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RHS Level 2 Certificate
Week 16 – budding and grafting continued, review of Botanical naming conventions; Genetics and Inheritance and Plant Growth Regulators
Learning outcomes
Define the terms: ‘budding’ and ‘grafting’. State the reasons for use of budding and grafting for the production of
particular plants. Define ‘Compatibility’ in this context State the reasons why botanical/horticultural nomenclature is important. Define the meaning of ‘family’, ‘genus’, ‘species, ‘subspecies’, ‘variety’ and
‘cultivar’. Explain and apply the conventions for writing botanical names, including use
of italics and standard script, cultivar and hybrid indicators etc. Define the terms ‘dominant’ and ‘recessive’ and explain how these are
expressed in plant generations Complete a Punnett square for a mono-hybrid cross. State the significance of F1 hybrid seeds and explain the term hybrid vigour Identify the principle Plant Growth Regulators and their main influences on
plant growth and development Describe two examples of how auxin influences plant growth. Describe what is meant by the term phototropism
Propagation by grafting and budding
The joining of separate plant parts together, such that they form a union and grow as one plant. Most apple, pear and stone fruit trees are propagated in this way.
Scion – the wood from the desired variety from which the graft or bud is taken
Rootstock – the rooted plant of the same species (occasionally same genera) onto which the scion is attached.
Reasons for grafting or budding
Plants that cannot be produced by other means To obtain earlier cropping To obtain desirable characteristics of the rootstock
e.g. dwarfing To change the variety of an established tree
(topworking) To repair damage (bridge grafting) To create particular ornamental or useful forms (e.g.
standard roses or family apple trees)
Stages of graft union formation
It is essential that the cambium on the scion and stock is matched up
1) Callus formation by both stock and scion
2) Intermingling of callus from stock and scion
3) New cambium forms in callus between stock and scion
4) New secondary xylem and phloem from new cambium to connect stock and scion
FACTORS AFFECTING SUCCESS OF GRAFTING AND BUDDING
Plant type – scion and stock from same species (intra-generic grafts may be feasible – e.g. Pyrus communis scion onto Cydonia oblonga rootstock). Only dicots and gymnosperms can be grafted.
Incompatibility – due to physiological factors; virus infection; physical abnormality of the vascular tissues in the graft union.
Season and growth state Environment – temperature, humidity.
Types of graft and budding
Apical wedge graft T-budding Chip budding
Apical wedge graft
Used for trees such as Fagus sylvatica and for shrubs such as Syringia and Daphne
Method – cut off top of rootstock about 5cm from the ground and make a vertical cut in the centre
Cut the scion to a wedge Insert and bind firmly. Aftercare – remove tape
once the graft has taken, keep well watered.
T- Budding
Used to propagate roses. Carried out in the Summer
(July/August) Method – cut T shape cut
through the bark on the rootstock (about 5cm from ground) and open out
Remove a bud with a sliver of wood and slip into the opened out T
Bind with tape. When the bud has taken (or in
the spring) remove the tape and cut off the rootstock just above the bud.
Chip Budding
Used to propagate fruit trees, can be used for roses. Done in Summer
Method – take a chip of wood from the rootstock (again low down), remove a matching chip including a bud from the scion.
Match the cambium and bind together.
Aftercare – once the bud has taken remove the tape and cut back the rootstock to just above the bud. Keep well watered during the growing season
Botanical names – naming structure
Genus - A group of species that bear close resemblance to each other.
Species - A group of individuals that are very closely related structurally and functionally. Individuals in a single species interbreed freely and breed true to type.
Variety – a naturally occurring distinct sub- population within a species that will either come true from seed or can be reproduced vegetatively (for example by cuttings).
Cultivar – a man made variety.
Botanical naming conventions
Genus and species in italics (underlined when handwritten). Genus name starts with a capital letter, species name starts lower case.
Variety names are in italics Cultivar names are in inverted single commas and in
normal script. Not underlined when handwritten. Hybrids – indicated by an X. Placed between the
genus and species names in inter-specific crosses and before the genus name in inter-generic crosses.
Genetics and Inheritance
Chromosomes are made up of pairs of genes Genes may be dominant or recessive for a given
characteristic e.g. flower colour Each gene of a pair may be the same or different If both genes are the same the plant is homozygous
for that characteristic If the two genes are different the plant is
heterozygous If one gene is dominant and the other recessive the
dominant trait is expressed in the appearance of the plant.
F1 Hybrids
A cross between two pure bred parent lines – one homozygous for the dominant trait, the other homozygous for the recessive
The offspring all show the dominant trait but are not all genetically the same
F2 generation will not all show the dominant trait. The cross gives hybrid vigour to the offspring in the
F1 generation whilst giving predictable appearance.
Plant growth regulators
Auxin Cytokinins Gibberellins Ethylene Abscisic acid
Function of auxin
In combination with cytokinins promotes the differentiation of callus cells into root initials in the base of cuttings. Use of artificial auxin.
The higher concentrations of auxins produced by the apical bud of a shoot suppress the growth of axial shoots; removing the apical bud allows these to grow. Pinching out
The movement of auxins to the shaded side of a stem causes the cells to elongate so the plant grows towards the light – phototropism.
Learning outcomes
Define the terms: ‘budding’ and ‘grafting’. State the reasons for use of budding and grafting for the production of particular
plants. Define ‘Compatibility’ in this context State the reasons why botanical/horticultural nomenclature is important. Define the meaning of ‘family’, ‘genus’, ‘species, ‘subspecies’, ‘variety’ and
‘cultivar’. Explain and apply the conventions for writing botanical names, including use of
italics and standard script, cultivar and hybrid indicators etc. Define the terms ‘dominant’ and ‘recessive’ and explain how these are
expressed in plant generations Complete a Punnett square for a mono-hybrid cross. State the significance of F1 hybrid seeds and explain the term hybrid vigour Identify the principle Plant Growth Regulators and their main influences on plant
growth and development Describe two examples of how auxin influences plant growth. Describe what is meant by the term phototropism