Management of Imported Fire Ants in Livestock Production Systems


Imported fire ants are now a major pest problem throughout the southeastern United States, including in livestock production operations. They are also found in parts of California.

Imported fire ant stings are painful and can cause allergic reactions and even death of livestock and humans.

No methods have been developed to successfully eradicate fire ants, but research may ultimately provide a method to eliminate this pest. Biological control can potentially suppress fire ant populations but will never achieve absolute control. The appropriate fire ant control methods should be determined by the problem that the fire ants cause in a particular area.

This publication provides information to help ranch managers develop integrated pest management (IPM) plans to address imported fire ant problems in livestock production systems. The goal of integrated pest management is to control a pest only when the potential cost of the problem meets or exceeds the cost of the solution. This publication also provides tips to help reduce the cost of fire ant treatments.


Imported fire ants build unsightly mounds that interfere with farm operations.


The Problem

Two species of imported fire ants were accidentally introduced into the southern United States from South America in the early 1900s. The red imported fire ant, Solenopsis invicta, and the black imported fire ant, Solenopsis richteri, interbred and produced sexually active hybrid ants in areas where they occurred together, such as in the northern portions of Mississippi and Alabama and adjoining parts of Tennessee and Georgia.

Imported fire ants have two colony types: the single queen or monogyne type and the multiple queen or polygyne type. Workers in ant colonies with a single egg-laying queen are very territorial and will fight with fire ants from other colonies. Worker ants in colonies with two or more egg-laying queens do not have this territorial behavior. Therefore, these polygyne fire ants occur in much higher densities because the mounds they build can be closer together. More mounds and ants mean more problems in areas infested with the polygyne colonies. The single queen colony is predominant throughout most of the southeastern United States while the multiple queen colony is predominant throughout the eastern two-thirds of Texas.


Cost of the Problem

Types of losses due to fire ants in cattle operations. (Based on a drawing by Charles Barr,Texas A&M University)

In 2003, the U.S. Department of Agriculture estimated that the annual cost of problems caused by imported fire ants in agriculture was $750 million, with $38 million in losses to livestock. Losses occur mainly where ants interfere with activities of man and where ants and vulnerable animals are found together. In some small operations, such as those where profit is not the goal or where the ants’ impact is not a major economic concern, the decision to control ants can be subjective. The cost of eliminating ants from an entire operation may not be justified by the economic losses caused by fire ants, particularly in large production farms and ranches. In these cases, the better option is to identify and treat only those areas where control costs are justified.

By analyzing where imported fire ants are causing problems, managers can determine where economic losses occur. The probability of serious incidents, such as livestock injury or death or equipment damage, is low and may rarely or never occur. Losses associated with these events, therefore, need to be adjusted to an annual estimate of cost. Losses that are potentially or historically serious or costly are often fairly specific to certain farming and ranching locations or operations.

Cost of Control

The type of treatment chosen will determine the cost of treating the entire livestock operation. The estimated cost for treatments using broadcast application of conventionally formulated fire ant bait products, such as hydramethylnon (Amdro Pro), pyriproxyfen (Esteem), methoprene (Extinguish) or Extinguish Plus (blend of hydramethylnon and methoprene), is $10-15 per acre which may or may not include the cost of application.

Large fire ant mound in pasture.

In small operations in heavily infested areas, this treatment cost may be negligible. However, in larger operations, this treatment cost may be unacceptably high and not economically justifiable. With the exception of Extinguish, products are generally not approved for all use sites that comprise a livestock operation. In these situations, a better approach to the whole-ranch treatment option is the implementation of more refined, site-specific IPM techniques that can include chemical as well as nonchemical (cultural) methods.

Regulatory Considerations

The U.S. Department of Agriculture’s Animal and Plant Health Inspection Service has developed a quarantine and regulatory program to help prevent spread of this exotic species from infested to non-infested parts of the United States. See latest quarantine map.

If your livestock operation is located in infested counties and materials such as hay or livestock trailers are to be shipped to non-quarantined areas, contact your local Department of Agriculture office for information on how to comply with quarantine regulations. For movement of hay bales, for instance, only bales stored in off-ground locations will be certified as ant free and approved for shipment.

Biological Control Considerations

One reason imported fire ants are so abundant in the United States is that their specific natural enemies, which help keep their population levels in check, were left behind in their native South America. Researchers across the Southeast are committed to introducing biological control agents to help provide sustainable suppression of imported fire ants.

A phorid fly, Pseudacteon curvatus. Photo by Bart Drees.

