Transcript Grafting & Budding Terms
Principles of Grafting and Budding Chapter 11
Grafting & Budding Terms Graft: Two living plants connected and growing as one Scion: Dormant shoot, upper portion of graft Stock: Lower portion of graft, root system
Grafting & Budding Terms Bud: Similar to graft, but scion is reduced to a single bud
Grafting & Budding Terms Interstock: A middle or intermediate stem piece located between scion & stock
Grafting & Budding Terms Vascular Cambium: Meristematic tissue between xylem & phloem
Vascular Cambium X P
Grafting and Budding
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Perpetuate clones Rootstock effects Changing cultivars Rapid maturity
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Shortens juvenility Used for breeding programs Special growth forms Damage repair Studying viruses
Seedling Rootstocks
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Simple
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Cheap
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Disease free Better root systems Genetic variation
Clonal Rootstocks
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Source
Stool beds
Cuttings
Tissue Culture Characteristics
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Uniformity
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Disease Resistance
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Growth Habit
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Flowering Habit
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Scion rooting Disease potential
Rootstock benefits
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Disease resistance Soil tolerance Size control Fruit quality Interstock benefits
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Overcome incompatibility
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Add additional attributes
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Dwarfing
Topworking
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Change cultivars Add pollinators
Topworking
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Multiple varieties on one tree
Formation of graft union 1. Line up vascular cambium 2. Wound healing response a. Necrotic plate 3. Callus bridge formation 4. Cambium formation 5. Vascular tissue formation
1. Close Vascular Contact
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55-90F Active cambium High humidity Pathogen free Mechanical support Cambium ‘matching’
2. Formation of Necrotic plate
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Cells killed when cut is made
3. Callus Bridge Formation
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Production & Interlocking of parenchyma Comes from phloem and immature xylem Stock produces most callus
4. New Cambium Formation
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Adjacent callus differentiates to form cambium Cambium forms across bridge of callus tissue
5. New Vascular Tissue (X&P) From New Cambium
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Vascular system must be in place before bud break
GRAFT FORMATION
BUD FORMATION
Factors of graft healing
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Incompatibility Species or variety (cultivar) Temperature Moisture Oxygen Growth status (active vs. dormant) Technique or type of graft Disease situation
Polarity in grafting
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Distal and Proximal ends Reversed polarity works only for a limited time with grafts
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Nurse-root grafting Buds can be reversed
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Can cause a wide crotch angle as it grows - strong
Limits of grafting
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Generally limited to dicots & gymnosperms More closely related the better Permanent grafts in monocots are not successful
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Likely has a lot to do with cambium and vascular tissue production Common between same species
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Apple on apple Harder between different Genera in same family
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Tomato on potato (Solanaceae family, or Nightshade) Rare between families
Symptoms of Incompatibility
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High failure rate Yellow foliage, early defoliation Premature death of scion Differences in growth rate
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Not always a sign of incompatibility Can be differences in genetic potential for growth rate Overgrowths Breaks at graft union
Types of Incompatibility
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Localized
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At site of graft contact Translocated
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Substances moved from the scion to rootstock or vice-versa Virus present
Incompatibility
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Cause: Genetic Mechanism (example theories):
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Chemicals found in one partner may be toxic to the other (Cyanogenic glucoside)
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Lignification of cell walls may be inhibited
Effects of Rootstocks on the Scion
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Size and growth habit Fruiting Size, quality, and maturity of fruit Winter hardiness Disease resistance Timing of fruit maturity Effects of Scion on the Rootstock
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Vigor Cold-hardiness
Effects of Interstock on Stock & Scion
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Reduces stock and scion size Direct effect, not indirect Mechanisms of effects (theory)
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Translocation (stem) Absorbing ability (root system) Interaction of all parts
Factors influencing growth of grafted plants
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Nutrition Translocation Endogenous growth factors