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Fruit tree propagation

Fruit tree propagation is the propagation and rootstocks for fruit trees.

Much of our present knowledge regarding the cultivation[?] of fruit trees appears to date from the time of the Romans, whose range of technical skills and understanding of the nature of different varieties was extensive, including areas such as grafting and rootstocks.

Trees can be propagated either by sexual or vegetative means. Sexual reproduction occurs when male pollen from one tree fertilises the female part of the flower of another, leading to the production of fruit. In turn this contains seed which when germinated will become a new specimen. However, not unlike human beings, although the new tree will inherit many of the characteristics of its parents, it will not grow 'true'. That is, it will be a fresh individual with many unpredictable characteristics of its own. Although this is desirable in terms of increasing biodiversity and the richness of the gene pool, only rarely will such fruit trees be directly useful or attractive to the tastes of humankind, a tendency to revert to a crablike state being much more common.

Therefore, from the orchard grower or gardener's point of view, it is preferable to propagate fruit cultivars vegetatively in order to ensure reliability. This involves taking a cutting (or scion) of wood from a desirable parent tree which is then grown on to produce a new plant or 'clone' of the original. In effect this means that the original Bramley[?] apple tree, for example, was a successful variety grown from a pip[?], but that every Bramley since then has been propagated by taking cuttings of living matter from that tree, or one of its descendants.

However, most varieties that bear desirable fruit do not propagate well from cuttings, thus they tend to be grafted onto rootstocks. These are varieties selected for characteristics such as their vigour of growth, hardiness and disease resistance. Grafting is the process of joining these two varieties, ensuring maximum contact between the cambium tissue (that is, the layer of growing plant material just below the bark) of each so that they grow together successfully. Two of the most common grafting techniques are 'whip and tongue', carried out in spring as the sap rises, and 'budding', which is performed around July and August.

Bud grafting

  1. Cut a slice of bud and bark from the parent tree.
  2. Cut a similar sliver off the rootstock[?], making a little lip at the base to slot the scion into.
  3. Join the two together and bind.
  4. In time, the scion bud will grow into a shoot, which will develop into the desired tree.

Whip and Tongue grafting

  1. Make a sloping cut in the rootstock with a 'tongue' pointing up.
  2. Make a matching cut in the scion wood with a 'tongue' pointing downwards.
  3. Join the two, ensuring maximum contact of the cambium[?] layers. Bind with rafia[?] or polythene tape and seal with grafting wax.

Another reason for grafting onto rootstocks is that this enables the grower to determine the tree's eventual size. Apple tree rootstocks are referred to by numbers prefixed by the letter 'M', this being a reference to East Malling, the horticultural research station at which they are developed. Those most often used, in order of eventual size, are;

  • M27: Extremely dwarfing- Produces a tree which is @ 6' high. A good choice for container growing, or for very small gardens, although will require staking throughout it's life, as well as frequent watering, weeding and feeding. Trees on this rootstock will begin to come into fruit after 2-3 years, reaching full capacity of 10-15lbs after 4-5 years.

  • M9: Very dwarfing- Reaches a height of 8-10', coming into fruit after 3-4 years, reaching full capacity of 35-45lbs after 5-6 years. It will grow under average soil conditions, but needs a good rich soil to thrive. A good choice where space is limited and fertility is high. Permanent staking is required, as is routine feeding and watering.

  • M26: Dwarfing- Similar to M9 in effect, although somewhat more vigorous and generally stronger, with a higher expected eventual yield of 65-75lbs and height of 8-10'. A good choice where soil quality is average and compact growth is required. Comes into fruit after 3-4 years, reaching full cropping capacity after 5-6 years. Staking needed for first five years of its life.

  • MM106: Semi-dwarfing- Sometimes referred to as semi- vigorous, this is the most widely used of rootstocks. It is probably the best choice for the average garden under average conditions, being tolerant of a wide range of soils, and producing a tree with an eventual size of 14-18'. Trees on this stock begin producing fruit within three to four years, and yield up to 90-110lbs after some seven or eight years. MM106 is very suitable for use with weaker varieties that would produce under sized bushes with more dwarfing rootstocks. Can be trained as a half standard tree, but is rather too vigorous for cordons unless the soil is poor. Requires staking for the first five years or so of its life.

  • M111 & M2: Vigorous- Not generally suitable for garden scale growing, being both too large and spreading (18-25'), and too slow to come into cropping. They are however suitable for growing as specimen standards in the large garden, or for producing medium sized bushes on poorer soils. Begins to fruit after six or seven years, reaching full capacity of 160-360lbs after eight to nine years.

