4.3 Annual Bluegrass Seedhead
Suppression
4.4 Enhancing Annual Bluegrass
4.5 Selective Annual Bluegrass Suppression
4.1 Overview
Plant growth regulators (PGR) are organic compounds, either synthesized in the plant or as an applied substance, that in very low concentrations can either increase or decrease plant growth. New York State regulates PGR’s as pesticides and therefore, they are registered with the EPA.
Plants create biomass (leaves, stems, roots, flowers) by producing new cells from existing cells that divide (cell division). Cell division increases the number of cells. Once the plant has new cells, these cells must stretch or elongate to make new organs (leaves, roots, flowers) by a process called cell elongation. These processes are indirectly regulated by a plant hormone, gibberillic acid (GA). As GA levels increase, growth (division & elongation) occurs and the plant creates new biomass.
Turfgrass growth regulation began as an idea some 50 years ago in an effort to reduce mowing. One of the first products used successfully in turf was maleic hydrazide (MH). MH suppressed foliar growth and seedhead formation of roadside vegetation. More recently, mefluidide has been used primarily for Poa annua seedhead suppression on golf courses. Mefluidide is absorbed by the leaves, most effectively at the base of the leaves, and does not move through the plant. This makes thorough spray coverage essential. Once it penetrates the leaf it begins to primarily affect cell division with a lesser influence on cell elongation. Consequently, when it contacts a flowering stem (Poa seedhead) during formation, it causes it to distort and prevents seedhead emergence from the leaf sheath. Products with this activity are classified as Type I growth regulators, of which mefluidide is the most common.
Type II growth regulators act by influencing cell elongation, primarily through inhibiting GA synthesis. Products in this class include flurprimidol, paclobutrazol, ethephon and trinexapac-ethyl. Because these products primarily affect cell elongation and not division, the number of new cells is only slightly reduced while their ability to elongate is significantly altered. Increased number of smaller cells explains the altered morphology of the turf leaves (wider leaf blades) and the short stumpy appearance of the plants (reduced internode length – the distance between new leaves). There is also some experimental evidence that indicates stolons of treated plants become more prostrate and rosette-like (like a witch’s broom).
Flurprimidol and paclobutrazol are both primarily root absorbed while trinexapac and ethephon are foliar absorbed. This is a significant strategic aspect in terms of the length and flexibility of regulation. The other significant factor in the use of PGRs is that they exhibit different degrees of regulation depending on the turf species.
The use of growth regulators in turf can cause significant reductions in turfgrass quality if not applied at the proper timing and at the proper rate to the proper turfgrass species, much like an herbicide. The most common uses of plant growth regulators are for mowing management, annual bluegrass seedhead suppression, and to both enhance and selectively suppress and reduce populations of annual bluegrass.
4.2 Mowing Management
Plant growth regulation to reduce elongation of turf leaf blades can extend the time periods between mowing. Theoretically, this could reduce mower wear and tear, reduce fuel consumption, and minimize clipping handling problems.
The effective use of plant growth regulators for mowing management depends on many factors: timing of the application (the earlier in the season the PGR is applied the greater the reduction), the turf species being treated (generally ryegrass and tall fescue require higher rates than Kentucky bluegrass and creeping bentgrass), and the rate and frequency of application.
In general, plant growth regulators can reduce mowing requirements by 40 to 60 percent without significant reductions in turfgrass quality. Environmental stress such as heat or cold can compromise turfgrass quality during regulation and should be considered prior to implementing a mowing management program.
4.3 Annual Bluegrass Seedhead
Suppression
As a winter annual weed, annual bluegrass is triggered in the spring to shift emphasis from vegetative growth (leaves, stems, roots) to reproductive growth (flowers that bear seedheads). This shift has biological and physical consequences. Biologically, tillers that produce a seedhead will die off resulting in a natural thinning of the stand. Physically, seedhead production when plants are mowed at or below 1/8 inch reduces the playing quality of putting surfaces.
There is a continuum of life cycle types of annual bluegrass found on golf courses. It ranges from the weedy winter annual type that grows in clumps and produces enormous amounts of seed to the perennial type that grows laterally and produces less seed. Putting greens in northern climates consist of annual types for several years and then almost exclusively perennial types after 15 to 20 years.
The key to high quality annual bluegrass putting surfaces in the spring is effective seedhead suppression. Specific plant growth regulators are able to suppress the seedhead and not kill the plant. In fact, studies have found that by not producing seedheads the plants are able to divert energy that would be used to form a seed and use it for overall plant health.