Species of parasitic flies called phorid flies (from the fly’s scientific family name, Phoridae, in the insect order Diptera), have been released in infested areas of the southern United States. These species include Pseudacteon tricuspis, P. curvatus, P. litoralis, P. nocens, P. cultellatus, and P. obtusus and will possibly include others in the future.

Fire ant decapitated by phorid fly. Photo by Sanford Porter, USDA.

A disease of fire ants called Kneallhazia (=Thelohania) solenopsae is also being established and monitored. Although the impact has yet to be documented, these organisms are capable of sustaining themselves in the environment and of spreading naturally. They are expected to help suppress imported fire ant colonies to some degree. The effect is expected to be similar to that of hot, dry environmental conditions that frequently cause a decline in fire ant populations.

Microbial pathogen Kneallhazia (=Thelohania) solenopsae.

Fire ants do have some natural enemies in the United States. Other ant species, for example, are important predators of imported fire ant queens. They can raid and destroy small imported fire ant colonies and compete for nesting sites and resources. Preservation of these competitor ant species, in addition to conserving introduced and native biological control organisms, will help provide biological resistance to prevent the formation of high densities of imported fire ants. To preserve these competitor species, avoid chemical treatment where populations are historically low, such as fewer than 20 ant mounds per acre. Spot treatment of nuisance mounds in these areas may still be necessary.

Developing a Fire Ant Management Plan for a Livestock Operation

The first step in developing a fire ant management plan for your livestock operation is to decide where you want to control fire ants. Insert economic values in the outline below to estimate the cost of losses in your livestock operation.



Estimated Cost of Loss, Repair, or Treatment

Around the farmstead
Infestation of lawns
Invasion into the home
Medical treatment for people and domestic pets ___________
Electrical and utility equipment damage ___________
Penned livestock
Medical injury or death
Ruined feed and hay
Infested bedding
Equipment replacement or repair
Machinery breakdown (cutter, shredder)
Electrical equipment and water pump damage
Drip irrigation equipment
Hay pastures
Reduced yield from raising cutter height
Time lost unclogging cutter
Infested bales of hay
Medical injury to field workers
Livestock pastures, rangeland
Livestock injury or death
Other losses
Wildlife losses
Exotic game injury or death
Fishing pond access
Enjoyment of outdoor activities
Current treatment and fire ant control costs (product and labor)
Around farmstead ___________
Penned animals, barns, and poultry houses ___________
Hay pastures ___________
Livestock pastures, rangeland ___________
Other farming operations
Field crops
Fruit and nut orchards
Hunting lands
Subtotal (losses and costs) ___________
Estimated benefits from fire ant control
Insect/arthropod infestations affected by fire ants +__________
Total ___________

Create a rough map of your livestock operation or use an aerial photograph. Your operation will include a number of use sites besides pasture and rangeland. On the map, mark the areas where fire ant control is most important to you. Management options are provided below for six use sites.

Cattle operation use sites: (1) farmstead or headquarters; (2) hay pasture; (3) livestock pasture or rangeland; (4) farm pond; (5) orchard; (6) field crops.

A typical map might include the following priorities: the areas around the farmhouse that receive heavy foot traffic or where children play; the area around electrical circuit boxes; the area where frequently used farm equipment is parked outside; and any areas where livestock will be closely confined, particularly in the summer. These areas may include the most valuable hayfields, areas where hay is to be stored, and summer birthing pastures.

The next step is to identify where the fire ant mounds are within what you have designated as important areas. Note the greatest concentrations of fire ant mounds. Classify the marked areas according to how quickly you need fire ant control. For instance, if fire ants are all over your picnic area and your family reunion is in two days, you would want to use a fast-acting individual mound treatment or a fast-acting bait (see below). If your family reunion is in two weeks, you could use a fire ant bait containing a slow-acting insecticide. If your family reunion is in two months, a bait containing an insect growth regulator would be appropriate.

More information on managing fire ants in other areas of the farm can be found in these publications:

Farmstead or Headquarters

Use sites comprising the farmstead or headquarters may include homes, barns, storage buildings, and other structures; electrical and utility fixtures such as air conditioners; and ornamental turf, bedding plant, and vegetable garden areas. The potential for economic loss as well as the loss of enjoyment or access are the greatest and the tolerance for imported fire ants is the lowest in these areas. Alternatives for fire ant control in these locations are the greatest because these are not necessarily agricultural lands.

image of fire ant bait being broadcast


The two-step method of fire ant control is the most suitable for treating the acre or so that constitutes the farmstead or headquarters. This method relies on the broadcast application of a bait-formulated product once or twice per year. More labor-intensive, expensive but faster-acting mound treatments are used to treat only nuisance ant mounds that may develop between broadcast bait applications (see Bait Basics). This approach can provide about 90 percent control that can be maintained at relatively low cost.

