PART III: Growing Cannabis
Chapter 7: Clones and Cuttings
7.1. Preface
In the previous chapter, we've told you what equippment you need to grow
hemp. Furthermore you've been initiated into the secrets of good climate
control to reach an optimal result. Up until now, we haven't said a word
about the living material you can use to 'rise high'(!) . . . In this chapter,
we'll look at the actual cultivation. We'll leave sprouting cannabis from
seed for what it is. We'll talk about starting with clones. It's not completely
clear why the word 'clones' has been adopted by the weed grower; we're
talking, in fact, about 'cuttings'.
7.2. Cloning hemp
Cloning hemp is a cheap, quick way to get plants. The average gardener
has taken cuttings from his/her house plants at one time or another. It's
not much different with hemp. We only have to make sure the carefully removed
cuttings from the mother plant are brought to root. A healthy mother plant
can pass on her THC-producing properties from generation to generation
by means of cuttings. Each cutting has the same properties as the mother
plant. A cutting can be taken from a cutting. And from that cutting, yet
another. There are growers who have raised 20 generations from a mother
plant this way, without diminishing the growing power of the plants. The
yield from the 20th generation is just as good as the yield from the first
one! By then, the original mother plant is long past use. Taking cuttings
causes trauma to a plant. The plant reacts by taking on a deviant form,
and by starting male branches. A third problem is regressive mutation.
The mother plant has been developed by cross breeding. With regressive
mutation, the carefully bred properties (to a degree) are lost. The quality
of the plant (and, of course, the quality of the harvest!) decreases. For
this reason, we replace the original plant with one of her fresh, healthy
daughters after 12 weeks at maximum. The ease with which hemp can be cloned
makes planting cannabis seed less attractive. In the first place, sowing
seed takes a lot more time than growing from clones. An advantage not to
be underestimated is the fact that you can harvest much more often if you
raise clones rather than grow from seed. On top of that, you get males
as well as female plants from seed. The chance that a seed produces a male
plant is just as great as the chance a female will appear: 50% . . . To
make hemp cuttings/clones we need: - a high-quality mother plant; - sharp
scissors, or a sharp knife; - any commercial hormone mixture to promote
root growth; - something to start the cuttings in (a cutting tray with
rockwool plugs, a small grow-tank with washed, rough sand, fine vermiculite,
a soil-free mixture, or potting soil); - phosphoric acid - a 'cool white
33' fluorescent tubelight with the proper armature; - ventilation; - clean
working methods, and clean sur roundings; - 'green fingers' In contrast
to raising cannabis plants, for which we use 400 Watt or 600 Watt high-pressure
gas lamps, clones develop their roots best under fluorescent light. Fluorescent
tubes emit light primarily in the blue spectrum. Controlling the temperature
when using fluorescent lights is also less complicated, because fluorescent
tubes give off little heat. The fluorescent tube armature is mounted approximately
25 cm above the tops of the clones. We're going to illuminate the cuttings
18 or 24 hours per day. We keep the light on 24 hours a day during the
cold months. The illumination times suggested here are a guide. What it
actually involves is allowing the climatological conditions to vary as
little as possible. You get the best results with an even climate. It requires
some experience to create the optimum conditions . . . The hemp cuttings
form their roots best at a temperature of 25 to 26 degrees Celsius, and
a relative air humidity of 70-75%. Just as is the case with actual growing,
climate control is very important for cuttings. Moulds and pests insects
must never get a chance. Above all, mould spores can cause problems if
the climatic conditions aren't optimal. In principle, every part of a hemp
plant is suitable to use as a cutting. But a single leaf with a few roots
is of no use of course In any case, a good cutting has a growth-point.
The size of the cutting doesn't matter so much; a 2 cm cutting can grow
to be a top-quality plant, just like a 10 cm cutting. Before you put the
cutting in the growth medium, you have to make preparations. We're talking
about raising cuttings in rockwool substrate. First, the growing tray should
be soaked in a nutrient solution. The pH value must be 5.8, the EC value
0.8 to 1.0. To reach a pH value of 5.8, you best use phosphoric acid. The
advantage of phosphoric acid is that it helps the cuttings develop roots.
We fill the tray for the cuttings with the nutrient solution and drain
it off again. We do this several hours before taking cuttings from the
mother plant. The cuttings are clipped, or cut with a sharp knife or scissors.