The traditional method of seedhead suppression in the spring in northern climates is performed with mefluidide and ethephon. Independent of the product used for suppression, application timing is the critical factor that determines the intensity and duration of seedhead suppression.
Ideal timing for seedhead suppression with ethephon appears to be between 400 and 600 base 32 growing degree days and ideal timing for mefluidide is 500 to 650. The inclusion of trinexapac in a tank mix combination seems to extend the application window as well as the duration of suppression with both products. In most areas of New York, only two applications will be necessary for adequate suppression.
Mefluidide treated putting greens often sustain some injury, mostly to creeping bentgrass. Tank mixing mefluidide with iron generally reduces bentgrass injury; however, mefluidide rates often need to be increased to compensate for slight antagonism. Also, tank mixing mefluidide or ethephon with trinexapac has been shown to reduce the incidence of basal rot anthracnose.
Ethephon does not appear to produce the same amount of injury as mefluidide. However, there have been reports of “false crowning” of plants treated more than twice that can increase the likelihood of scalping. Again, tank mixing with trinexapac seems to minimize this problem.
4.4 Enhancing Annual Bluegrass
The predominance of annual bluegrass on golf and sports turf has led many to simply accept its invasion and develop cultural management programs to enhance performance. Annual bluegrass is a shallow-rooted, cool season grass that grows well in spring and fall, but suffers severe summer stress and winter injury. In addition, it is susceptible to a number of fungal diseases that require regular fungicide applications to maintain a quality turf.
Ideal management programs include regular fertilization, especially in
cool months of the year, as well as light and frequent watering practices.
Annual bluegrass will often thrive under normal mowing programs; however,
mowing heights below 1/8 inch have been shown to increase the likelihood of
basal rot anthracnose.
Trinexapac has been shown in many studies to improve the health and performance of annual bluegrass stands. Programs that make multiple low rate applications throughout the season have been shown to be most effective. In fact, it is vital to sustain an application protocol during the season as studies have shown that ceasing applications results in a “growth rebound” and compromises annual bluegrass health.
4.5 Selective Annual Bluegrass Suppression
Plant growth regulators have been shown to reduce annual bluegrass on golf turf without any significant disruption of play or reduction in turf quality. The benefits of less annual bluegrass include reduced winterkill, no unsightly seedheads, reduced N requirement, and a reduced severe disease spectrum.
The Type II PGR’s paclobutrazol and flurprimidol have been shown to be the most effective in reducing annual bluegrass populations over a period of time. Higher cut creeping bentgrass turf on fairways tends to be a more conducive environment for reducing annual bluegrass compared to putting greens and tees with more chronic and focused surface disruption.
The most effective programs include multiple applications throughout the season that provide a cumulative reduction. Flurprimidol and paclobutrazol programs have been shown to reduce fairway populations as much as 70 percent in two years. This type of success is usually achieved when a comprehensive cultural management program of reduced fertility and irrigation plus overseeding programs to favor the more hardy and desirable creeping bentgrass turf are used.
|
Chemical Name |
Objectives |
Turfgrass Species |
Comments |
|
Mefluidide |
Seedhead suppression Mowing management |
Creeping bentgrass Red fescue Kentucky bluegrass Perennial ryegrass |
For ideal seedhead suppression,
time application between 500-650 base 32 growing
degree days. Tank mix with trinexapac to prolong
suppression and minimize stress induced disease.
For mowing management, use lowest labeled rate for Kentucky
bluegrass. |
|
Ethephon |
Seedhead suppression Mowing management |
Creeping bentgrass Kentucky bluegrass Tall fescue Perennial ryegrass |
For ideal seedhead suppression,
time application between 400-600 base 32 growing
degree days. Tank mix with trinexapac to prolong
suppression and minimize stress induced disease.
For mowing management, combine with trinexapac,
avoid thatchy areas, and make no more than six
applications. |
|
Paclobutrazol |
Annual bluegrass suppression Mowing management |
Cool season grasses |
For annual bluegrass suppression, multiple low rate applications
are recommended if turf discoloration cannot be tolerated.
For mowing management, apply after first or second mowing and
one month before high temperature or frost. |
|
Trinexapac |
Annual bluegrass suppression Annual bluegrass enhancement Mowing management |
Creeping bentgrass Kentucky bluegrass Perennial ryegrass Red fescue Tall fescue |
For annual bluegrass suppression in creeping bentgrass,
use highest rate and expect some discoloration. Best conversion achieved in
association with overseeding program.
For annual bluegrass enhancement, light frequent applications to begin after initial mowing and sustained until top growth subsides in early fall.
For mowing management, apply when turf is actively growing and
expect 50 percent growth reduction for 4 weeks with minimal yellowing. |
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