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UNIVERSITY OF FLORIDA ARTICLE ON FIRE ANTS Minimize

Fire Ants

 

Introduction

Two species of fire ants are found in Florida. Most notorious is Solenopsis invicta Buren, the red imported fire ant (RIFA), followed by the much less common S. geminata (Fabricius), the tropical or native fire ant. Other more common U.S. members of this genus include S. xyloni McCook, the southern fire ant; S. aurea Wheeler, found in western states; and S. richteri Forel, the black imported fire ant, confined to northeastern Mississippi and northwestern Alabama.

Distribution

RIFA is native to central South America. It is also established in the U.S. and Australia (Queensland, near Brisbane - as of 2001) (Shattuck and Barnett 2005).

It has been reported in Antiqua and Babuda, Bahamas, the British and U.S. Virgin Inslands, Cayman Islands, Hong Kong, Malaysia, Singapore, Taiwan, Trinidad and Tobago, and the Turks and Caicos Islands (ISSG 2006).

Populations in New Zealand and mainland China are either currently eradicated (N.Z.) or undergoing eradication (China) (ISSG 2006).

In the U.S., RIFA was first introduced from Brazil into either Mobile, Alabama, or Pensacola, Florida, between 1933 and 1945. However, the RIFA infests Puerto Rico, and all or part of many southern and western states from Maryland to southern California (Mobley and Redding 2005).

As of August 2008, the following U.S. states have established infestations: Alabama, Arkansas, California, Florida, Georgia, Louisiana, Maryland, Mississippi, New Mexico, North Carolina, South Carolina, Oklahoma, Tennessee, Texas, and Virginia. The infestations in Maryland and Virginia are sparse and still not formally recognized on USDA maps. Small, localized populations exist in the San Francisco Bay area (David Williams, personal communication, 18 August 2008).

Taxonomy

Originally, S. invicta was believed to be a red form of the black species S. saevissima richteri Forel. In 1972, Buren described the black imported fire ant to be a separate and distinct species, S. richteri Forel, and the RIFA was identified as S. invicta Buren (Hedges 1997). Literature dated earlier than 1972 referring to the biology and control of "S. saevissima richteri" almost exclusively refers to S. invicta (Ebeling 1975). Some literature found may contain the name S. wagneri, which refers to S. invicta (Shattuck et al. 1999).

Identification

The pedicel, or "waist" in the RIFA consists of two segments. Workers consist of many sizes (polymorphic) between 2.4 to 6 mm (1/8 to 1/4 in) (Hedges 1998). The mandible has four distinct teeth and the antennae are 10-segmented, ending in a two-segmented club. A sting is present at the tip of the gaster. Body color is usually red to brown in color with a black gaster (Hedges 1997).

fire_ant1_thumb.jpg   Worker-lateral view

fireant2_thumb.jpg   SEM - lateral view

fire_ant3thumb.jpg   Head

fireant4thumb.jpg   Head

fireant5thumb.jpg   SEM Propodeum

Mounds are built of soil and are seldom larger than 46 cm (18 in) in diameter. When a mound is disturbed, ants emerge aggressively to bite and sting the intruder. A white pustule usually appears the next day at the site of the sting (Cohen 1992).

It is important to distinguish between the RIFA and the native fire ant in order for appropriate control measures to be taken. Mounds of S. geminata will contain workers with square-shaped heads that are larger in proportion to the rest of their body. These workers collect and mill seeds for the colony (Drees 1997). Workers of S. invicta do not have workers with disproportionate head to body ratios.

Fireant6thumb.jpg   Worker size range

Fireant7thumb.jpg   Colony with brood

fireant8.jpg   Mount in sandy soil

Biology and Life Cycle

The lifespan of RIFA workers depends on their size. Minor workers may live 30 to 60 days, media workers 60 to 90 days, major workers 90 to 180 days, and queens may live two to six years. Complete lifecycle from egg to adult takes between 22 and 38 days (Hedges 1997).