Man applying a mound drench in a pasture.

Alternatively, a contact insecticide, such as a pyrethroid liquid or granular formulation, examples are bifenthrin, gamma-cyhalothrin, lambda-cyhalothrin etc., can be applied to the surface of the entire lawn as directed. Fire ant problems in sensitive areas such as compost piles and gardens may be prevented by treating around the perimeter with a bait or granular insecticide. If it is necessary to control fire ants in vegetable gardens, use only products registered for this use and with instructions for such applications in that use site (See Field Crops).

Treatment of the entire grounds around the headquarters area should prevent infestations of ants indoors and in utility boxes. If ants do cause problems in these areas, specialty products are available that can be applied to eliminate and prevent future infestations. For instance, faster-acting bait formulations such as those containing indoxacarb, hydramethylnon, spinosad or metaflumizone can be applied around utility boxes or other inaccessible areas to eliminate colonies within a few days. Conversely, insect strips such as Hot Shot® No-Pest Strip (dichlorvos) and Rainbow High Tech Insectape Insecticidal Strip or Insect Patch (propoxur) can help prevent infestations in utility housings.


Hay Pastures

Hay bales on a trailer.

Fire ant mounds in hay pastures can cause equipment breakdowns when cutting machinery hits tall, hardened mounds. The ants may also consume seeds or seedlings of some forage crops. On the beneficial side, the ants also prey on other arthropod pests such as armyworms, and they reduce soil compaction by building nests and foraging tunnels. Some producers have replaced sickle-bar-type cutters with disc-type cutters to reduce equipment breakdown. Even these cutters, however, become jammed with grass and moist soil when cutting through ant mounds, resulting in a loss of time. Some producers raise the cutter, at least when approaching tall mounds, thereby losing some yield. Dull cutting blades and increased wear on machinery also cost money and lost time. Custom cutting and baling operators may charge more for their services where fire ant infestations are severe.

Infested hay is a regulated item when it is to be shipped out of quarantined areas. Field workers can be stung, particularly when handling square bales. For these reasons, some growers have shifted from producing square bales to producing round bales.

Where imported fire ants are a problem, costing more than about $15 per acre to treat, broadcasting registered bait-formulated products, such as hydramethylnon (Amdro Pro), methoprene (Extinguish), pyriproxyfen (Esteem), Extinguish Plus (hydramethylnon plus methoprene) or a hopper blend (see below) can reduce ant numbers and result in reduction of mound height and number. Mound treatments using registered products such as agricultural formulations of carbaryl (Sevin), or a fast-acting bait such as hydramethylnon should be reserved only for nuisance mounds.

Shallow disking and dragging a heavy object such as a railroad tie will reduce mound height for several weeks to months but used alone will not reduce ant or mound numbers. In areas infested with multiple queen colonies, dragging may cause the colonies to split into more but smaller colonies. Furthermore, if ants are not eliminated using an insecticide, reduced mound height will be temporary. Tall mounds can persist even after ant colonies are eliminated where grasses and other vegetation have grown into mounds.

Livestock Pastures or Rangelands

image of helicopter applying fire ant bait.

Imported fire ant foragers can quickly recruit other ants to food and moisture resources. Newborn livestock and wildlife, birds hatching from eggs, and confined animals are particularly vulnerable to attack by imported fire ants, although reported cases of injury are not common. During the hot summer months, the frequency of livestock injury and deaths increases dramatically because the ants are starved for food and moisture. For this reason, scheduling fertility programs to avoid birthing during hot summer months can help prevent this problem. When birthing is scheduled for the summer months, placing livestock in a designated birthing pasture that has been treated to reduce fire ant populations may be justifiable and cost effective.

The ants are not known to harm mature animals other than ostriches and emus that, reportedly, can go into shock when stung. Although tall ant mounds can become numerous and unsightly, they cause little economic damage. Fire ant mounds may reduce property values during land sale transactions. Imported fire ants can reduce populations of some other pests such as lone star ticks and forage-feeding caterpillar species.

Treatments for livestock pastures or rangelands include those products registered for hay pastures (see above). Other products are available for use in nonagricultural land that is not being used for animal or plant production. Some insecticide product labels for fire ant control, particularly those considered to be organic, do not list all approved use sites. When in doubt, contact the manufacturer for clarification.

Farm Ponds

Fire ant mounds near a farm pond. Photo by Bart Drees.

Any bodies of water on the farm are attractive to imported fire ants, which must have access to surface or subsurface sources of water to survive. Worker ants will forage heavily along shorelines, and colonies will continually migrate closer to sources of moisture. This can create problems for fishermen who may not be able to stand on a shoreline without being attacked by stinging ants.

