between root cortical cells
  • Form a mantle that covers the root surface
  • Roots develop a swollen appearance
  • Mantle acts as a barrier to pathogens
  • May develop above-ground fruiting bodies
  • Mushrooms and puffballs
  • Common in pine, spruce, fir, beech, eucalyptus,
    alder, oak, and hickory

13
Mark Brundrett
14
Mark Brundrett
15
Reasons to Inoculate
  • Mycorrhizal fungi are present in almost all soils
  • Intensive management practices limit viability
    and infectivity of native mycorrhizal fungi
  • Excessive applications of chemical fertilizers
    and pesticides

16
Fungicides and Mycorrhizal Fungi
  • Label usage rates and application methods
    (spray/injection) normally has no effect on
    mycorrhizal fungi
  • Metabolized by soil microbes
  • Drenches/Soil Injection may have detrimental
    effects
  • General rule avoid use of fungicides 2 - 3 weeks
    before and after inoculation

17
Reasons to Inoculate
  • Severe soil disturbances like erosion, tillage,
    compaction
  • Often absent in sterilized or soil-less potting
    media
  • Non-native transplants grown in soil and
    climactic conditions different from the areas
    where they are planted
  • Plants established in areas prone to
    environmental stresses

18
Benefits of Mycorrhizae Inoculation
  • Improves establishment rates
  • Enhances phosphorus acquisition
  • Increases solubility of normally unavailable
    forms of phosphorus

19
Benefits of Mycorrhizae Inoculation
  • Enhances drought tolerance
  • Mycorrhizae improves water uptake efficiency
  • Increases below ground surface area for water
    absorption

20
Benefits of Mycorrhizae Inoculation
  • Decreases transplant shock and increases survival
    and growth in the field
  • Transplant success depends on how quickly a plant
    can reestablish its root system
  • Mycorrhizal fungi rapidly develop below ground
    surface area for nutrient and water uptake

21
Rhizanova Tree Injectable
  • Ideal for newly planted or young non-coniferous
    trees
  • Contains a blend of endo- and ectomycorrhizal
    fungi combined with humic substances
  • Applied with professional soil injection
    equipment

22
Rhizanova Pt Tree Injectable
  • Beneficial for newly planted or young coniferous
    trees
  • Blend of multiple strains of ectomycorrhizal
    fungi combined with humic substances
  • Applied with professional soil injection
    equipment

23
Rhizanova Tree Transplant
  • A dry mix ideal for most transplanting
    applications
  • Formulated with a blend of endo- and
    ectomycorrhizae
  • Water absorbing polymer
  • Organic fertilizer and humic acid
  • Mixed into backfill or incorporated into potting
    media at planting

24
Advantages of Rhizanova
  • Emphasis on quality of inoculum
  • Becker-Underwood is an ISO 9001 registered
    company
  • Species selected for effectiveness with the
    broadest range of plants
  • No unnecessary amendments
  • High rates of phosphorus fertilizers

25
Quality-Tested Inoculum
  • INVAM at West Virginia University
  • Independent laboratory analysis
  • Verifies viability and infectivity of inoculum
  • The only certified inoculum in the industry

26
Mycorrhizal colonization of Ponderosa pine roots
by Becker-Underwood Tree Transplant and Tree Root
Dip inoculants in tests conducted by Mycorrhizal
Applications, Grants Pass, OR in 1998.
27
Take Home Messages
  • Mycorrhizae improve plant growth
  • Increase supply of nutrients to plant
  • Enhance water uptake efficiency
  • Benefits of inoculating with mycorrhizal fungi
  • Improved plant establishment rates
  • Increased drought resistance
  • Decreased transplant shock and improved survival

28
Questions?
29
Host Plants
  • Endomycorrhizae
  • Acacia, Ash, Bay, Boxelder, Buckeye, Cedar,
    Chokeberry, Cherry, Cottonwood, Crabapple,
    Cypress, Dogwood, Elm, Ginkgo, Gum, Hackberry,
    Hawthorn, Holly, Horsechestnut, Juniper,Locust,
    Magnolia, Maple, Mesquite, Mimosa, Mulberry,
    Palm, Persimmon, Redbud, Redwood, Russian Olive,
    Serviceberry, Sumac, Sycamore, Tupelo, Walnut,
    Yew
  • Ectomycorrhizae
  • Alder, Arborvitae, Aspen, Basswood, Beech, Birch,
    Chestnut, Fir, Hemlock, Hickory, Larch, Linden,
    Oak, Pecan, Pine, Spruce
  • Both
  • Eucalyptus, Willow, Poplar

30
Phosphorus Response Curve
Cassia pruinosa
Adapted from Jasper et al. 1994
31
Pesticide Interactions
  • Toxic Carbamates (Maneb, Zineb), PCNB,
    Chlorothalonil (Daconil, Bravo), Triazoles
    (Bayleton), Benomyl (Benlate)
  • Non-toxic Aliette, Captan, Carbendazim,
    Metalaxyl (Ridomil, Subdue)
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