J. Bryan Unruh, Laurie E. Trenholm, Erin E. Harlow, Ramon G. Leon,
Weeds can be defined as unwanted plants or plants growing out of place. Proper identification and some understanding of how and why weeds are present in a lawn are important when selecting the best control strategy. Knowing if weeds were previously present in an area also helps homeowners prepare control measures in the future. Weed control should be a carefully planned and coordinated program.
The first and best method of weed control begins with proper management practices that encourage a dense, thriving turf. Healthy turf shades the soil so sunlight can’t reach weed seeds ready to germinate. A thick turf also minimizes the physical space available for weeds to become established. Several management practices promote a healthy, dense grass and help reduce the cost of weed control while maintaining the aesthetics of the lawn.
The first management decision is selecting the best turf species or variety for the site. For example, moderately shaded areas support only a few turfgrass species. Growing bermudagrass or bahiagrass under any shade results in thin, weak turf that is very susceptible to weed invasion. Alternate grass choices for shady conditions include certain cultivars of St. Augustinegrass, zoysiagrass, and, to a lesser degree, centipedegrass. It is important to note that no grasses perform well in heavily shaded areas, and an alternative to turf, such as a groundcover, should be considered.
Proper fertilization, watering, mowing, and pest control are required to produce a dense turf that can prevent weed infestation. If turf is over- or underwatered, over- or underfertilized, or mowed too low or too infrequently, the turf is weakened and weeds move in. Sharpening the mower blades can reduce turf damage and the chances for weed invasion. It is very important to understand that weeds don’t create a void; they fill a void.
Turf damaged by foot or vehicle traffic invites weeds. Turf growing in soil compacted by excessive traffic, especially when the soil is saturated with water, cannot develop a healthy root system as well as it can under noncompacted soil conditions. Goosegrass, annual bluegrass, dollarweed, and certain sedges grow well in compacted and/or continuously wet soil. The first step to managing weeds in such a situation is to alleviate soil compaction and/or the saturated condition.
Pest damage makes the turf more susceptible to weed infestations by creating spaces for weed establishment and reducing the turf’s competitive ability. Specifically, tunneling from mole crickets disrupts the soil surface, enabling weed seeds to readily germinate. Other insects and diseases can cause areas of turf to become bare. These open areas are usually slow to recover and enable weeds to become established and grow quickly. High nematode populations also thin the turf and make it less able to recuperate from environmental stresses. Weeds that often become established in nematode-infested soil include spotted spurge and Florida pusley.
It is extremely important to prevent the introduction of weeds into lawn areas. If one can prevent weed establishment, control practices are not necessary. Areas adjacent to turf areas that are hard to mow, such as fence rows or ditch banks, often support a weed population. These weeds normally produce seed that infests the nearby turf. These areas should also receive weed management attention. Another good practice is to wash off mowers and trimmers used in weed-infested areas before mowing or trimming in weed-free areas. Similarly, rototillers should be thoroughly cleaned prior to and after use to minimize weed seed dispersal in the soil. Yard clippings that contain weeds should be properly disposed of or composted to reduce the possibility of contamination. These sanitation practices are also important to prevent the introduction of other turfgrass species, which might reduce the purity and quality of the lawn. If construction or renovation is planned, it is important to use weed-free soil. When planting, use only certified seed or weed-free sod to minimize weed spread. It is not unreasonable to request a tour of the sod farm where the sod will be purchased in order to inspect grass quality.
Mowing—Many annual weeds can be eliminated if proper mowing height and frequency are maintained. Mowing prior to weed seedhead formation also reduces weed seed reserves. Some weeds, however, readily establish below the desired mowing height. Management of these weeds requires additional control methods. As a rule of thumb, when mowing, remove only a third of the turf’s leaf blade at a time. This maintains a turf canopy that can grow vigorously while shading weeds and suppressing their growth.Hand-pulling or rogueing—If only a few weeds are present, it’s simpler and less time-consuming to physically remove the plant, but if weeds are a major problem, other alternatives should be considered. When hand-pulling weeds, it is critical to remove the roots and underground parts to ensure the weeds will not survive and produce new shoots. Weeds such as Florida pusley and Virginia buttonweed might require the use of a small shovel to properly dig out the roots.Smothering—Smothering with nonliving material to exclude light is effective in certain areas where turf is not grown, such as flower beds, foot paths, or nurseries. Materials used for this include mulch, leaves, rocks, and plastic film. To be effective, a minimum of 2 inches is required when using natural mulch materials. As an alternative, synthetic mats impregnated with herbicides can be used. These provide long-term weed control when properly used, but care must be taken to minimize the risk of desirable plant roots encountering these layers.Herbicides—A herbicide is any chemical that injures or kills a plant. Herbicides are safe and effective if product label instructions are followed. Label instructions include proper application timing, rates, and application methods. Herbicide application timing during the plant’s growth cycle is important. For example, weeds not controlled prior to seedhead formation are harder to control and are able to deposit new seeds in the future. Herbicides are classified based on how and when they control weeds.
