Fact Sheets
Specific Crops
Growth Regulators for Bedding Plants
Links to plant growth regulator labels
Chemical plant growth retardants (PGRs) are very useful tools for controlling the height of bedding plants. Several other growth regulators are available to stimulate branching or to increase postharvest quality. This fact sheet outlines what chemicals are available for bedding plants, how they are applied, and some of the factors which affect the success of their use.
Causes of Too Tall Plants
Achieving desirable plant height involves considering why plants tend
to be too tall before starting on a PGR program. A PGR may not be
necessary if the problem can be corrected. There are number of reasons
why bedding plants may get too tall. If the plants are started too
soon or tall cultivars are chosen may lead to overgrown plants. Transplanting
to large volume packs or other containers may contribute to too large
plants. Low light intensity, too close spacing of certain plants,
and running much higher day than night temperatures are probably the
most common reasons for too tall bedding plants. Plants that are shade
by old plastic, neighboring plants, or hanging baskets tend to stretch.
Lack of ventilation on clear days and resulting heating will increase
the difference between the day and night temperature and cause plants
to grow taller. Some of the factors interact to encourage development
of tall plants (e.g., low light and poor ventilation).
PGRs may be helpful in overcoming some of these problems, but too much reliance on PGRs is potentially costly in terms of material and labor. Also, because PGRs are treated as pesticides and have assigned re-entry intervals, frequent use of PGRs may disrupt other work in some greenhouse operations. Like pesticides, PGRs need to be used wisely and not as substitutes for good cultural practices.
Growth Retardants for Bedding Plants
There are no recently introduced, new PGRs for floriculture crops.
However, a relatively recent change in the labels is that they may
used generally on all bedding plants rather than being limited to
a few species specifically listed on the label. This is generally
a positive development for the grower, but it requires the grower
to take responsibility for trialing the material on species not listed
on the label or in a local reference book. Table 1 lists the five
PGRs for bedding plants.
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Table 1. Growth retardants for bedding
plants
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Chemical
|
Method
|
"Activity"
|
REI
|
| A-Rest | Spray & drench | Low-moderate | 12 |
| B-Nine | Spray only | Low | 24 |
| Bonzi | Spray & drench | High | 12 |
| Cycocel | Spray | Low | 12 |
| Sumagic | Spray, drench, & pre-plant surface | High | 12 |
A foliar spray is the preferred method of applying PGRs to bedding plants in flats, but growth medium drench can be used on pots. Drench applications of B-Nine have no effect on plants and Cycocel drench is less effective than a foliar spray.
Sumagic can be applied as a pre-plant spray made to the surface of the growth medium. This may be a more efficient way of applying PGR. A-Rest and Bonzi can also be applied by subirrigation. The efficacy of applying PGRs by subirrigation needs more research before it can be widely recommended.
The term "activity" refers to the general sensitivity of plants to the PGR and the persistence of the growth inhibiting effect after application. The height of plants treated with low activity PGRs is not greatly affected by variations in the spray or drench volume. The persistence of the growth inhibiting effect after application is short (2-3 weeks). Plants are very sensitive to high activity PGRs. Small variations in spray or drench volume can have significant effects on height. The growth inhibiting effect after application, especially by drench, is very persistent. What this all means to a grower is that the risk of undesirable side effects is much greater with Bonzi and Sumagic than A-Rest, B-Nine, or Cycocel. More attention to the details of rate, application volume, timing, and possible reapplication is required to successfully use high activity PGRs.
PGR Rates to Use
Choosing a rate (ppm) to apply starts with a check of the label for
the recommended rate for the plant you wish to treat or a crop production
such as the New England Floricultural Recommendations. In the
absence of a specific recommendation the grower must run a trial.
A trial should be replicated and consist of a small number of plants
rather than whole crop! The general rates commonly used for plugs
(Table 2) and flats or other containers (Table 3) are the starting
point for a trial. Its only common sense to test the lowest rates
first, especially with Bonzi and Sumagic.
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Table 2. PGR rates for bedding plant
plugs
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| Chemical | Spray rates (ppm) | Precautions |
| A-Rest | 3-35 | Use 5 ppm as a trial rate. |
| B-Nine | 1500-2500 | --- |
| Bonzi | 1-20 | NO
on vinca and begonia. NO drench. |
| Cycocel | 400-750 | Low rate in north. |
| Sumagic | 0.5-10 | Plugs are highly sensitive. |
Applying PGRs
Normally PGRs are applied early in the growth of bedding plants and
seedlings. Timing is related to stage of plant development and not
weeks from seeding or transplanting. Timing can be fairly specific
for some species and the product label or other reference should be
checked. In general plugs are treated when they have developed their
first set of true leaves. Young plants after transplanting are generally
treated when they begin to grow or when they are 2" tall or 2" wide.
