layering your garden

DuluthDankMaster

Well-Known Member
Anybody ever tried "layering" their bud plants? Or is it possible to do this? Been learning about it at school n I kinda wanna try it...any1 have any thoughts?
 

MeJuana

Well-Known Member
Not necessary with MJ because it has very soft stems.. But I believe it has been tried successfully or at least there is no reason why it shouldn't work.
 

DuluthDankMaster

Well-Known Member
Thanks Mejuana.......ahh other guys, I'm going to school as a horticulture major...and Layering is where u would bend the stem to the ground and bury it an inch or 3 deep like you're training but you would cut off a small piece of the outer bark and root it and it produces a new plant essentially, then u just separate the 2 plants and abra cadabra u have 2 plants. I guess it would be difficult outside in most places due to short growing time but I am pretty sure it can be done indoors with mj.
 

teddiekgb123

Well-Known Member
Just for fun I want to get a long rectangular planter box and have the plant start on one side and grow horizontally about 4" above the dirt. Branches from every other internode will get trained back down into the ground and rooted. fucking awesome....and yes i'm high
 

satch

Well-Known Member
Layering is for things that take a really long time to root IE: shrubs and trees, soft stems on MJ let it root in less than a week. I've tried it a few times with some lanky sativas out in the yard but it wasn't really worth the effort.Kinda neat to try I guess if you want to see if you can do it but besides that, there are far more efficient cloning methods that take far less time.
 

lowerarchy

Active Member
So if you've got a legal limit of 5 plants you could layer them into 600 plants and say it's all one plant, right? Cause if you don't separate them once rooted that's the truth.
 

DuluthDankMaster

Well-Known Member
Just for fun I want to get a long rectangular planter box and have the plant start on one side and grow horizontally about 4" above the dirt. Branches from every other internode will get trained back down into the ground and rooted. fucking awesome....and yes i'm high
try it dude..thats one of my favorite things with plants is trying new techniques for growing..its all trial and error.

right on Satch yea i was told it can take a while for roots to form.

lowerarchy that could be a fun loophole for the medical growers haha, try it out n see wat happens
 

Brick Top

New Member
Anybody ever tried "layering" their bud plants? Or is it possible to do this? Been learning about it at school n I kinda wanna try it...any1 have any thoughts?
Do you mean things like air layering, serpentine (compound) layering, simple layering, tip layering, mound layering or are you referring to something else?
 

Brick Top

New Member
ive never heard of layering b4??? wots ot all about
If what is being talked about is what I believe it is ... here are some basics.

Normally it is a way to get more plants in a way rather than cloning. It was developed for hard to clone plants but certain types of layering have uses for cannabis growing. Air layering is a way where you can take multiple clones but they remain on the plant until rooted and if you are a med user and the number of clones could put you over a legal limit considering they remain on the mother until fully rooted you would not have a number of clones that could count as plants and out you over a legal limit.

Serpentine (compound) layering is a way to make your plants grow near to the ground, in a somewhat vine-like manner, so they are more stealthy. It is somewhat like SCROG without a screen and more spread out, unless you would grow then in a circular pattern rather then in a more straight line or twist and spread out manner.


[SIZE=+1]Plant Propagation by Layering: Instructions for the Home Gardener[/SIZE] 1/99 HIL-8701
[SIZE=+1]Erv Evans, Extension Associate
Frank A. Blazich, Professor
Department of Horticultural Science
[/SIZE]