Selective—A selective herbicide controls certain plant species (weeds) without seriously affecting the growth of other plant species (desired turfgrass). Most herbicides are selective herbicides. Herbicides are selected based on the turfgrass species (Table 1). This simplifies the application because the herbicide can be applied over the turf without injuring it.Nonselective—Nonselective herbicides control green plants regardless of species. They are generally used to kill all plants, such as in the renovation or establishment of a new turf area, as a spot treatment, or to trim along sidewalks. Glyphosate (Roundup), glufosinate (Finale), and diquat (Reward) are examples of nonselective herbicides. These herbicides injure turf. Therefore, in an established turf, their use is usually limited to spot applications for weedy patches, which must be followed by reseeding or resodding the treated area.Contact—Contact herbicides affect only the portion of green plant tissue contacted by the herbicide spray. These herbicides are not translocated or moved in plants’ vascular systems. Therefore, they do not kill underground plant parts, such as rhizomes or tubers. Repeat applications are often needed with contact herbicides to kill regrowth from these underground plant parts. Examples of contact herbicides include bentazon (Basagran), glufosinate (Finale), and diquat (Reward).Systemic—Systemic herbicides are translocated in the plant’s vascular system. The vascular system transports the nutrients and water necessary for normal growth and development. Systemic herbicides generally are slower acting and kill plants over a period of days. Examples of systemic herbicides include glyphosate (Roundup), 2,4-D, dicamba (Banvel), imazaquin (Scepter), metsulfuron (Bonus S), and sethoxydim (Segment).
Many herbicides are formulated with a fertilizer as the carrier. Fertilizer/herbicide mixtures allow a “weed-n-feed” treatment in the same application to the turfgrass. These materials should only be used when a lawn has a uniform weed population. If weeds exist only on a portion of the lawn, it may not be necessary to apply a “weed-n-feed” product to the entire lawn. If the situation warrants the use of a “weed-n-feed” product, it is important to determine if the manufacturer’s recommended application rate supplies the amount of fertilizer needed by the turfgrass and the amount of herbicide required for weed control. Supplemental applications of fertilizer or herbicide may be required if the fertilizer/herbicide product does not supply enough fertilizer or herbicide to meet the fertility needs of the turfgrass or the amount of herbicide needed for weed control. “Weed-n-feed” products should be avoided in north Florida for control of summer annual weeds for the first application. The timing of the preemergence herbicide (March 1) does not coincide with the recommended timing for the first fertilizer application of the season (April 15). Turfgrass fertilizer/herbicide products should be used with caution near ornamentals. Products containing dicamba, metsulfuron, or atrazine can be absorbed by the roots of ornamentals and cause severe injury. Do not apply products that contain these chemicals over the root zone of ornamental trees and shrubs.
An adjuvant is a spray additive that enhances the performance or handling characteristic of an herbicide. Adjuvants include surfactants, crop oils, and crop oil concentrates, which if used indiscriminately may result in severe turfgrass injury or decreased herbicide performance. These additives do not improve the performance of preemergence herbicides and are used only with postemergence herbicides absorbed through the leaf. The herbicide label will indicate whether a spray additive is required.
A nonselective herbicide should be used to kill existing weeds such as contaminant bermudagrass or nutsedge, which must be eradicated prior to grass establishment. These nonselective herbicides control only emerged plants. For best results, apply two treatments of a nonselective herbicide 14 days apart.
Do not apply preemergence herbicides prior to or immediately following seeding of grasses such as common bermudagrass, bahiagrass, centipedegrass, or ryegrass (winter overseed). Because of their root-pruning or seedling-kill modes of action, preemergence herbicides may be applied only after seeded grasses have emerged and are well established. A rule of thumb for timing is to make an application after the desired grasses are 2–3 inches tall or have begun to spread by runners (stolons). At this time, the preemergence herbicide may be applied at half the normal rate of application. Postemergence herbicides may also be applied at half the rate at the same growth stage. If a preemergence herbicide has been applied, wait 9 weeks before attempting seeding. Use a small test area to determine when the herbicide residues permit seedling growth.
After planting, preemergence herbicides may be applied at half the normal rate recommended for established grasses following signs of new growth. Water should be applied immediately to the treated areas to activate the herbicide. If herbicide is not applied soon after planting, weed seedlings will emerge and will not be affected by preemergence herbicides. If over half the recommended herbicide rate is applied, root pruning may result to the turf. Postemergence herbicides, in general, should not be applied until the grass is visibly growing and spreading. Mowing helps control most broadleaf weeds until the lawn is well established. Spot spraying of weeds should be practiced until establishment occurs.
