Formosan Subterranean Termite (Coptotermes formosanus) - Wiki
Formosan subterranean termite
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[Photo] Formosan Subterranean Termite, Coptotermes formosanus. Adults, worker (top), soldier (bottom) - Gerald J. Lenhard www.invasive.org.
The Formosan subterranean termite, Coptotermes formosanus, is an invasive species of termite. It has been transported worldwide from its native range in southern China to Formosa (Taiwan, where it gets its name) and Japan. In the 20th century it became established in South Africa, Hawaii and in the continental United States.
The Formosan subterranean termite is often nicknamed the Super termite because of its destructive habits. This is because of the large size of its colonies, and the termites' ability to consume wood at a rapid rate. A single colony may contain several million termites (versus several hundred thousand termites for other subterranean termite species) that forage up to 300 feet (100 m) in soil. Because of its population size and foraging range, the presence of colonies poses serious threats to nearby structures. Once established, FST has never been eradicated from an area.
Formosan subterranean termites infest a wide variety of structures (including boats and high-rise condominiums) and can damage trees. In the United States it is responsible for tremendous property damage resulting in large treatment and repair costs.
The Formosan subterranean termite acquired its name because it was first described in Taiwan in the early 1900s, but C. formosanus is probably endemic to southern China. This destructive species was apparently transported to Japan prior to the 1600s and to Hawaii in the late 1800s (Su and Tamashiro 1987). By the 1950s, it was reported in South Africa and Sri Lanka. During the 1960s it was found in Texas, Louisiana, and South Carolina. In 1980, a well-established colony was thriving in a condominium in Hallandale, Florida. The Formosan termite is rarely found North of 35° north latitude. They have been reported from eleven states including: Alabama, California, Florida, Georgia, Hawaii, Louisiana, Mississippi, North Carolina, South Carolina, Tennessee, and Texas. Their distribution will probably continue to be restricted to southern areas because their eggs will not hatch below about 20 °C (68 °F).
Coptotermes formosanus is a generalist, colonial, social insect building colonies either above or below ground (Howarth 1985). Termites have a caste system including: a king, queen, workers, soldiers, and reproductives or alates (winged termites). The workers provide the food, soldiers defend the nest, and reproductives breed the colony. The colony is led by a queen who has a life span of approximately 15 years and is capable of producing up to 2,000 eggs a day. The workers and soldiers may live 3-5 years with caste proportions of approximately 360 workers: 40 soldiers (Grace et al. 1996a). A colony is surrounded by an extensive foraging system consisting of tunnels underneath the ground, with a mature colony containing millions of termites (Tulane 2002, ARS 2002). Grace et al. (1995) found older and less vigorous colonies contained workers who had a larger body mass than workers in younger colonies. The diet of the subterranean termite consists of anything that contains wood fiber (homes, building, live trees), crops, and plants. Live trees include: Oak, Ash, and water-bound Cypress (ARS 2002). Crops include sugarcane (Broughton and Grace 1994).
Cabrera et al. (2001) state that, "Like many other termites, the Formosan termite feeds on wood and other materials that contain cellulose, such as paper and cardboard. Bacteria and other single-celled organisms live in the termite digestive system and digest cellulose providing nutrition and energy for these termites. Although they feed mostly on wood, they will eat other cellulose-containing materials such as cardboard and paper. However, they are known to chew through foam insulation boards, thin lead and copper sheeting, plaster, asphalt, and some plastics."
Morales-Ramos and Rojas, (2003) found that, "Colonies of C. formosanus feeding on pecan, Carya illinoensis (Wangenh.), and red gum, Liquidambar styraciflua L., produced significantly more progeny than colonies feeding on other wood species tested. Progeny of colonies feeding on pecan and American ash, Fraxinus americana L., had significantly greater survival than progeny of colonies feeding on other wood species. Colonies feeding on nutritionally supplemented cellulose based matrix showed similar fitness characteristics as colonies feeding on the best wood treatments. These results indicate that differences observed in colony fitness can be partially explained by nutritional value of the food treatment, raising the possibility that wood from different tree species have different nutritional values to the Formosan subterranean termites. This suggests that feeding preference of C. formosanus is at least partially influenced by the nutritional value of the food source."
Su and Scheffrahn (2000) report that, "A single colony of C. formosanus may produce over 70,000 alates. After a brief flight, alates shed their wings. Females immediately search for nesting sites with males following closely behind. When the pair find a moist crevice with wooden materials, they form the royal chamber and lay approximately 15 to 30 eggs. Within two to four weeks, young termites hatched from the eggs. The reproductives nurse the first group of young termites until they reach third instar. One to two months later, the queen lay the second batch eggs which would be eventually nursed by termites from the first egg batch. It may take three to five years before a colony reach substantial number to cause severe damage and produce alates."
Cabrera et al. (2001) state that, "After swarming and landing on the ground, the alates break off their wings and search for a mate. Once a mate is found, the male and female search for a crevice in damp ground or wood, hollow out a small chamber, and crawl inside. The pair, now known as the king and queen, mate and within a few days the queen starts laying eggs. The young, known as larvae, hatch from the eggs and are fed by the king and queen. A mature colony contains distinct groups called castes. These castes look different from one another and each has a special duty within the colony. The king and queen C. formosanus are the primary reproductives and are responsible for reproduction. If the queen or king dies or the colony becomes large, secondary reproductives may form and begin reproduction. Soldiers defend the colony against predators and other natural enemies. Workers take care of and feed the larvae, reproductives and soldiers, tend the eggs, build and maintain the nest, and search for food. Alate nymphs become alates when they are fully grown."
C. formosanus is the most economically serious pest in Hawaii, costing residents $100 million a year (Tulane 2002). Historic structures in Hawaii have been threatened, such as Iolani Palace in Honolulu (Grace et al. 2002). C. formosanus has its greatest impact in North America. Lax and Osbrink (2003) states that, "C. formosanus Shiraki is currently one of the most destructive pests in the USA. It is estimated to cost consumers over US 1 billion annually for preventative and remedial treatment and to repair damage caused by this insect. "Raloff (2003) states that in North America C. formosanus, "create significantly bigger colonies, and therefore more damage, than do their native U.S. cousins, which reside underground and enter buildings only to forage." Fei and Henderson (2003) state that, "The Formosan subterranean termite, C. formosanus Shiraki is the most destructive, difficult to control and economically important species of termite in the southern United States." In the United States C. formosanus causes an estimated 1 billion dollars in damage per year. In New Orleans, 30-50% of the city's 4,000 historic live Oak trees are believed to be infected with total damage costing the city $300 million a year (Tulane 2002). Impacts of increased use of pesticides to control the termite population has lead to higher costs for homeowners and destructive effects on the environment, including contamination of water supplies caused by runoff (Yates et al. 2000).
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