Stems that are still attached to their parent plant may form roots where they come in contact with a rooting medium. This method of vegetative propagation is generally successful, because water stress is minimized and carbohydrate and mineral nutrient levels are high. The development of roots on a stem while the stem is still attached to the parent plant is called layering. A layer is the rooted stem following detachment (removal) from the parent plant.
Some plants propagate naturally by layering, but sometimes plant propagators assist the process. Layering is enhanced by wounding the stem where the roots are to form. The rooting medium should always provide aeration and a constant supply of moisture.
Types of Layering
Simple layering can be accomplished by bending a low growing, flexible stem to the ground. Cover part of it with soil, leaving the remaining 6 to 12 inches above the soil. Bend the tip into a vertical position and stake in place (Figure 1). The sharp bend will often induce rooting, but wounding the lower side of the bent branch may help also. Simple layering can be done on most plants with low-growing branches. Examples of plants propagated by simple layering include climbing roses, forsythia, rhododendron, honeysuckle, boxwood, azalea, and wax myrtle.
Figure 1.
Simple layering can be done in early spring using a dormant branch, or in late summer using a mature branch. Periodically check for adequate moisture and for the formation of roots. It may take one or more seasons before the layer is ready to be removed for transplanting.
Tip layering is quite similar to simple layering. Dig a hole 3 to 4 inches deep. Insert the tip of a current season’s shoot and cover it with soil. The tip grows downward first, then bends sharply and grows upward. Roots form at the bend. The re-curved tip becomes a new plant (Figure 2). Remove the tip layer and plant it in late fall or early spring. Examples of plants propagated by tip layering include purple and black raspberries, and trailing blackberries.
Figure 2.
Compound (serpentine) layering is similar to simple layering, but several layers can result from a single stem. Bend the stem to the rooting medium as for simple layering, but alternately cover and expose sections of the stem. Each section should have at least one bud exposed and one bud covered with soil. Wound the lower side of each stem section to be covered (Figure 3). This method works well for plants producing vine-like growth such as heart-leaf philodendron, pothos, wisteria, clematis, and grapes.
Figure 3.
Mound (stool) layering is useful with heavy-stemmed, closely branched shrubs and rootstocks of tree fruits. Cut the plant back to 1 inch above the soil surface in the dormant season. Dormant buds will produce new shoots in the spring. Mound soil over the new shoots as they grow (Figure 4). Roots will develop at the bases of the young shoots. Remove the layers in the dormant season. Mound layering works well on apple rootstocks, spirea, quince, daphne, magnolia, and cotoneaster.
Figure 4.
Air layering can be used to propagate large, overgrown house plants such as rubber plant, croton, or dieffenbachia that have lost most of their lower leaves. Woody ornamentals such as azalea, camellia, magnolia, oleander, and holly can also be propagated by air layering. For optimum rooting, make air layers in the spring on shoots produced during the previous season or in mid to late summer on shoots from the current season’s growth. For woody plants, stems of pencil size diameter or larger are best. Choose an area just below a node and remove leaves and twigs on the stem 3 to 4 inches above and below this point. This is normally done on a stem about 1 foot from the tip.
Air layering differs, depending on whether the plant is a monocot or a dicot. For monocots, make an upward 1- to 1 1/2-inch cut about one-third through the stem. The cut is held open with a toothpick or wooden match stick. Surround the wound with moist, unmilled sphagnum moss (about a handful) that has been soaked in water and squeezed to remove excess moisture. Wrap the moss with plastic and hold in place with twist ties or electrician’s tape. No moss should extend beyond the ends of the plastic. Fasten each end of the plastic securely, to retain moisture and to prevent water from entering. If exposed to the sun, the plastic should be covered. Aluminum foil can also be used, as it does not require twist ties or tape to hold it in place.
The process for dicots is similar, except a 1-inch ring of bark is removed from the stem. With a sharp knife, make two parallel cuts about an inch apart around the stem and through the bark and cambium layer (Figure 5). Connect the two parallel cuts with one long cut. Remove the ring of bark, leaving the inner woody tissue exposed. Scrape the newly bared ring to remove the cambial tissue to prevent a bridge of callus tissue from forming. Application of a root-promoting substance to the exposed wound is sometimes beneficial. Wrap and cover using the same procedure as that described for monocots.
Figure 5.
After the rooting medium is filled with roots, sever the stem below the medium and pot the layer. The new plant will usually require some pampering until the root system becomes more developed. Provide shade and adequate moisture until the plant is well established.
Natural Forms of Layering
Sometimes layering occurs naturally, without the assistance of a propagator. Runners and offsets are specialized plant structures that facilitate propagation by layering.
A runner produces new shoots where it touches the growing medium (Figure 6). Plants that produce stolons or runners are propagated by severing the new plants from their parent stems. Plantlets at the tips of runners may be rooted while still attached to the parent or detached and placed in a rooting medium. Examples include strawberry and spider plant.
Figure 6.
Plants with rosetted stems often reproduce by forming new shoots, called offshoots, at their base or in the leaf axles. Sever the new shoots from the parent plant after they have developed their own root systems. Unrooted offsets of some species may be removed and placed in a rooting medium. Some of these must be cut off, whereas others may simply be lifted from the parent stem. Examples include date palm, bromeliads, and many cacti.
For Further Reading