Mating flights are the primary means of colony propagation, secondarily, budding can occur in which a portion of a colony becomes an autonomous unit. After the colony reaches one year of age, reproductive alates are produced. Six to eight mating flights consisting of up to 4,500 alates each occur between the spring and fall (Vinson and Sorenson 1986). Mating flights usually occur midday on a warm (>74°F/24°C), sunny day following rain (Hedges 1997). Mating occurs during flight and the males die soon after mating with females. In the southern United States, as many as 97,000 queens may be produced per acre of infested land per year (Vinson and Sorenson 1986). Alates are often attracted to swimming pools where homeowners can find thousands of winged ants trapped on the water's surface (Hedges 1997).

After mating flights occur, it is common to find newly-mated queens clustered together under shelter. This clustering and the cooperation of the newly-mated queens aid in establishing a colony. However, as the colony grows all but one queen will be killed, except in the instance of multiple queen colonies (Vinson and Sorenson 1986).

Once the female alate has mated, she will rake her legs forward to snap her wings off at the basal suture and find a suitable spot to begin a new colony (Holldobler 1990). Often this spot is under rocks, leaves or in a small crack or crevice, such as at the edge of a sidewalk, driveway, or street. The queen will burrow into the soil to excavate a small chamber, which is sealed off to keep predators out. Within 24 hours of mating, the queen will have laid between 10 to 15 eggs, which will hatch in eight to 10 days. By the time the first group of eggs hatch, the queen will have laid from 75 to 125 more eggs. The larval stage typically lasts six to 12 days and the pupal stage for nine to 16 days. The newly-mated queen will stop laying eggs until the first batch of workers mature. This process takes from two weeks to one month. The queen will feed the first batch of young larvae oils regurgitated from her crop, trophic eggs or secretions from her salivary glands. The queen's wing muscles, which are no longer needed, break down to provide the nutrients for the young larvae (Vinson and Sorenson 1986).

The first group of workers to emerge are characteristically small due to the limitations in nutrients that the queen provides. These workers, termed "minims," burrow out of the chamber and begin foraging for food to feed the queen and new larvae. The minims also begin construction of the mound. Within one month, larger workers are being produced and the mound is growing in size. By six months the colony has reached several thousand workers and the mound can be seen in a field or lawn. Colonies of this size generally contain a few large workers (major workers), many medium sized workers (media workers), and a majority of small workers (minor workers). The three types of workers are all sterile females and serve to perform tasks necessary to maintain the colony. The queen is the single producer of eggs and is capable of producing as many as 1,500 eggs per day. Mature RIFA colonies may contain as many as 240,000 workers with a typical colony consisting of 80,000 workers (Vinson and Sorenson 1986).

The diet of foraging workers consists of dead animals, including insects, earthworms, and vertebrates. Workers also collect honeydew and will forage for sweets, proteins, and fats in homes. They are sometimes attracted to piles of dirty laundry. Larvae are fed only a liquid diet until they reach the third instar. When the larvae reach the fourth instar, they are able to digest solid foods. Worker ants will bring solid food rich in protein and deposit it in a depression in front of the mouth of the larvae. The larvae will secrete digestive enzymes that break down the solid food and regurgitate it back to worker ants. The queen is fed some of the digested protein to support egg production. As long as food is plentiful, egg production is at its maximum (Vinson and Sorenson 1986).

The sting of the RIFA possesses venom of an alkaloid nature, which exhibits potent necrotoxic activity. Approximately 95% of the venom is composed of these alkaloids, which are responsible for both the pain and white pustule that appears approximately one day after the sting occurs. The remainder of the venom contains an aqueous solution of proteins, peptides, and other small molecules that produce the allergic reaction in hypersensitive individuals. Worker fire ants will attach to the skin using their mandibles and will subsequently lower the tip of the gaster to inject the stinger into the victim. Thus, fire ants both bite and sting, but only the sting is responsible for the pain and pustule (Goddard 1996).

fireantbites.jpg   Fire Ant Bites

  

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