Termite damage to historic buildings is both costly and irreversible and can diminish the historic significance of the structure through the loss of original building fabric. Cultural landscapes are also vulnerable to termite damage. In New Orleans, many of the historic oak trees that add shelter and beauty to the city are threatened by an introduced species, the Formosan subterranean termite, Coptotermes formosanus. This species can construct nests within the dead heartwood of the tree eventually weakening it to the point where it is unstable and falls in bad weather.
Conventional methods for the control of subterranean termite infestations rely heavily on the use of organic (i.e., carbon-based) insecticides to provide a barrier for the exclusion of soil-borne termites from a structure. Typically, large volumes of liquid insecticide are applied to the soil beneath and surrounding an infested building.
Poisoning the soil is not a sustainable practice and may contaminate groundwater as well as pose health and safety hazards. Moreover, such an approach is not altogether effective. Creating an uninterrupted barrier of treated soil beneath an existing structure is extremely difficult, and gaps in the barrier invariably allow access to the structure. Also, because the soil treatment only deters termite attack, the vast majority of subterranean termites are unaffected.
Conventional soil treatments often result in physical damage to the structure; they require the drilling of often disfiguring and unsightly holes in the foundation floor before liquid insecticides are injected into the soil.
Related Products: 1999-11 Elimination of Subterranean Termite Populations from the Statue of Liberty National Monument Using a Bait Matrix Containing an Insect Growth Regulator, Hexaflumuron
2002-21 Control of Formosan Subterranean Termite Infestations Using Baits Containing an Insect Growth Regulator
2003-01 Control of Subterranean Termite Populations at San Cristobal and El Morro, San Juan National Historic Site