Take care not to leave the ends frayed. A clean cutting loses less sap
than a cutting with a frayed end. Moreover, there's the risk that ravelled
parts of the plant will rot. Directly after clipping or cutting, we dip
the clone first in water, and then in rooting hormones. Then we stick the
cutting into the rockwool plug. The growing tray for the cuttings must
then be saturated for 3 or 4 days with nutrient solution. Good hygiene
is very important when getting cannabis cuttings to root. Work as clean
as possible. Always clean your scissors, knife and growing trays with a
medical disinfectant (i.e. Dettol) after you've used them. Check the clones
daily for possible rotting parts. Rotting leaves or stems must always be
removed, so that moulds won't get a chance. It's also important not to
put the clone tray in a bed of water. That makes rooting more troublesome,
and the roots will be of less quality. Also, a too wet clone tray causes
root rots such as pythium afungus on the roots. Just like all plants, hemp
cuttings also need fresh air containing CO2. We have to ventilate the clone
room, too. Sometimes, ventilation is necessary to keep the temperature
stable. When using a ventilator, you must try to create an optimal climate
without exposing the plants to gale force 9. The cuttings can dry out as
a consequence of too much air movement. When you have all the climatic
conditions under control, you can start waiting for roots to develop. It
takes about 10 days before you see the first results with healthy plants.
After a fortnight, healthy cuttings will have enough roots to be transplanted.
In principal, approximately 80% of the cuttings will root, if you control
the climate well. Allow the cuttings which have no roots after a fortnight
one more week. These cuttings can produce a plant of lesser quality. If
no roots have grown after 3 weeks, you can throw those cuttings away. Don't
count on all the cuttings taking root; plant about 20% more than you ultimately
intend to keep. Planting rooted clones is a tedious job. The root systems
of the young plants are very tender, and can easily be damaged. The extremely
small root hairs are very important for a healthy plant. Many splendid
cuttings have been ruined by rough transplanting The roots of plants don't
like light (they grow in the dark), and air (they dry out quickly). The
young plants will now go to the spot where they will spend the rest of
their lives. For plants, transplanting more than once is just as traumatic
as making people move house twice a month . . . Now, the plants must become
accustomed to their new surroundings. They must get sufficient water, but
not yet the full amount of light. After a few days, the real irrigation
schedule can begin, and the plants go under the full light of the high-pressure
gas lamps. The vegetative, or growth phase begins . . .
7.3. The vegetative phase
In this phase, the plants are illuminated 18 hours per day, and kept in
darkness 6 hours per day. If all aspects are in order, (sufficient light,
proper ventilation, good temperature, enough water and nutrients, in short:
complete climate control), the plants will grow quickly; up to 5 cm per
day. The duration of the vegetative stage is strongly dependent on the
control of climate. The better the climatic conditions, the earlier the
cutting takes root. The vegetative phase lasts from 3 to 10 days at maximum.
We'll discuss growing 15 plants per square meter. If we want to use the
surface area to the maximum, then we must prune the plants; - break off
the uppermost part. pruning is possible only with plants that have rooted
and begun to grow. If this is not the case, breaking or clipping the tops
off should be postponed for a couple of days. By pruning the plants, we
ensure that they not only grow tall, but wide, as well. After cutting off
the tops, we leave the plant in the vegetative stage (18-hour cycle) for
a few more days. When the off-shoots have grown 3-4 cm, we start the generative
phase. If all goes well, three or four large tops will then form on each
plant. Then we're ready to get around 50 tops per square meter. To get
a wider plant, you can now break off the top-most part of the plant. Further
pruning is not necessary. Pruning makes the plant grow fuller. That's not
to say you get a bigger plant, because you've also taken something away
. Since the vegetative phase lasts only a short time, the plant must quickly
make up for the damage. After pruning the top, two new branches will appear
from the budding sight just under the spot where the top was. Be very careful
with pruning; it's a more painful experience for a plant than trimming
your own nails After pruning, it's not unlikely for growth to be delayed
for a few days. It needs no further explanation that a clean, razor-sharp
knife or garden scissors should be used. Actually, we can only think of
one good reason for pruning. When branches don't grow well, or are sickly
or too thin, in short; unhealthy, you can, of course, carefully remove
them. With pruning, it always involves the removal of the whole branch.
Take care to touch the leaves as little as possible. That can easily disturb
the workings of the stomata in the leaves. Some people swear by removing
leaves in order to allow more light to reach other leaves. This is necessary;
moreover, part of the growth capacity is lost. It's also unnecessary to
remove dying leaves. You only have to clear these away after they've fallen
off the plant. Picking them off earlier might again cause damage to the
plant . . .
