ii. vegetative propagation
TRANSCRIPT
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II. Vegetative Propagation
• Use of Apomictic Seeds
• Use of Specialized Vegetative Structures
• Adventitious Root Induction (Cuttings)
• Layering
• Grafting
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a. Use of Apomictic Seeds
• Apomixis = Development of seeds from
maternal tissue inside ovule
• Some apomictic seeds are formed from
megaspore mother cells
• Apomictic seeds produce plants that are
genetically identical as maternal plants
• Examples: Mango, Kentucky bluegrass, Citrus
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How is Apomictic Seed Formed?
Asexual seed formation from maternal tissues around zygotic
embryo inside an ovule
Apomictic seeds can be formed from nucellar tissues, egg mother
cell, flower heads (bulbils)
Found in Kentucky bluegrass, dandelion, citrus, Alliums
Nucellar embryos in Citrus
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b. Specialized Vegetative Structures
• Runners (Stolons)
• Bulbs
• Corms
• Rhizomes
• Off-Shoots
• Stem Tubers
• Tuberous Roots
• Root Suckers
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Runners (Stolons)
• Above-ground running stems
• New plants are formed on each node
• Examples: Strawberry, Spider Plant, Buffalograss
Strawberry Buffalograss
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Bulbs
A specialized underground organ consisting of a basal
plate, growing points, flower primordia, and fleshy scales
Found in monocots
Tunicate bulbs - Onion, tulip, garlic, hyacinth
Non-tunicate bulbs – Easter lily, Oriental lily
Bulblets, bulbils, stem bulblets
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Scaly Bulbs: Easter Lily
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Anther Removal on Easter Lily Flowers
Anthers intact Anthers removed
Pollen germination on stigma triggers ethylene release
Yellow color stain makes the flowers unsightly
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Corms: Gladiolus
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Rhizomes Laterally grown underground stems
Iris, ginger, lily of the valley, orchid
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Offshoots
Lateral shoots, often with roots at the base,
produced on main stems which can be separated and
grown as independent plants
Examples: Pineapple (slip), dendrobium, cymbidium
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Stem Tuber
Tuber is a swollen, modified stem structure that
functions as an underground storage organ
Examples: potato, caladium, Jerusalem artichoke
Use of eyes in potato propagation
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Tuberous Roots
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b. Cutting Propagation
• Detached stems and roots are used to
induce adventitious roots or shoots
• Woody Plants• Hardwood cuttings
• Softwood cuttings
• Semi-hardwood cuttings
• Single-node cuttings
• Root Cuttings• Problem with phenotype conversion in chimeric
plants
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Hardwood and Semi-hardwood Cuttings
1 2 3
4 5 6
1-Stock plant nursery, 2-making cuttings, 3-bundles of cuttings, 4-IBA
treatment, 5-rooting in artificial mix, 6-outdoor misting system for rooting
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Influence of IBA on Rooting-Cordia parvifolia
1-Control, 2-50% ethanol, 3-100 ppm, 4-1000 ppm, 5-2000 ppm, 6-4000 ppm,
7-6000 ppm, 8-8000 ppm, 9-10000 ppm IBA
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Cutting Propagation in Jojoba
• Regular Stem Cuttings
– Use 4-5 nodes
– Semi-hardwood cuttings
• Single Node Cuttings
– Double-eye single node cuttings
– Single-eye single node cuttings
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Single Node Cuttings of Jojoba
5-node
Single Node Cuttings
DE SE
DE SE
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Cutting Propagation in Jojoba
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Clonally Propagated Jojoba FieldBakersfield, CA
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Shoftwood Cuttings - Hydrangea
Use of Butterfly and Single Node Cuttings
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Softwood Cuttings-Peach
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Herbaceous Cuttings - Carnation
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Pauk Ecke’s Poinsettia Greenhouse
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Leaf Cuttings-African Violet, Piggyback Plant
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Chimeras
A plant that is composed of tissues of more than
one genotype
Chimera (Greek Word)
A mythological monster, having a lion’s head, a
goat’s body and a serpent’s tail
Chimera
Periclinal Chimera
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Three Types of Chimeras
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Examples of Chimeric Plants
Chrysanthemum Rose
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Propagation by Grafting
• Requirements for Success– Compatibility between stock and scion
– Alignment of cambium layers
– Prompt handling
• Grafting Methods– Cleft grafts
– Whip-and-Tongue
– Side grafts
– Budding
– Inarching
– Bridge Grafts
– Topworking
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Cleft Graft
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Whip Graft, Whip-and-Tongue Graft
Whip Graft Whip-and-Tongue Graft
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Side Grafts
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Budding
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Grafted Plants
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Bridge Graft and Inarching
Rejuvenating old fruit trees
Repair damage on the tree trunk
Bridge Graft Inarching
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Topworking• Scions are grafted on branches of mature trees• Used to change cultivars on old fruit trees
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Use of Herbaceous Grafting
1. Virus Indexing
2. Synthetic Plants
3. Construction of Genetic Chimeras
4. Improved Crop Performance
5. Research in Plant Physiology
6. Enhancement of Esthetic Value
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Various grafting methods in vegetables with or
without rootstock root systems
Cucurbits (watermelons, melons, cucumbers, squashes, etc.)
Solanaceous crops (tomatoes, peppers, eggplants, paprika, etc.)
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Grafted Cactus Production
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Position of grafting
Tomatoes, grafted onto tomato rootstock (left) or on potato (right)
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Eggplant/potatoTomato/eggplant
Cabbage/Radish Chinese
cabbage/Radish
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Herbaceous Grafts
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Cultivation of Grafted Vegetables in Korea and Japan.
J a p a n K o r e a
Field+Tunnel Greenhouse Field+Tunnel Greenhouse
Crop Total Grafted Total Grafted Total Grafted Total Grafted
(ha) (%) (ha) (%) (ha) (%) (ha) (%)
Watermelon 14,017 92 3,683 98 13,200 90 21,299 98
Cucumber 10,160 55 5,440 96 1,728 42 5,964 95
Melons 6,142 0 8,258 42 1,047 83 9,365 95
Tomato 6,549 8 7,141 48 258* 0 4,752 15
Eggplant 11,815 43 1,785 94 650* 0 413 10
Pepper* 2,684 – 1,468 5 75,574 0 5,085 25
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Robotic Grafting Machine
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Seedling Grafting on Vegetable Plugs
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Herbaceous Grafts
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※ After placing the scion on
the top of rootstock to match
the vascular bundle, thread or
clips are used to hold the
position.
Cut
Diameter of scion: 10 mm.
Vascular bundle
Hylocereus trigonus, the most popular
rootstock for cactus grafting
* Standard rootstock length : 9 cm long
* Diameter of rootstock: 30~ 35 mm
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G
F
H
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Care of grafted watermelon seedlings in a commercial
greenhouse
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Commercial Cactus Greenhouse in Korea