  • Bryant, G. 1995. Propagation Handbook. Stackpole Books: Mechanicsburg, Pennsylvania.
  • Dirr, M. A. and C. W. Heuser, Jr. 1987. The Reference Manual of Woody Plant Propagation: From Seed to Tissue Culture. Varsity Press: Athens, Georgia.
  • Hartmann, H. T., D. E. Kester, F. T. Davies and R. L. Geneve. 1996. Plant Propagation, Principles and Practices. 6th ed. Prentice Hall: Upper Saddle River, New Jersey.
  • McMillan Browse, P. D. A. 1978. Plant Propagation. Simon and Schuster: New York.
  • Toogood, A. 1993. Plant Propagation Made Easy. Timber Press: Portland, Oregon.
 

Brick Top

New Member
Here is an example of air layering ... to take clones by rooting them while still on the mother:


[SIZE=+3]AIR LAYERING FOR DIFFICULT-TO-ROOT PLANTS[/SIZE]
Everett E. Janne
Extension landscape horticulturist
Air layering is a useful method of producing roots on the stem of indoor landscape plants that have become "leggy" through the loss of their lower foliage.
This method, believed to have been developed centuries ago by the Chinese, has been used successfully as a mean of propagating some of the more difficult-to-root plants. Because it required excessive care and patience, air layering was used only by the highly trained plantsman.
The procedure was to wound the stem or branch of a plant and enclose the wounded stem with moist sphagnum moss or similar rooting medium until roots develop from the wounded area. Success was dependent upon the ability of the propagator to keep the rooting medium moist until the roots were formed and large enough to support the new plant. Only since the development of polyethylene film has air layering become a practical method of propagation for the home gardener and amateur horticulturist.
Air layering seldom is used on plants that root easily by other less complicated methods, but it is useful for rooting ornamental plants such as ornamental figs, dieffenbachia, croton and others of a herbaceous nature. Woody plants frequently propagated in this manner include magnolia, holly, camelia, azalea and many of the fruit and nut bearing plants such as citrus, apple, pears and pecans.
For optimum rooting make air layers in the spring on shoots produced during the previous season or in mid-summer on mature shoots from the current season's growth. On woody plants, stems of pencil size or larger are best. The stem may be much thicker on the more herbaceous plants.
Steps for making a successful air layer are illustrated in the following drawings:
Figure 1. Method of wounding woody plants such as magnolia, gardenia, rose, fig and similar plants. With a sharp knife, make two parallel cuts about 1 1/2 inches apart around the stem and through the bark and cambium layer. Connect the two parallel cuts with one long cut (a) and remove the ring of bark (b), leaving the inner woody tissue exposed (c).
Figure 2. Method of wounding plants having less woody stems in preparation for air layering. This method usually is used on foliage plants such as the rubber plant, (Ficus benjamini and Ficus elastica) and the dieffenbachia. (a) With a sharp knife, make a long upward cut from 1 1/2 to 2 inches long, almost to the center of the stem.
(b) Insert a wood sliver, toothpick or twisted piece of sphagnum moss into the wound to hold it open and prevent cut tissue from reuniting. At this point, the wounded area may be dusted with one of the commercial rooting compounds to speed up the rooting process. Such compounds, however, do not insure root production on difficult-to-root varieties.
Figure 3. Apply a handful of damp sphagnum moss so that it envelopes the wounded portion of the stem. Tying the moss in place with string helps keep it in position while completing the process. The sphagnum moss hould be soaked several hours to insure that it is thoroughly moist. Squeeze out surplus water before using, since excessive moisture will result in decay and deterioration of the plant tissue.