  • M25: Very vigorous- Suitable for a grassed orchard, and to grow on as a full standard. Plant 20' apart, makes a tree of 15-20' or more height and spread, eventually yielding 200-400 lbs per tree.

Table of contents
1 See also

Pear Rootstocks

Pears are usually grafted onto quince rootstocks, which produce small to medium sized trees. Some varieties however are not compatible with quince[?], and these require double working. This means that a piece of pear graft-work compatible with both the quince rootstock and the pear variety is used as an intermediate between the two. If this is not done the pear and the rootstock could eventually separate at the graft. Varieties that require double working include 'Bristol Cross', 'Dr Jules Guyot', 'Doyenné d' été' and 'Williams Bon Chrétien'.

  • Quince C: Moderately vigorous- Makes a bush pear tree about 8-18' tall, bearing fruit within @ four to eight years. Suitable for highly fertile soils and vigorous varieties, but not where conditions are poor. Used for bush, cordon and espalier growing. Old stocks of Quince C may be infected with a virus, so care should be taken to obtain certified virus free stock. If in doubt, use Quince A as there is not a great amount of difference in vigour between the two.

  • Quince A: Medium vigour- Slightly more vigorous than Quince C, this is the most common variety upon which pears are grafted. Bears fruit between four to eight years, making a tree of some 10-20' in height and spread. Suitable for all forms of pear trees except standards.

Pear stock: Very vigorous- Pears grafted onto pear rootstocks make very large standard trees, not suitable for most gardens.

Cherries

Until the 1970's[?], cherries were grown of the vigorous Malling F12/1 rootstock, which required much space and time before cropping began, thus the growing of cherries was not a realistic option on a garden scale. The introduction of the rootstock 'Colt' enables trees reaching a maximum height of 12-15' to be grown, and if trained as a pyramid it is possible to restrict growth to about 10'. The popular sweet variety 'Stella' could even be grafted onto a 'Colt' rootstock and successfully grown in a pot on the patio.

Plums

Plum rootstocks include;

  • Pixy - A dwarfing rootstock, suitable for bush trees planted 8-10' apart.

  • St. Julien A - A semi vigorous rootstock suitable for bush and half standards planted 12-15' apart. Also suitable for peaches, nectarines and apricots.

  • Brompton or Myrobalan B- Suitable for half standards planted 18-22' apart. Also suitable for peaches, nectarines and apricots.

Own Root Fruit Trees

Permaculture designer and fruit nurseryman Phil Corbett[?] has for a number of years been working on an innovative project involving growing fruit trees on their own roots. His work is based on research carried out by Hugh Ermen of the Brogdale Horticultural Research Station[?], home of the National Apple Collection[?]. Corbett writes; "Hugh discovered that there are several advantages in growing apples on their own roots- that is, not grafted onto a rootstock. The graft union, which is a union between two genetically different individuals, always creates a degree of incompatibility. Not having this incompatibility, own root trees were found to have better health and better fruit quality. The only disadvantage of own root trees is that most varieties are more vigorous than is usually wanted. This means that trees may make a lot of wood at the expense of fruit bud production, giving big trees that take a long time to come into crop. Conventionally this vigour is controlled by grafting onto a dwarfing rootstock. With trees on their own roots, however, a number of traditional techniques can induce early cropping. Once cropping begins, the tree's energies are channelled into fruit production and growth slows down to a controlable level. The techniques that are usually sufficient to bring about cropping are:

  • Withholding nitrogen, which would stimulate growth, and withholding irrigation, except in serious drought;
  • Tying down one and two year old branches to the horizontal. This induces fruit bud formation;
  • Prune in summer to stimulate fruit buds to form, and avoid winter pruning which stimulates regrowth.

Once cropping has begun, a normal feeding and watering regime can begin. The average cropping own-root tree can be maintained at a size very similar to the same variety on MM106 rootstock" (Phil Corbett, from The Common Ground Book Of Orchards, pub Common Ground, 2000)

He is also conducting research into the 'coppice-ability' of own-root fruit trees, including an experimental 'Coppice Orchard' project, wherein own-root trees are planted in north-south rows; "When the canopy of the orchard closes, a north-south row will be coppiced and the land in the row used for light demanding crops while the trees regrow. The trees on either side of the glade will have higher light levels on their sides and produce more fruit buds". Over time a series of parallel sheltered glades will be created which will be coppiced on a rotational basis, allowing for multifunctional use of land in order to produce not only fruit but also small wood products, soft fruit, vegetables and even possibly cereals, fungi and the more traditional bees and poultry. This is a project with much promising potential, and deserving of attention from the wider organic growing movement for the valuable lessons that will no doubt be provided over time.

See also



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