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Monday, November 24, 2014 Vol. 78 No. 7


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PGRs: Control Your Quality
| Dr. Royal Heins and Paul Pilon
  
>> Published Date: 8/27/2014
 
Plant growth regulators (PGRs) are most commonly utilized by growers for controlling stem elongation, which results in shorter plants. However, PGRs are also used to encourage rooting, promote stem elongation, abort flower buds and for promoting branching. Many growers have improved the quality and performance of their liners by using plant growth regulators to promote or inhibit plant growth and developmental responses.

There’s much information on using growth regulators for controlling plant height. This article addresses the use of PGRs for the promotion of root and lateral shoot development, the inhibition of flowering and their effects on shoot elongation. Our focus is how growers can utilize PGRs in liner production to build better starter plants.

Rooting
We often don’t think of using growth regulators in the rooting process, but growers commonly use auxins to promote root development on cuttings and auxins are a type of PGR. While many plants don’t require the use of a rooting hormone to uniformly and promptly root, other plants benefit greatly. 



Figure 1. Verbena Lanai Upright Bright Rose with a 500 ppm Florel and 2,500 ppm B-Nine application.
Figure 2. Pansy Cool Wave Yellow with 500 ppm of Florel and 100 ppm of Configure 1 and 3 weeks after transplant.
Figure 3. Potunia with and without B-Nine and Florel overspray.   


We compiled two tables (Table 1 and Table 2) showing our thinking on the benefit of using rooting hormones on various species of annuals and herbaceous perennials.

Species listed under the Low category are plants that root so readily that a rooting hormone isn’t needed and/or provides little value. Plants listed under the Medium category will root without using rooting compounds, but will generally root faster or more uniformly if an auxin treatment is provided. Finally, annuals and perennials listed in the High category are species that are more difficult to root and there’s higher value of using rooting hormones.

Rooting hormones are most commonly applied as a dip to the basal ends of the cuttings using either powder or liquid forms of auxins, such as IAA, IBA, KIBA or NAA, or as a foliar spray with the auxin generally being derived from KIBA. The basal dip application concentrations for annuals generally range between 1,000 and 1,500 ppm. Perennial rates are typically higher and range between 500 and 2,000 ppm. Spray application concentrations for both annuals and perennials typically range between 50 and 300 ppm.

The exact application rate for both basal dip and spray applications varies widely by plant species and its ability to root. While not common for annual cuttings, some perennial species, such as lithodora, root much better when they’re dipped in a KIBA solution in the 1,000 to 2,000 ppm concentration range prior to sticking. Such cuttings should be rinsed just after sticking and prior to drying to avoid phytotoxicity.

Lateral shoot development
When transplanting liners, it’s advantageous to utilize liners that are both compact and well branched. Growers obtain compact plants either by using PGRs, trimming the liners prior to transplanting or a combination. 

Historically, ethephon under the trade name of Florel (also available as Collate and Verve) has been used to promote branching in various plants. Effective application rates for ethephon on the plants responsive to it typically range between 300 to 500 ppm. Research has shown that ethephon by itself isn’t always effective at promoting branching with many plant species.

In recent years, the cytokinin benzyladenine (Configure or RiteWay) has been shown to promote basal and lateral branches in a wide range of annuals and perennials. In fact, benzyladenine has become the industry standard for promoting branches on a wide range of perennial species. Effective application rates for benzyladenine on plants responsive to it ranges between 100 to 600 ppm.

In 2010, the tank mixture of ethephon and daminozide (B-Nine or Dazide) was applied to verbena by Maury Mairs and Patty Loosigian at Battlefield Farm in Virginia. The results of this application were amazing—the liners were well branched and compact without a mechanical pinch (Figure 1). Subsequent trial applications of 500 ppm ethephon in combination with 2,500 ppm daminozide gave positive and similar results on many other species.

Since then, it’s become a standard practice by many growers to apply this tank mix to all liners once the plants have roots that have reached the edge of the media in the liner cell. Applications should NOT be made before the cuttings have rooted, as Florel has been shown to delay rooting. The application volume should be sufficient to wet the foliage completely without drenching the soil (typically 1.5 qts. per 100 sq. ft. is sufficient).

It’s not clear why the tank mix of ethephon and daminozide is so much more effective in promoting branching than when either PGR is applied independently. After observing the response of numerous plants to the ethephon and daminozide tank mixture, the question has been asked if ethephon mixed with other growth regulators is synergistic. When ethephon is mixed with the cytokinin benzyladenine, a similar synergistic response has been observed (Figure 2).

Flowering
Most growers propagate the majority of their annuals and perennials using unrooted cuttings (URCs). With many plant species, the URCs arrive in the vegetative form; however, there are some species that flower readily and the cuttings are often received with various stages of flower buds already present. For example, zonal geranium cuttings generally arrive with flower buds present on the URCs. Ethephon is effective at aborting flowers in geraniums, but applying ethephon to stock plants so vegetative cuttings could be shipped is problematic, as it results in residual ethylene release by the cuttings during shipment and subsequent leaf chlorosis. 