Most insecticides are toxic to aquatic organisms including fish. Products containing high concentrations of rotenone or pyrethroids may be particularly hazardous while others such as acephate (Orthene) have lower toxicity to aquatic animals. Orthene is not registered for use in hay or livestock pastures. Bait-formulated products registered for the appropriate use site such as hay pastures can be broadcast near water edges of farm ponds if care is taken not to broadcast particles into the water. Applications may need to be made more frequently around these areas to maintain control because of the favorable habitat for ants that the water provides.


Bait Basics

The broadcast application of a bait product is the least toxic, most cost effective, and environmentally sound approach to reducing imported fire ants in large areas of land. These treatments are particularly suitable where fire ant mounds are numerous (20 or more per acre). In these areas, preservation of native ants is of less concern and treatments may actually increase native ant species numbers after imported fire ants have been reduced. Some ant species, such as red harvester ants, may be particularly sensitive to some bait products, such as those containing hydramethylnon.


All bait formulations consist of an attractant soaked into a carrier particle. The conventional formulation uses soybean oil soaked into de-fatted processed corn grit. The active ingredient is dissolved in the attractive oil, which is consumed by worker ants. It is returned to the ant colony and fed to the workers, the brood (larvae), the queen(s), and the winged reproductive male and female ants. If the oil becomes stale or rancid due to exposure to air over a period of time, the bait particle becomes unattractive to foraging ants and treatment will be ineffective. For this reason, use of a fresh and properly stored product is essential. It is advisable to work closely with your distributor to assure the product is fresh. Avoid mixing bait with seed or fertilizer since this causes bait particles to lose attractiveness. Other formulations using different attractants, carriers, and use rates are also available.

Application Timing

Imported fire ant workers forage for food only when conditions are favorable. This occurs when air temperatures range from 65 to 90 degrees F. In the heat of the summer, foraging occurs predominantly at night so baits should be applied in the late afternoon or early evening. During winter months and times when colonies are not actively producing brood, attractiveness to baits may be reduced. At certain times, some colonies may be more attracted to other available food sources and will ignore the bait. When in doubt about product freshness or presence of foraging behavior, place a potato chip or a small pile of the bait near a fire ant mound. If ants are carrying off bait particles or the potato chip within 30 minutes or so of placement, the time is right and the bait is attractive.

Broadcast Application Methods

fire ant bait spreader mounted to truck

Baits can be broadcast applied using handheld seeders or spreaders. They must be calibrated to apply the amount of product per acre as directed on the product label. Rotating or vibrating agitator mechanisms are preferable because they do not grind the bait particles, which can result in clogging. The hopper opening should be adjusted as small as possible to allow bait to drop onto a spreader fan. Calibrate by applying a known quantity of bait to an area of known size. For larger areas, use a vehicle-mounted, electrically powered applicator such as a Herd GT77 broadcast seeder specifically manufactured to broadcast apply ant bait products. Baits can also be applied aerially provided the hopper and gate on the aircraft are modified to achieve the low use rates for these products.


Speed and Duration of Control

After broadcast application, the mode of action of the ingredient in these bait products determines the speed at which 80 to 90 percent maximum control is achieved. Baits that kill worker ants within a few days to a few weeks (including indoxacarb, fipronil, hydramethylnon, and spinosad) produce maximum results within several weeks after treatment. From that point, reinvasion of treated areas begins and may require additional treatments to maintain control. When used as individual mound treatments, results are even faster and often eliminate treated colonies in several days even where colonies are in inaccessible locations such as sidewalks and driveway cracks, bases of tree trunks, compost beds, and utility housings, but reinvasion will still occur.

Insect growth regulator or IGR products (methoprene, pyriproxyfen) are synthetic chemicals that mimic an insect hormone. These ingredients do not generally kill worker ants, which must die of natural causes before a colony is eliminated. Rather, they affect queen ants and developing brood and preventing them from developing for about a year following treatment. Effects vary by season. A spring or summer treatment achieves maximum control in several months while a late summer or fall application may require 6 months. These products are ideal for maintaining control, once achieved. Suppression from an IGR may last for a year or more. Abamectin containing products (Ascend Award II and Clinch) provide an IGR-like response when broadcast even though this ingredient affects the nervous system. When used as a mound treatment, results occur more quickly.

Cost-Saving Considerations

Applied research has documented several methods that can help reduce the cost of using broadcast applications of bait products. Some of these methods have been adapted by manufacturers and are now registered uses. Others are made available to producers as management options whereby the user assumes responsibility for results obtained.