In established turfgrass, members of the dinitroaniline herbicide family (e.g., oryzalin [Surflan], benefin and trifluralin [Team Pro], prodiamine [Barricade], or pendimethalin [Pendulum, Pre-M]) control annual grass and some broadleaf weed species when applied prior to weed seed germination. Bensulide (Bensumec) and dithiopyr (Dimension) also provide preemergence annual grass and broadleaf control. Atrazine and isoxaben (Gallery) primarily provide preemergence control of broadleaf weeds. All these herbicides must be activated with irrigation or moderate rain within 2 days after application so they will be in direct contact with the germinating seeds and emerging weed seedlings. If the soil is dry, their weed-killing effect is greatly limited. On the other hand, if the turf is overirrigated, most preemergence herbicides will be moved below the soil layer where the germinating weed seeds are, reducing weed control.
Broadleaf weed control—Broadleaf weeds in turf have traditionally been controlled with members of the phenoxy herbicide family (e.g., 2,4-D, MCPA, and mecoprop) and the benzoic acid herbicide family (e.g., dicamba). All are selective, systemic, foliar-applied herbicides; few broadleaf weeds, especially perennials, are controlled with just one of these materials. Therefore, these materials are commonly found in three-way herbicide mixtures, such as Trimec Southern, Ortho Weed-B-Gon MAX, and Spectracide Weed Stop for Lawns. Products containing metsulfuron (e.g., Bonus S) can also provide effective control of broadleaf weeds. Additionally, repeat applications spaced 10–14 days apart are usually necessary for satisfactory weed control with any of the herbicides mentioned above.Grass weed control—Postemergence control of grassy weeds is a major challenge because few products selective to the turf also kill this type of weed. For this reason, preemergence control is key for successful management of grassy weeds. However, a few alternatives can be used when postemergence control is necessary. In centipedegrass, grass weed control can be achieved with sethoxydim, an herbicide sold under the trade name Segment. Additionally, atrazine-containing materials (e.g., Hi-Yield Atrazine Weed Killer, and Ortho’s Weed B Gon) help control young grassy weeds with the added benefit of controlling many young broadleaf weeds in St. Augustinegrass and centipedegrass.Nutsedge control—Yellow and purple nutsedge (often inappropriately called nut-grass) are the predominant nutsedge weed species in turfgrass. Other, more local members of the Cyperus genus include annual or water sedge, perennial and annual kyllinga, globe sedge, Texas sedge, flathead sedge, and cylindrical sedge. Path or slender rush, a member of the rush (Juncus) family, also can occur in some turf situations. These weeds generally thrive in soils that remain wet for extended periods of time because of poor drainage or excessive irrigation. The first step in nutsedge control is to correct the cause of continuously wet sites. Do not overirrigate an area and, if necessary, provide surface and subsurface drainage. Selective yellow nutsedge control is available with bentazon, an herbicide found in products such as Basagran T/O. Bentazon is a contact material, meaning it controls only those portions of the weeds treated with it. Complete coverage of weeds is therefore necessary for greatest bentazon activity. Even with good herbicide coverage, regrowth normally occurs from the roots and tubers, and repeat applications are necessary. Purple nutsedge can be controlled with herbicides containing either halosulfuron or imazaquin, sold as SedgeHammer and Image or Scepter, respectively. As with bentazon, repeat applications—possibly over several years—are required to control all the underground reproductive parts of purple nutsedge. These herbicides also control other less-aggressive sedges (e.g., cocks-comb and green kyllinga, annual sedge), and they can be used in most warm-season turfgrass species.
Proper rates—To avoid injury (e.g., yellowing, browning, stunting) to turfgrasses and ornamentals, apply the proper rate of herbicide. Mark off 1,000-square-foot areas to apply herbicides. Apply herbicides in ½–1 gallon of water per 1,000 square feet (approximately 20–40 gallons per acre).Applicators—For increased application accuracy, air pressure-type sprayers are preferred over hose-end-type sprayers. For herbicides formulated as granulars, use a spreader and calibrate properly.Vapor drift—Volatile vapor drift from 2,4-D esters or spray drift from 2,4-D amines, dicamba, or other phenoxy or benzoic acid compounds may damage sensitive plants such as ornamentals, trees, vegetables, or fruits. Amine forms of phenoxy herbicides can be used with greater safety near sensitive plants, but caution should still be exercised.Equipment—Do not apply insecticides, fungicides, or other herbicides with equipment used for 2,4-D because it is difficult to remove this herbicide from most sprayers.