7.4. The generative phase
After one weekat maximum, we will shorten the illumination time, and adapt
the irrigation schedule accordingly. We keep giving water 6 times per light
cycle. Give water and fertilizer during the period that the light is on,
and not during the dark period. In the flowering, or generative phase,
the plants are in the light for 12 hours, and in darkness for 12 hours.
We imitate a shortening of the day in autumn; a sign for the plant to start
flowering and forming seeds during its last phase of life. In the generative
phase, the plant's emphasis is less on growth. Less chlorophyll is produced
and in the flowering phase, we often see fewer fingers forming on the cannabis
leaf. The plant needs less blue light during the flowering phase (that
was important for chlorophyll production in the leaves), and it needs more
red light. The autumn sun produces more red light, because the autumn sun
is lower in the sky.That doesn't mean that you must now use only the sodium
lamps. With only red light, the plants lose their vegetative leaves (they
turn yellow and fall off easily), while the stem of the plant is lengthened.
The distance between the branches (also called the 'internode') increases.
When we just let the mercury-iodide lamps supply the plants with blue light,
this effect won't occur so easily. The supply of water and nutrients continues.
The time between irrigations is shortened, so that the plants are still
irrigated during each light cycle. Not in order to push the plants to grow
as fast as possible, but to keep the metabolism at level, and to produce
resins. The female plants will show their first flowers after a week or
two. The following period lasts at least 60 days, depending on the variety.
With some of the plants, the blooming period lasts up to 90 days. It's
worth the trouble to be patient for the full flowering period before you
start harvesting. Harvesting during that time stresses the plants, which
can ultimately cause a decreased yield.
7.5. Harvesting and drying
In this book, we assume you've raised female cannabis plants from clones.
When you've sprouted male as well as female plants, there will be some
work sorting them out. The males flower earlier than the females. If you
leave the males with the females, the females will be fertilized. The females
then form seed, causing the tops to be smaller. The yield is lower (why
did we start growing in the first place?). If you've sprouted males, you
have to be sure to harvest them before the pollen reaches the female plants.
When you grow only females, you don't have this trouble. There are various
methods to harvest cannabis. Some people cut the whole plant down, then
hang it up to dry. Others break the largest leaves off several days before
harvest, so there will be less waste. Hanging the plants, or the tops,
upside down has no effect on the THC content in the tops. The resin doesn't
flow. What's important with cannabis is the even drying of the THC-containig
parts of the plant. What's also important is patience. Generally, drying
goes quicker if you remove the stems which contain the most moisture. Using
a microwave, or an ordinary oven, a hair dryer, or a fan does make drying
faster, but usually also causes a (much) sharper taste. Even drying in
air prevents as much as possible the loss of THC, and produces evenly dried
buds with a soft taste. Controlling the climate also remains important
after the harvest. Many harvests have been lost due to spider mites and
mould. For the THC glands so important to us, light, heat, and friction
are the most important things to avoid. Once dried, marijuana can best
be kept air-tight in a reasonably cool, dark place. Air-tight glass jars
are ideal.
7.6. Skuff
We'll talk about 'skuff'. This is the sifting of dried tops. When you sift
your dried harvest first through a rough, then through a fine sieve, you
remove all the remaining plant remnants, and get balls of resin (thus;
THC) left on the sieve. It's a fairly simple, but time-consuming job. Sift
the dried harvest first through a size T-44 sieve. The THC falls through
(with a little extra material). We have a T-77 size sieve under the T-44.
You must carefully rub your harvest through the T-77 sieve. Then you have
THC in it's pure form without chemical processing
skuffsieve
7.7. Setting up the garden again
After the harvest, you must make sure you can literally start the following
growth with a clean slate. First remove all the leftover plant parts. These
go in the trash or in the organic waste, unless you have a compost heap.
Then remove all the rockwool material. The rockwool still contains a lot
of water.
old rockwoolslab in the wringer
Tip: see if you can use an old wringer, or a centrifuge. That will decrease
the volume of the disposed rockwool by half. The following step is to disinfect
the equipment. Any commercial disinfectant will do. Read the label to see
how much to dilute it. Clean your irrigation system with disinfectant,
and always thoroughly rinse afterwards. Possible calcium build-up on your
humidifier should be removed. Cleaning lamps and reflective material is
the next step. The lamp should be off, and completely cooled. Don't touch
the lamp with your hands, because bodily acids can easily burn them. Result:
shorter lamp life. Everything is now ready for the next growth. Lay out
new rockwool material and wet it. It's time for new planting, so the timer
clock goes back to 18 hours, and the irrigation to once every three hours.
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