Unrooted cuttings, from domestic or offshore suppliers, are
a standard product form for annuals and herbs. Now, perennial growers are using
that same strategy.
Unrooted perennials are a hot topic, generating a lot of
buzz at trade shows and seminars. Some growers are excited by the possibilities
of a lower-priced format that slashes their input costs. Others see this new
resource as a means to use more plants per pot, for a fuller look and faster
bulk-up. Still others want to add more hardy plant varieties to their offering
without losing valuable growing space to stock plants. Whichever scenario fits,
growers must consider some very important factors before starting down the
Assess your infrastructure
normal'>. Are your facility and staff equipped to handle unrooted perennial
cuttings? If you've been relying on cell-pack liners or bare-root clumps to
finish pots, you probably haven't had to invest in mist lines, a shade cloth or
coolers. You will need them to succeed with unrooted perennials.
Choose your supplier carefully
normal'>. Select a supplier with a proven track record in perennials, a wide
variety of offerings and a commitment to clean, healthy plants. Unit price is
an important factor, but not the only consideration. Be sure to calculate the
true "landed" cost to your door. Shipping, handling and customs
charges vary widely between suppliers ? from less than $35 to almost $150
per box, depending on your location and the origin of the cuttings. Ask about
volume and/or early order discounts.
Sweat the details.
As with any unfamiliar procedure or product, if you are new to unrooted
perennial cuttings, start slow. Order minimum quantities. Monitor results
carefully until you gain confidence. Keep good records of mist schedules,
chemical applications, rooting hormone rates and other inputs so you can refine
your processes for uniform results.
On receipt of cuttings.
Check box count against the packing list. Report missing boxes to the carrier
or your sales representative promptly. Open all boxes immediately and check the
count of cuttings against the packing list. Inspect cuttings for dehydration,
heat or freeze damage, breakage or rot. Report any missing or damaged items
Most suppliers strictly limit the acceptable time for
reporting problems and/or claiming credit. In most cases, this time is shorter
than allowed for claims and complaints on rooted plants. Never leave boxes in
sun, heat or below-freezing temperatures.
Stick cuttings ASAP.
As soon as possible after you receive them, stick cuttings into a
pre-moistened, well-drained, soilless medium with a pH between 5.5 and 6.5.
Stick cuttings just deep enough that they are anchored by the medium, normally
1/4-1/2 inch deep.
If you cannot stick them immediately, unrooted cuttings can
be held for several days in a cooler at 35-45° F. Cuttings will deteriorate
rapidly in warmer temperatures and will suffer freeze damage if held colder.
Remember, unlike liners, unrooted perennial cuttings are not
self-sufficient plants that can wait patiently, with occasional watering, until
you're good and ready to plant them. The clock started ticking when the
cuttings were taken from the mother plant, thousands of miles from your
Use appropriate rooting hormone.
style='font-weight:normal'> Most growers use IBA (potassium salt of
indole-3-butyric acid). Application rates vary according to species and
variety. Phlox subulata and Salvia greggii, for example, typically require no
IBA, while Phlox paniculata and Salvia 'May Night' respond well to 1,000 ppm.
There are two principal methods of application: 1) Apply as a light, uniform
spray to cuttings within 24 hours after sticking. For best results, apply to
dry plants and wait until spray dries to resume mist. This can be done at the
end of the day as mist is reduced. 2) Dip ends of cuttings into hormone prior
Watch light and temperature levels
style='font-weight:normal'>. During high-temperature times of the year, shade
rooting benches to approximately 50 percent light levels. Maintain greenhouse
temperatures of 65-75° F. Provide good air circulation to forestall fungal
growth. Cooler temperatures will inhibit root growth and set the stage for
Botrytis. Warmer temperatures place undue stress on cuttings. Bottom heat (root
zone heating) is generally preferred over other methods.
Minimize wilting during rooting
style='font-weight:normal'>. High humidity levels must be maintained in your
rooting space to keep cuttings from dehydrating. This requires frequent
misting, not just watering.
Practice good sanitation
normal'>. The high humidity level required to keep cuttings turgid while they
are rooting can also create ideal conditions for fungal and bacterial growth.
Good cultural practices and a clean, well-ventilated growing space is your best
defense against disease. Botrytis, the chief fungal threat, thrives in moist,
stagnant environments. Provide good air circulation and adequate light. For
additional disease protection, apply a broad-spectrum fungicide, such as
Heritage, within 48 hours of sticking. Apply at the end of the day when mist is
reduced. Rotate weekly with other fungicides, such as Chipco 26019, Cleary's
3336, Medallion or Pathguard.
Insects. Fungus gnat
larvae pose the biggest threat to good root development. If you see adult
fungus gnats around your cuttings after sticking, their larvae are probably in
your medium, feeding on emerging roots. When necessary, drench with appropriate
larvicides such as Adept, Citation, Distance, Duraguard and Gnatrol.
Aphids can also occur during rooting. Useful pesticides include
Azatin, Botaniguard, Decathlon, Duraguard, M-Pede/Insecticidal Soap, Marathon
II, Mesurol and Talstar GH.
Before using any pesticide, be sure it is registered for use
in your state, and always follow label instructions.
As plants develop root hairs, usually within 7-10 days,
gradually increase the intervals between mistings. Most varieties are rooted
within two weeks. Apply liquid fertilizer once or twice weekly, at 125 ppm
When root systems are self-sufficient, your new plants are
ready to transfer into finished containers. Fertilizer and light levels should
be increased. A good all-around guideline for most perennials is a 20-10-20
fertilizer at 300 ppm.