Hopper blend treatment. A 50:50 mixture of a fast-acting bait product such as hydramethylnon (0.75 pounds Amdro Pro) with a slow-acting, long-lasting IGR such as methoprene (0.75 pounds Extinguish) applied at 1.5 pounds blended product per acre can provide a performance profile characteristic of both products: 80 to 90 percent control in 3 to 6 weeks sustained for a number of months. This use pattern now appears on product labels or supplement labels. Blends using combinations of other fast-acting and slow-acting IGR products may also provide this effect such as hydramethynon + pyriproxyfen.

Skip-swath application. IGR products can be applied to every other 20- to 25-foot swath at the use rate directed on the product labels. This leaves every other strip untreated. In this application method, only half the use rate product is applied per acre and half the time is needed to apply the product to the land area. The effects of these stable, slow-acting baits have been shown to produce levels of control similar to those achieved by the conventional application pattern. This use pattern, however, is not supported by some of the manufacturers and does not constitute a recommendation by Extension in some states. In Oklahoma, regulations do not allow producers to apply pesticides at rates below those on the product label. In most other states, however, the user can choose to apply at reduced rates.

Mixing with fertilizer.  Studies have shown that you can mix your fertilizer and fire ant bait, but you must apply the mixture immediately after the mixing process for the greatest chance of success with this method.  Fertilizer has the potential to reduce the attractiveness of fire ant baits.   If you cannot apply the bait-fertilizer mix right away, see the next section on tandem application. Be sure to check regulations in your state, a person with a pesticide handlers license may need to be present to blend the bait and fertilizer.


Tandem application: Herd GT77 seeder mounted on a fertilizer spreader.

Tandem application. Blending bait products with seed or fertilizer to save a trip across the field is discouraged because this method can quickly dilute or reduce attractiveness of the bait product. However, a bait applicator such as a Herd GT77 broadcast seeder can be mounted on a dry fertilizer spreader or seeder and calibrated so that both materials are applied simultaneously. Swath width differences between lighter bait versus heavier fertilizer particles may, however, result in a skip-swath treatment of ant bait.

Additional information on Broadcast Baits can be found in Broadcast Baits for Fire Ant Control and The Latest Broadcast on Fire Ant Control Products.

Individual Mound Treatments With Contact Insecticides

Individual mound treatments are generally considered the most labor intensive and costly treatment methods, and they give the shortest fire ant free period. However, fast-acting methods are the most desirable in some situations. Where imported fire ant mound numbers are small (fewer than 20 mounds per acre) or where preservation of native ant species such as red harvester ants and other competitor ant species is desired, this may be a preferred method. Some products, such as those containing pyrethrins, pyrethroids, acephate, or spinosad, or d-limonene, can provide almost immediate control when and where necessary. Individual mound treatments are most effective when the queen and her brood are near the top of the mound. During cold, hot, or dry conditions, the queen may be deeper in the ground and survive the treatment. Finding all of the mounds in an area may be a challenge and colonies that do not have visible mounds will be missed so you may have to retreat in a short time.

Acephate products such as Orthene Turf, Tree, and Ornamental Spray can be diluted in water and poured over a mound in lawns and noncrop areas. This is known as a mound drench. The dust formulation can also be used straight from the container by sprinkling a measured amount of powder on top of the mound. Agricultural and horticultural formulations of carbaryl (Sevin) are available for use as a mound drench on lawns, non-crop areas, pastures, and hayfields. It is one of the least expensive mound treatments available for treating ant mounds in pastures (about $.10 per mound for the cost of the chemical) when the diluted product is poured onto mounds from a nurse tank. Many more ant mound treatment products are available for use in nonagricultural sites in a livestock operation. Some are considered organic. Some cost pennies per treated mound; others could cost more than $6.00 per treated mound. Time from treatment to control varies. IGR bait products, for instance, have mound treatment instructions on product labels. Speed of control compared to the broadcast application of these materials, however, does not increase when applying material to individual mounds. Always read and follow instructions on the product label.

More Information on Fire Ants

For more information, call your county Extension office. Look in your telephone directory under your county’s name to find the number.

Other resources on fire ants can be found at Publications and Resource Links.

Pesticide Disclaimer


Kathy L. Flanders, Extension Entomologist, Associate Professor, Entomology and Plant Pathology, Auburn University; and Bastiaan M. Drees, Extension Entomologist, Professor, Entomology, Texas A&M University.

Originally published as a joint publication of the Alabama Cooperative Extension System and Texas AgriLife Extension Service (Alabama Cooperative Extension Circular ANR-1248, Management of Imported Fire Ants in Cattle Production Systems).