Therefore, plant species where the cuttings arrive with flowers already present or that readily initiate flowers—such as zonal geraniums, double flowering impatiens and petunia—often benefit from ethephon applications during the liner phase. The tank mixture of ethephon and daminozide on these crops has been very advantageous at promoting branching, reducing plant height and also aborting the flowers (Figure 3). 

Shoot elongation to assist in pinching
Pinching of some species, such as osteospermum, is problematic, as the growing tip or meristem is located low in the leaves. Workers often miss a percentage of plants when pinching and mechanical mowing can result in excessive leaf removal.

One option is to promote shoot elongation to make the pinching process easier. Gibberellins are hormones that promote cell elongation and, therefore, shoot elongation. GA4+7 (Fascination or Fresco) can be applied to promote elongation about five days before the desired pinch date to assist with pinching. Rates used on annuals, such as osteospermum and poinsettia, typically are 5 to 10 ppm.

Improving the success of PGRs during liner production
The majority of the research that we’ve participated in indicates that each plant species (and sometimes cultivars within the same species) responds differently to branching compounds and the rates that have been applied. Research results also indicate that multiple applications of lower rates usually provide slightly better results than when a single higher rate application is applied. 

Greater results are also obtained when these products are applied to plants that are actively growing with roots at least visible on the outside of the root ball. Branching compounds should be applied using a sufficient application volume (usually 1.5 to 2.0 qts. per 100 sq. ft. of production space) and at a time of day where the spray solution can remain on the leaves for at least four hours. Always test small blocks of plants before making applications over an entire crop and apply PGRs according to the directions on each product’s label. GT

Table 1   
Annual Species   
Benefit of using rooting hormone in propagation
Abutilon    Low
Alternanthera    Medium
Angelonia    Medium
Argryanthemum    Medium
Bacopa    Medium
Begonia - hiemalis    Medium
Begonia - Reiger    Medium
Begonia - Rex    Medium
Bidens    Medium
Bougainvilla    Medium
Brachycome    Medium
Bracteantha    High
Calibrachoa    High on certain cultivars
Calocephalus    Medium
Chamaesyce hypericifolia
(Euphorbia)    Medium
Cleondendrom    Medium
Coleus    Low
Crossandra    Medium
Cuphea    Medium
Dahlia    High
Diascia    Low
Dipladenia    Medium
Dracaena    High
Fuchsia    Medium
Gazania    Medium
Geranium - Regal    High
Geranium - Zonal    Medium
Helichrysum    Medium
Heliotropium    Low
Impatiens - Double     Low
Impatiens - New Guinea    Low
Ipomoea    Low
Lobularia    Medium
Lophospermum    Medium
Mandevilla    High
Nemesia    High
Osteospermum    High
Oternaria    Medium
Pedilanthus    Medium
Perricalis    High
Petchoa    Low
Petunia    Low
Phlox drummondii    High
Plectranthus    Low
Plumbago    Medium
Poinsettia    High
Portulaca    Low
Pseuderanthemum    Medium
Santolina    Medium
Scaevola    High
Scoparia    Medium
Setcreasea    Low
Torenia    Medium
Verbena    Low
Vinca (Catharanthus)    Medium
Vinca major    Medium

Table 2   
Perennial Species
Benefit of using rooting hormone in propagation
Achillea    Low
Ajuga    Low
Artemesia    Medium
Artemesia - Silver Mound    Low
Baptisia    High
Buddleia    Medium
Campanula    Medium
Caryopteris    Medium
Ceratostigma    Medium
Coreopsis    Medium
Delosperma    Medium
Dianthus    High
Erysimum    Medium
Euonymus    Medium
Eupatorium    Medium
Euphorbia     High
Gaillardia    Low
Galium    Low
Geranium     Medium
Gypsophila    High
Hedera    Medium
Helenium    Low
Heliopsis    Medium
Heuchera    High
Hibiscus    Medium
Hydrangea    High
Hypericum    Medium
Iberis    High
Lamium    Low
Lantana Bandana
(maybe others)    Medium
Lavender    Medium
Leucanthemum    Medium
Lithodora diffusa    High
Lobelia    Medium
Lysimachia    Low
Malva    Medium
Monarda    Low
Nepeta    Low
Pachysandra    Low
Penstemon    Medium
Perovskia    Low
Phlox paniculata    Medium
Phlox subulata    Medium
Rosemary    Medium
Salvia    Medium
Scabiosa    Medium
Sedum    Low
Thymus    Low
Veronica    Low
Vinca Minor    Medium
Viola     Medium
  

Dr. Royal Heins is a Technical Specialist with Dümmen NA, Inc. and can be reached at r.heins@dummengroup.com. Paul Pilon is a horticultural consultant, owner of Perennial Solutions Consulting, author of “Perennial Solutions: A Grower’s Guide to Perennial Production” and editor of the Perennial Pulse e-newsletter. He can be reached at (616) 366-8588 or paul@perennialsolutions.com.



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