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Table 3. PGR rates for bedding plant
flats and containers
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| Chemical | Rates & method (ppm) | Precautions |
| A-Rest | 6-66,
spray 1-2, drench |
15 ppm for trial sprays. |
| B-Nine | 1500-2500 | Spray only. |
| Bonzi | 5-90,
spray 0.5-1, drench |
15 ppm for trial sprays in north. NO on vinca and begonia. |
| Cycocel | 800-1500 spray | 1250 ppm for trial. Higher rates may be needed. |
| Sumagic | 1-50,
spray 0.5-2, preplant surface 0.1-2, drench |
5-15 ppm for trial rate sprays. NO on begonias. |
PGRs must be applied uniformly in order to cause uniform inhibition to plant growth. For bedding plants in flats PGRs are applied by foliar spray application; drench application can be used for bedding plants in pots and hanging baskets. Sprays should be applied on the basis of volume of spray per area bench) to achieve uniform application (Table 4). Never use a "spreader-sticker" unless directed to by the label. Drench applications are made on the basis of an exact volume per pot to get a uniform effect. Actual drench volume depends on pot size (Table 5). Of course, more labor is required to make drench applications compared to sprays.
Normally PGRs are applied during cloudy weather. The effectiveness of Cycocel and B-Nine sprays is increased when conditions favor slow evaporation. Plants to be sprayed should also be fully turgid when PGRs are applied (Cycocel injury is most common on water-stressed plants).
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Table 4. PGR spray coverage rates.
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|
| Chemical | Quarts/100 sq. ft. |
| A-Rest | 2 |
| B-Nine | 2 |
| Bonzi | 2-3 |
| Cycocel | 2-3 |
| Sumagic | 2 |
When drench applications are made the growth medium all pots to be treated should be at the same moisture level to get uniform results. Also, response to drench application is affected by the condition of the roots. A poor root system may limit the uptake of chemical. Extra care needs to be taken when drenching large containers like hanging baskets with more than one plant. Drench solution should applied so each plant is treated equally and the resulting growth inhibition will be the same.
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Table 5. Drench volume for PGRs.
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Drench
volume (fl. oz./pot)
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| Pot size | A-Rest | Bonzi | Sumagic | Cycocel |
| 4-inch | 2 | 2 | --- | 3 |
| 6-inch | 4 | 4 | 4 | 6 |
| 8-inch | 10 | 10 | --- | 8 |
Other Bedding Plant Growth Regulators
Other materials are available to treat bedding plants for reasons
other than height control.
Pistill. "Pistill" is the new name for Florel. This PGR is an ethylene-generating compound used to stimulate branching. Pistill can substitute for hand pinching ivy geranium, cutting geranium, lantana, verbena, and vinca vine. Apply 500 ppm at the normal time of pinching and at least 6-8 weeks before bloom.
Fascination. This is one of the new PGRs introduced to increase the postharvest quality of plants. It is anti-ethylene compound combining gibberellic acid and benzyladenine. Right now it is only labeled for preventing lower leaf yellowing on Easter lilies and other potted lilies. The manufacturer expects that the label will be expanded to include some bedding plants species sensitive to ethylene.
Ethylbloc. This is another antiethylene compound which can prevent flower drop and leaf yellowing on bedding plants. The unique feature of this chemical is that it is applied as a gas to plants in an enclosed environment (e.g., tight greenhouse, special growth room, back of a truck). Quite a number of plants are listed on the Ethylbloc label including begonia, fuchsia, geranium, impatiens, salvia, and snapdragons. These species are quite sensitive to ethylene and often drop flowers or develop yellowed leaves during shipping.
Details about Ethylbloc and Fascination were discussed by Susan Han of Plant and Soil Sciences in recent issues of Floral Notes (May-June 2000 and January-February 2001, respectively).
References
Han, S.S. 2001. Fascination, a new product for preventing leaf yellowing
in potted lilies. Floral Notes. 13(4):2. (January-February).
Han, S.S. 2000. Understanding ethylene and Ethylbloc. Floral Notes. 12(6):10-11. (May-June 2000).
Lopes, P. And L.B. Stack (eds.). 2001. New England Floricultural Recommendations 2001-2002. New England Floriculture, Inc.
McAvoy, R.J. 2001. PGRs for spring crops. Yankee Grower. 3(1):3-5.
Websites where you can download PGR labels in PDF format using Adobe Reader.
www.ethylbloc.com (Ethylbloc)
www.montereylawngarden.com
(Pistill)
www.olympichort.com (Cycocel)
www.sepro.com (A-Rest)
www.uniroyalchemical.com
(B-Nine, Bonzi)
www.valent.com (Sumagic, Fascination)
Douglas Cox
Plant and Soil Sciences
University of Massachusetts
Amherst, MA 01003
Updated 3/02