Figure 4. Using a sheet of polyethylene film approximately 6" X 12" or 8" X 12", depending upon the size of the plant stem, wrap the ball of sphagnum moss using the butchers fold (see insert) to secure a tight seal where the two ends of the sheet are joined.
Figure 5. Draw the upper end of the film snugly around stem making sure that none of the moss is exposed. Fasten securely with electricians tape, taking care that the tape extends beyond the film and adheres to the stem. Repeat the procedure on the lower end, again making sure there is a snug fit. Moisture must not escape and excess moisture must not enter when watering or syringing the plants. Support the plant with stake or splint to prevent breakage at the wounded area.
Figure 6. After the new roots have penetrated the moss ball and are visible on all sides, the rooted branch may be removed from the parent plant. The rooting time will vary with plant variety as well as the season in which it is performed.
Figure 7. Remove the newly rooted plant from the parent plant with a sharp knife or pruning shears, making the cut just below the ball of moss and roots. (Not illustrated) Carefully remove the polyethylene film. Without disturbing the roots or removing the ball of moss, plant in a container using a good potting mixture or plant in a well-prepared soil bed.
Figure 8. Placing a polyethylene tent over the newly potted plant for 4 to 8 days until the root system is well established is helpful as it will aid in preventing excessive loss of moisture. Keep the plant under a light shade and avoid direct sunlight until the new root system is well developed.
Many plants are lost in the final stage of the process because the root system is not sufficiently developed to sustain the top portion of the new plant. By utilizing the plastic tent illustrated in figure 8 or by keeping the new plant in a humid environment, it is possible to develop a good root system on rather large cuttings. Once the plant is well established, it is best to harden off the foliage by gradually exposing it to normal atmosphere. This can be done by cutting a few holes every few days in the plastic tent to reduce the humidity until it is similar to the external atmosphere.
Attached Thumbnails

 

DuluthDankMaster

Well-Known Member
Damn bricktop u got ur shit down haha. I was talking more about serptine layering so they are close to the ground...more of an outdoor geurilla grower type of growing IMO but it'd be fun to do inside if u have the room. I'm. Gonna + rep u for this useful information bro. Thanks.
 

Brick Top

New Member
Damn bricktop u got ur shit down haha. I was talking more about serptine layering so they are close to the ground...more of an outdoor geurilla grower type of growing IMO but it'd be fun to do inside if u have the room. I'm. Gonna + rep u for this useful information bro. Thanks.

When you are an owner of a nursery you tend to pick up a bit of information here and then and when combined with nearly 4 decades of this type of growing it does add up over time.


If you want or need more information about serpentine (compound) layering just Google it and you will find a good deal of info.

Then there was the small bit about it above to begin with.

Compound (serpentine) layering is similar to simple layering, but several layers can result from a single stem. Bend the stem to the rooting medium as for simple layering, but alternately cover and expose sections of the stem. Each section should have at least one bud exposed and one bud covered with soil. Wound the lower side of each stem section to be covered (Figure 3). This method works well for plants producing vine-like growth such as heart-leaf philodendron, pothos, wisteria, clematis, and grapes.
Figure 3.
 

scott1M

Member
now that u put it like that.....ive heard of the layering now its more wiv like hard wood trees & shrubs..air layering is the one ive heard off.
 
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